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Addressing the new mortality: Counseling on lethal means
Although I have worked with depressed patients for many years, I have come to realize that
Firearms are now the leading cause of death for U.S. children and youth aged 1-24 years, an increase of 29.5% from 2019 to 2020. Among all youth firearm deaths, homicides (58%), suicides (37%), unintentional shootings (2%), and legal intervention (1%) were causes. These horrific numbers do not even include almost 400,000 child ED visits from 2010 to 2019 for nonfatal firearm injuries that were unintentional (39.4%), assault-related (37.7%), or self-harm (1.7%).
Accidental injury from firearms is greater when the weapon is a handgun or pistol as these are small enough to be fired by a 2-year-old, more likely to be stored loaded with ammunition as “self-protection,” and less likely to be in a gun storage case.
While an overall decline in gun ownership has occurred in homes with children ages 1-5, the proportion of weapons that are handguns has actually increased, posing higher danger to the family itself. We can’t assume hiding a weapon is ever enough as children often know the location of guns and their keys or lock codes.
Many Americans fear for their safety, have doubts about policing as protective, and strongly assert the need to protect themselves. While asking about guns in the home is universally recommended, these beliefs need to be taken into account in the discussion. It is also important to speak with the firearm owner, most often the father. We might ask, “Do you feel that you need a firearm in your home to feel safe?” as a way to nonjudgmentally acknowledge their beliefs. Because women are more likely to be killed by their spouses than by all other types of assailants combined, we can ask, “What dangers worry you the most?” and “Do you feel safe in your current and any past relationships?” If their answer is worrisome, the discussion must first turn to dealing with the family situation. If the perceived threat is outside the family, we can inform families that having a gun in evidence in the home greatly increases the risk of being hurt by an assailant as well as risk for child injury and death. We might ask, “Can you think of any other ways to protect your home (for example, alarm system, outdoor lighting, dog, or pepper spray)?”
If parents insist on keeping a gun, we can strongly and directly recommend that all firearms be stored locked, unloaded, and with ammunition locked and stored separately. We can provide information on such locking and storage options. Programs in which information on devices to disable the gun were provided – such as cables to pass through the chamber or trigger locks – have shown big increases in safe gun storage. It may be worth saying/posting information on the Child Access Prevention (CAP) laws, enacted by many states, making adults owning firearms that are not stored safely unloaded legally responsible for any resulting injuries or deaths. Such laws have reduced injuries of both children and adults by 30%-40%, unintentional gun deaths by 23%, and gun suicides by 11% (for 14- to 17-year-olds).
If the reason for owning a gun is for hunting, the owner is more likely to have had firearm safety training and use a long gun. Long guns are more difficult for a child. Discussing safe hunting gun storage is still worth recommending, as is removing any handguns they may own as these are most dangerous.
Removing or securing firearms is important for everyone’s safety but it is an essential and perhaps more difficult topic of discussion when a child is at risk for suicide or harming others. We need to consider some crucial facts about completed suicide, now the leading cause of death in children and adolescents and largely from guns. Most suicide attempts occur within 10 minutes of having a wave of suicidal thoughts. These waves of thoughts may be acted upon immediately when lethal means are available, with guns by far the most likely to result in death. It is therefore critical to assess access and counsel about lethal means in every family with a child reporting thoughts of killing themselves or others, or a history of violence or substance use. Even without imminent risk of self-harm, we can start a discussion about securing lethal means by saying, “It’s like wearing a seatbelt; you don’t expect a car crash, but if one happens, wearing a safety belt can greatly reduce injury. Guns are the most frequent cause of dying, so let’s make a plan to reduce access to those.”
Creating a written plan to deal with waves of suicidal thoughts is the basis of a Safety Plan. We can accurately remind families and youth that “When someone is struggling like this, sometimes suicidal feelings can show up and get worse fast. There are steps I routinely recommend to make things safer at home.”
It is important to assess the presence of guns in the primary home and other places the child spends time even if we have asked in the past, as things change. If firearms are present, even if locked up appropriately, when a child is having suicidal thoughts we can say, “What some gun owners in your situation do is store weapons elsewhere temporarily with someone they trust, at a self-storage unit, gun or pawn shop, or police department. I’d like to talk over storage options like that with you.” If the child themself owns the firearm, they need to agree with a removal or lock up plan for giving up their access.
If the gun owner is unwilling to remove firearms, even temporarily, we can ask them to lock them up separately from ammunition, a move that alone reduces danger a lot, and ensure the child has no access to the keys or combination. Better yet, we can ask, “Would you be willing to ask someone who doesn’t live in your home to hold the keys or to change the combination temporarily or at least store the ammunition?” They could also remove from the home a critical component of the gun so that it can’t fire, such as the slide or firing pin. If even those steps are not accepted, we can ask, “What other options would you be willing to consider to increase your child’s safety, at least until s/he is doing better?”
Whatever plan we negotiate with the family, as for any health behavior change strategy, it is more likely to be implemented if we summarize the specifics, write them down, and set a time-frame for carrying it out. We might say, “Let’s review who’s doing what and when: Dad will take the guns to his uncle’s house tomorrow and meanwhile, he will put them in the gun safe.” A follow-up call or contact soon, a key part of management of suicidal ideation, also signals how strongly we care about these safety measures and has been shown to increase implementation. We might call to say, “I wanted to check in and see how [you/your child] is doing and also ask how the plan is going that we talked about for gun storage.”
Discussions about firearms can spark strong emotions, especially if the family suspects political motivations. The Florida law prohibiting health care providers from discussing guns with patients was overturned but the thinking remains and may give us pause before having these important conversations. First of all, we need to stay calm and be prepared with key facts. The “sandwich” method is a useful approach to reduce resistance: start with something you can agree on (such as “What we hear on the news can make us all scared about safety”); then add the facts we want to convey (such as “You are actually less likely to get hurt in a break-in if you do not have a gun”); then conclude with a positive (such as “I can see that you are giving a lot of thought to how to keep your family safe”). Families generally trust our intentions and knowledge and appreciate rather than resent safety counseling when it is given in a nonjudgmental manner. Because we are protectors of child health, firearm safety must be an essential part of our anticipatory guidance.
Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at pdnews@mdedge.com.
*Wording suggestions adapted from https://www.hsph.harvard.edu/means-matter/recommendations/clinicians.
Although I have worked with depressed patients for many years, I have come to realize that
Firearms are now the leading cause of death for U.S. children and youth aged 1-24 years, an increase of 29.5% from 2019 to 2020. Among all youth firearm deaths, homicides (58%), suicides (37%), unintentional shootings (2%), and legal intervention (1%) were causes. These horrific numbers do not even include almost 400,000 child ED visits from 2010 to 2019 for nonfatal firearm injuries that were unintentional (39.4%), assault-related (37.7%), or self-harm (1.7%).
Accidental injury from firearms is greater when the weapon is a handgun or pistol as these are small enough to be fired by a 2-year-old, more likely to be stored loaded with ammunition as “self-protection,” and less likely to be in a gun storage case.
While an overall decline in gun ownership has occurred in homes with children ages 1-5, the proportion of weapons that are handguns has actually increased, posing higher danger to the family itself. We can’t assume hiding a weapon is ever enough as children often know the location of guns and their keys or lock codes.
Many Americans fear for their safety, have doubts about policing as protective, and strongly assert the need to protect themselves. While asking about guns in the home is universally recommended, these beliefs need to be taken into account in the discussion. It is also important to speak with the firearm owner, most often the father. We might ask, “Do you feel that you need a firearm in your home to feel safe?” as a way to nonjudgmentally acknowledge their beliefs. Because women are more likely to be killed by their spouses than by all other types of assailants combined, we can ask, “What dangers worry you the most?” and “Do you feel safe in your current and any past relationships?” If their answer is worrisome, the discussion must first turn to dealing with the family situation. If the perceived threat is outside the family, we can inform families that having a gun in evidence in the home greatly increases the risk of being hurt by an assailant as well as risk for child injury and death. We might ask, “Can you think of any other ways to protect your home (for example, alarm system, outdoor lighting, dog, or pepper spray)?”
If parents insist on keeping a gun, we can strongly and directly recommend that all firearms be stored locked, unloaded, and with ammunition locked and stored separately. We can provide information on such locking and storage options. Programs in which information on devices to disable the gun were provided – such as cables to pass through the chamber or trigger locks – have shown big increases in safe gun storage. It may be worth saying/posting information on the Child Access Prevention (CAP) laws, enacted by many states, making adults owning firearms that are not stored safely unloaded legally responsible for any resulting injuries or deaths. Such laws have reduced injuries of both children and adults by 30%-40%, unintentional gun deaths by 23%, and gun suicides by 11% (for 14- to 17-year-olds).
If the reason for owning a gun is for hunting, the owner is more likely to have had firearm safety training and use a long gun. Long guns are more difficult for a child. Discussing safe hunting gun storage is still worth recommending, as is removing any handguns they may own as these are most dangerous.
Removing or securing firearms is important for everyone’s safety but it is an essential and perhaps more difficult topic of discussion when a child is at risk for suicide or harming others. We need to consider some crucial facts about completed suicide, now the leading cause of death in children and adolescents and largely from guns. Most suicide attempts occur within 10 minutes of having a wave of suicidal thoughts. These waves of thoughts may be acted upon immediately when lethal means are available, with guns by far the most likely to result in death. It is therefore critical to assess access and counsel about lethal means in every family with a child reporting thoughts of killing themselves or others, or a history of violence or substance use. Even without imminent risk of self-harm, we can start a discussion about securing lethal means by saying, “It’s like wearing a seatbelt; you don’t expect a car crash, but if one happens, wearing a safety belt can greatly reduce injury. Guns are the most frequent cause of dying, so let’s make a plan to reduce access to those.”
Creating a written plan to deal with waves of suicidal thoughts is the basis of a Safety Plan. We can accurately remind families and youth that “When someone is struggling like this, sometimes suicidal feelings can show up and get worse fast. There are steps I routinely recommend to make things safer at home.”
It is important to assess the presence of guns in the primary home and other places the child spends time even if we have asked in the past, as things change. If firearms are present, even if locked up appropriately, when a child is having suicidal thoughts we can say, “What some gun owners in your situation do is store weapons elsewhere temporarily with someone they trust, at a self-storage unit, gun or pawn shop, or police department. I’d like to talk over storage options like that with you.” If the child themself owns the firearm, they need to agree with a removal or lock up plan for giving up their access.
If the gun owner is unwilling to remove firearms, even temporarily, we can ask them to lock them up separately from ammunition, a move that alone reduces danger a lot, and ensure the child has no access to the keys or combination. Better yet, we can ask, “Would you be willing to ask someone who doesn’t live in your home to hold the keys or to change the combination temporarily or at least store the ammunition?” They could also remove from the home a critical component of the gun so that it can’t fire, such as the slide or firing pin. If even those steps are not accepted, we can ask, “What other options would you be willing to consider to increase your child’s safety, at least until s/he is doing better?”
Whatever plan we negotiate with the family, as for any health behavior change strategy, it is more likely to be implemented if we summarize the specifics, write them down, and set a time-frame for carrying it out. We might say, “Let’s review who’s doing what and when: Dad will take the guns to his uncle’s house tomorrow and meanwhile, he will put them in the gun safe.” A follow-up call or contact soon, a key part of management of suicidal ideation, also signals how strongly we care about these safety measures and has been shown to increase implementation. We might call to say, “I wanted to check in and see how [you/your child] is doing and also ask how the plan is going that we talked about for gun storage.”
Discussions about firearms can spark strong emotions, especially if the family suspects political motivations. The Florida law prohibiting health care providers from discussing guns with patients was overturned but the thinking remains and may give us pause before having these important conversations. First of all, we need to stay calm and be prepared with key facts. The “sandwich” method is a useful approach to reduce resistance: start with something you can agree on (such as “What we hear on the news can make us all scared about safety”); then add the facts we want to convey (such as “You are actually less likely to get hurt in a break-in if you do not have a gun”); then conclude with a positive (such as “I can see that you are giving a lot of thought to how to keep your family safe”). Families generally trust our intentions and knowledge and appreciate rather than resent safety counseling when it is given in a nonjudgmental manner. Because we are protectors of child health, firearm safety must be an essential part of our anticipatory guidance.
Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at pdnews@mdedge.com.
*Wording suggestions adapted from https://www.hsph.harvard.edu/means-matter/recommendations/clinicians.
Although I have worked with depressed patients for many years, I have come to realize that
Firearms are now the leading cause of death for U.S. children and youth aged 1-24 years, an increase of 29.5% from 2019 to 2020. Among all youth firearm deaths, homicides (58%), suicides (37%), unintentional shootings (2%), and legal intervention (1%) were causes. These horrific numbers do not even include almost 400,000 child ED visits from 2010 to 2019 for nonfatal firearm injuries that were unintentional (39.4%), assault-related (37.7%), or self-harm (1.7%).
Accidental injury from firearms is greater when the weapon is a handgun or pistol as these are small enough to be fired by a 2-year-old, more likely to be stored loaded with ammunition as “self-protection,” and less likely to be in a gun storage case.
While an overall decline in gun ownership has occurred in homes with children ages 1-5, the proportion of weapons that are handguns has actually increased, posing higher danger to the family itself. We can’t assume hiding a weapon is ever enough as children often know the location of guns and their keys or lock codes.
Many Americans fear for their safety, have doubts about policing as protective, and strongly assert the need to protect themselves. While asking about guns in the home is universally recommended, these beliefs need to be taken into account in the discussion. It is also important to speak with the firearm owner, most often the father. We might ask, “Do you feel that you need a firearm in your home to feel safe?” as a way to nonjudgmentally acknowledge their beliefs. Because women are more likely to be killed by their spouses than by all other types of assailants combined, we can ask, “What dangers worry you the most?” and “Do you feel safe in your current and any past relationships?” If their answer is worrisome, the discussion must first turn to dealing with the family situation. If the perceived threat is outside the family, we can inform families that having a gun in evidence in the home greatly increases the risk of being hurt by an assailant as well as risk for child injury and death. We might ask, “Can you think of any other ways to protect your home (for example, alarm system, outdoor lighting, dog, or pepper spray)?”
If parents insist on keeping a gun, we can strongly and directly recommend that all firearms be stored locked, unloaded, and with ammunition locked and stored separately. We can provide information on such locking and storage options. Programs in which information on devices to disable the gun were provided – such as cables to pass through the chamber or trigger locks – have shown big increases in safe gun storage. It may be worth saying/posting information on the Child Access Prevention (CAP) laws, enacted by many states, making adults owning firearms that are not stored safely unloaded legally responsible for any resulting injuries or deaths. Such laws have reduced injuries of both children and adults by 30%-40%, unintentional gun deaths by 23%, and gun suicides by 11% (for 14- to 17-year-olds).
If the reason for owning a gun is for hunting, the owner is more likely to have had firearm safety training and use a long gun. Long guns are more difficult for a child. Discussing safe hunting gun storage is still worth recommending, as is removing any handguns they may own as these are most dangerous.
Removing or securing firearms is important for everyone’s safety but it is an essential and perhaps more difficult topic of discussion when a child is at risk for suicide or harming others. We need to consider some crucial facts about completed suicide, now the leading cause of death in children and adolescents and largely from guns. Most suicide attempts occur within 10 minutes of having a wave of suicidal thoughts. These waves of thoughts may be acted upon immediately when lethal means are available, with guns by far the most likely to result in death. It is therefore critical to assess access and counsel about lethal means in every family with a child reporting thoughts of killing themselves or others, or a history of violence or substance use. Even without imminent risk of self-harm, we can start a discussion about securing lethal means by saying, “It’s like wearing a seatbelt; you don’t expect a car crash, but if one happens, wearing a safety belt can greatly reduce injury. Guns are the most frequent cause of dying, so let’s make a plan to reduce access to those.”
Creating a written plan to deal with waves of suicidal thoughts is the basis of a Safety Plan. We can accurately remind families and youth that “When someone is struggling like this, sometimes suicidal feelings can show up and get worse fast. There are steps I routinely recommend to make things safer at home.”
It is important to assess the presence of guns in the primary home and other places the child spends time even if we have asked in the past, as things change. If firearms are present, even if locked up appropriately, when a child is having suicidal thoughts we can say, “What some gun owners in your situation do is store weapons elsewhere temporarily with someone they trust, at a self-storage unit, gun or pawn shop, or police department. I’d like to talk over storage options like that with you.” If the child themself owns the firearm, they need to agree with a removal or lock up plan for giving up their access.
If the gun owner is unwilling to remove firearms, even temporarily, we can ask them to lock them up separately from ammunition, a move that alone reduces danger a lot, and ensure the child has no access to the keys or combination. Better yet, we can ask, “Would you be willing to ask someone who doesn’t live in your home to hold the keys or to change the combination temporarily or at least store the ammunition?” They could also remove from the home a critical component of the gun so that it can’t fire, such as the slide or firing pin. If even those steps are not accepted, we can ask, “What other options would you be willing to consider to increase your child’s safety, at least until s/he is doing better?”
Whatever plan we negotiate with the family, as for any health behavior change strategy, it is more likely to be implemented if we summarize the specifics, write them down, and set a time-frame for carrying it out. We might say, “Let’s review who’s doing what and when: Dad will take the guns to his uncle’s house tomorrow and meanwhile, he will put them in the gun safe.” A follow-up call or contact soon, a key part of management of suicidal ideation, also signals how strongly we care about these safety measures and has been shown to increase implementation. We might call to say, “I wanted to check in and see how [you/your child] is doing and also ask how the plan is going that we talked about for gun storage.”
Discussions about firearms can spark strong emotions, especially if the family suspects political motivations. The Florida law prohibiting health care providers from discussing guns with patients was overturned but the thinking remains and may give us pause before having these important conversations. First of all, we need to stay calm and be prepared with key facts. The “sandwich” method is a useful approach to reduce resistance: start with something you can agree on (such as “What we hear on the news can make us all scared about safety”); then add the facts we want to convey (such as “You are actually less likely to get hurt in a break-in if you do not have a gun”); then conclude with a positive (such as “I can see that you are giving a lot of thought to how to keep your family safe”). Families generally trust our intentions and knowledge and appreciate rather than resent safety counseling when it is given in a nonjudgmental manner. Because we are protectors of child health, firearm safety must be an essential part of our anticipatory guidance.
Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. E-mail her at pdnews@mdedge.com.
*Wording suggestions adapted from https://www.hsph.harvard.edu/means-matter/recommendations/clinicians.
High school athletes sustaining worse injuries
High school students are injuring themselves more severely even as overall injury rates have declined, according to a new study presented at the annual meeting of the American Academy of Orthopaedic Surgeons.
The study compared injuries from a 4-year period ending in 2019 to data from 2005 and 2006. The overall rate of injuries dropped 9%, from 2.51 injuries per 1,000 athletic games or practices to 2.29 per 1,000; injuries requiring less than 1 week of recovery time fell by 13%. But, the number of head and neck injuries increased by 10%, injuries requiring surgery increased by 1%, and injuries leading to medical disqualification jumped by 11%.
“It’s wonderful that the injury rate is declining,” said Jordan Neoma Pizzarro, a medical student at George Washington University, Washington, who led the study. “But the data does suggest that the injuries that are happening are worse.”
The increases may also reflect increased education and awareness of how to detect concussions and other injuries that need medical attention, said Micah Lissy, MD, MS, an orthopedic surgeon specializing in sports medicine at Michigan State University, East Lansing. Dr. Lissy cautioned against physicians and others taking the data at face value.
“We need to be implementing preventive measures wherever possible, but I think we can also consider that there may be some confounding factors in the data,” Dr. Lissy told this news organization.
Ms. Pizzarro and her team analyzed data collected from athletic trainers at 100 high schools across the country for the ongoing National Health School Sports-Related Injury Surveillance Study.
Athletes participating in sports such as football, soccer, basketball, volleyball, and softball were included in the analysis. Trainers report the number of injuries for every competition and practice, also known as “athletic exposures.”
Boys’ football carried the highest injury rate, with 3.96 injuries per 1,000 AEs, amounting to 44% of all injuries reported. Girls’ soccer and boys’ wrestling followed, with injury rates of 2.65 and 1.56, respectively.
Sprains and strains accounted for 37% of injuries, followed by concussions (21.6%). The head and/or face was the most injured body site, followed by the ankles and/or knees. Most injuries took place during competitions rather than in practices (relative risk, 3.39; 95% confidence interval, 3.28-3.49; P < .05).
Ms. Pizzarro said that an overall increase in intensity, physical contact, and collisions may account for the spike in more severe injuries.
“Kids are encouraged to specialize in one sport early on and stick with it year-round,” she said. “They’re probably becoming more agile and better athletes, but they’re probably also getting more competitive.”
Dr. Lissy, who has worked with high school athletes as a surgeon, physical therapist, athletic trainer, and coach, said that some of the increases in severity of injuries may reflect trends in sports over the past two decades: Student athletes have become stronger and faster and have put on more muscle mass.
“When you have something that’s much larger, moving much faster and with more force, you’re going to have more force when you bump into things,” he said. “This can lead to more significant injuries.”
The study was independently supported. Study authors report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
High school students are injuring themselves more severely even as overall injury rates have declined, according to a new study presented at the annual meeting of the American Academy of Orthopaedic Surgeons.
The study compared injuries from a 4-year period ending in 2019 to data from 2005 and 2006. The overall rate of injuries dropped 9%, from 2.51 injuries per 1,000 athletic games or practices to 2.29 per 1,000; injuries requiring less than 1 week of recovery time fell by 13%. But, the number of head and neck injuries increased by 10%, injuries requiring surgery increased by 1%, and injuries leading to medical disqualification jumped by 11%.
“It’s wonderful that the injury rate is declining,” said Jordan Neoma Pizzarro, a medical student at George Washington University, Washington, who led the study. “But the data does suggest that the injuries that are happening are worse.”
The increases may also reflect increased education and awareness of how to detect concussions and other injuries that need medical attention, said Micah Lissy, MD, MS, an orthopedic surgeon specializing in sports medicine at Michigan State University, East Lansing. Dr. Lissy cautioned against physicians and others taking the data at face value.
“We need to be implementing preventive measures wherever possible, but I think we can also consider that there may be some confounding factors in the data,” Dr. Lissy told this news organization.
Ms. Pizzarro and her team analyzed data collected from athletic trainers at 100 high schools across the country for the ongoing National Health School Sports-Related Injury Surveillance Study.
Athletes participating in sports such as football, soccer, basketball, volleyball, and softball were included in the analysis. Trainers report the number of injuries for every competition and practice, also known as “athletic exposures.”
Boys’ football carried the highest injury rate, with 3.96 injuries per 1,000 AEs, amounting to 44% of all injuries reported. Girls’ soccer and boys’ wrestling followed, with injury rates of 2.65 and 1.56, respectively.
Sprains and strains accounted for 37% of injuries, followed by concussions (21.6%). The head and/or face was the most injured body site, followed by the ankles and/or knees. Most injuries took place during competitions rather than in practices (relative risk, 3.39; 95% confidence interval, 3.28-3.49; P < .05).
Ms. Pizzarro said that an overall increase in intensity, physical contact, and collisions may account for the spike in more severe injuries.
“Kids are encouraged to specialize in one sport early on and stick with it year-round,” she said. “They’re probably becoming more agile and better athletes, but they’re probably also getting more competitive.”
Dr. Lissy, who has worked with high school athletes as a surgeon, physical therapist, athletic trainer, and coach, said that some of the increases in severity of injuries may reflect trends in sports over the past two decades: Student athletes have become stronger and faster and have put on more muscle mass.
“When you have something that’s much larger, moving much faster and with more force, you’re going to have more force when you bump into things,” he said. “This can lead to more significant injuries.”
The study was independently supported. Study authors report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
High school students are injuring themselves more severely even as overall injury rates have declined, according to a new study presented at the annual meeting of the American Academy of Orthopaedic Surgeons.
The study compared injuries from a 4-year period ending in 2019 to data from 2005 and 2006. The overall rate of injuries dropped 9%, from 2.51 injuries per 1,000 athletic games or practices to 2.29 per 1,000; injuries requiring less than 1 week of recovery time fell by 13%. But, the number of head and neck injuries increased by 10%, injuries requiring surgery increased by 1%, and injuries leading to medical disqualification jumped by 11%.
“It’s wonderful that the injury rate is declining,” said Jordan Neoma Pizzarro, a medical student at George Washington University, Washington, who led the study. “But the data does suggest that the injuries that are happening are worse.”
The increases may also reflect increased education and awareness of how to detect concussions and other injuries that need medical attention, said Micah Lissy, MD, MS, an orthopedic surgeon specializing in sports medicine at Michigan State University, East Lansing. Dr. Lissy cautioned against physicians and others taking the data at face value.
“We need to be implementing preventive measures wherever possible, but I think we can also consider that there may be some confounding factors in the data,” Dr. Lissy told this news organization.
Ms. Pizzarro and her team analyzed data collected from athletic trainers at 100 high schools across the country for the ongoing National Health School Sports-Related Injury Surveillance Study.
Athletes participating in sports such as football, soccer, basketball, volleyball, and softball were included in the analysis. Trainers report the number of injuries for every competition and practice, also known as “athletic exposures.”
Boys’ football carried the highest injury rate, with 3.96 injuries per 1,000 AEs, amounting to 44% of all injuries reported. Girls’ soccer and boys’ wrestling followed, with injury rates of 2.65 and 1.56, respectively.
Sprains and strains accounted for 37% of injuries, followed by concussions (21.6%). The head and/or face was the most injured body site, followed by the ankles and/or knees. Most injuries took place during competitions rather than in practices (relative risk, 3.39; 95% confidence interval, 3.28-3.49; P < .05).
Ms. Pizzarro said that an overall increase in intensity, physical contact, and collisions may account for the spike in more severe injuries.
“Kids are encouraged to specialize in one sport early on and stick with it year-round,” she said. “They’re probably becoming more agile and better athletes, but they’re probably also getting more competitive.”
Dr. Lissy, who has worked with high school athletes as a surgeon, physical therapist, athletic trainer, and coach, said that some of the increases in severity of injuries may reflect trends in sports over the past two decades: Student athletes have become stronger and faster and have put on more muscle mass.
“When you have something that’s much larger, moving much faster and with more force, you’re going to have more force when you bump into things,” he said. “This can lead to more significant injuries.”
The study was independently supported. Study authors report no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Clinician violence: Virtual reality to the rescue?
This discussion was recorded on Feb. 21, 2023. This transcript has been edited for clarity.
Robert D. Glatter, MD: Welcome. I’m Dr. Robert Glatter, medical adviser for Medscape Emergency Medicine. Welcome, Dr. Salazar. It’s a pleasure to have you join us today.
Gilberto A. Salazar, MD: The pleasure is all mine, Dr. Glatter. Thank you so much for having me.
Dr. Glatter: This is such an important topic, as you can imagine. Workplace violence is affecting so many providers in hospital emergency departments but also throughout other parts of the hospital.
First, can you describe how the virtual reality (VR) program was designed that you developed and what type of situations it simulates?
Dr. Salazar: We worked in conjunction with the University of Texas at Dallas. They help people like me, subject matter experts in health care, to bring ideas to reality. I worked very closely with a group of engineers from their department in designing a module specifically designed to tackle, as you mentioned, one of our biggest threats in workplace violence.
We decided to bring in a series of competencies and proficiencies that we wanted to bring into the virtual reality space. In leveraging the technology and the expertise from UT Dallas, we were able to make that happen.
Dr. Glatter: I think it’s important to understand, in terms of virtual reality, what type of environment the program creates. Can you describe what a provider who puts the goggles on is experiencing? Do they feel anything? Is there technology that enables this?
Dr. Salazar: Yes, absolutely. We were able to bring to reality a series of scenarios very common from what you and I see in the emergency department on a daily basis. We wanted to immerse a learner into that specific environment. We didn’t feel that a module or something on a computer or a slide set could really bring the reality of what it’s like to interact with a patient who may be escalating or may be aggressive.
We are immersing learners into an actual hospital room to our specifications, very similar to exactly where we practice each and every day, and taking the learners through different situations that we designed with various levels of escalation and aggression, and asking the learner to manage that situation as best as they possibly can using the competencies and proficiencies that we taught them.
Dr. Glatter: Haptic feedback is an important part of the program and also the approach and technique that you’re using. Can you describe what haptic feedback means and what people actually feel?
Dr. Salazar: Absolutely. One of the most unfortunate things in my professional career is physical abuse suffered by people like me and you and our colleagues, nursing personnel, technicians, and others, resulting in injury.
We wanted to provide the most realistic experience that we could design. Haptics engage digital senses other than your auditory and your visuals. They really engage your tactile senses. These haptic vests and gloves and technology allow us to provide a third set of sensory stimuli for the learner.
At one of the modules, we have an actual physical assault that takes place, and the learner is actually able to feel in their body the strikes – of course, not painful – but just bringing in those senses and that stimulus, really leaving the learner with an experience that’s going to be long-lasting.
Dr. Glatter: Feeling that stimulus certainly affects your vital signs. Do you monitor a provider’s vital signs, such as their blood pressure and heart rate, as the situation and the threat escalate? That could potentially trigger some issues in people with prior PTSD or people with other mental health issues. Has that ever been considered in the design of your program?
Dr. Salazar: Yes, 100%. The beautiful thing about haptics is that they can be tailored to our specific parameters. The sensory stimulus that’s provided is actually very mild. It feels more like a tap than an actual strike. It just reminds us that when we’re having or experiencing an actual physical attack, we’re really engaging the senses.
We have an emergency physician or an EMT-paramedic on site at all times during the training so that we can monitor our subjects and make sure that they’re comfortable and healthy.
Dr. Glatter: Do they have actual sensors attached to their bodies that are part of your program or distinct in terms of monitoring their vital signs?
Dr. Salazar: It’s completely different. We have two different systems that we are planning on utilizing. Frankly, in the final version of this virtual reality module, we may not even involve the haptics. We’re going to study it and see how our learners behave and how much information they’re able to acquire and retain.
It may be very possible that just the visuals – the auditory and the immersion taking place within the hospital room – may be enough. It’s very possible that, in the next final version of this, we may find that haptics bring in quite a bit of value, and we may incorporate that. If that is the case, then we will, of course, acquire different technology to monitor the patient’s vital signs.
Dr. Glatter: Clearly, when situations escalate in the department, everyone gets more concerned about the patient, but providers are part of this equation, as you allude to.
In 2022, there was a poll by the American College of Emergency Physicians that stated that 85% of emergency physicians reported an increase in violent activity in their ERs in the past 5 years. Nearly two-thirds of nearly 3,000 emergency physicians surveyed reported being assaulted in the past year. This is an important module that we integrate into training providers in terms of these types of tense situations that can result not only in mental anguish but also in physical injury.
Dr. Salazar: One hundred percent. I frankly got tired of seeing my friends and my colleagues suffer both the physical and mental effects of verbal and physical abuse, and I wanted to design a project that was very patient centric while allowing our personnel to really manage these situations a little bit better.
Frankly, we don’t receive great training in this space, and I wanted to rewrite that narrative and make things better for our clinicians out there while remaining patient centric. I wanted to do something about it, and hopefully this dream will become a reality.
Dr. Glatter: Absolutely. There are other data from the Bureau of Labor Statistics stating that health care workers are five times more likely than employees in any other area of work to experience workplace violence. This could, again, range from verbal to physical violence. This is a very important module that you’re developing.
Are there any thoughts to extend this to active-shooter scenarios or any other high-stakes scenarios that you can imagine in the department?
Dr. Salazar: We’re actually working with the same developer that’s helping us with this VR module in developing a mass-casualty incident module so that we can get better training in responding to these very unfortunate high-stakes situations.
Dr. Glatter: In terms of using the module remotely, certainly not requiring resources or having to be in a physical place, can providers in your plan be able to take such a headset home and practice on their own in the sense of being able to deal with a situation? Would this be more reserved for in-department use?
Dr. Salazar: That’s a phenomenal question. I wanted to create the most flexible module that I possibly could. Ideally, a dream scenario is leveraging a simulation center at an academic center and not just do the VR module but also have a brief didactics incorporating a small slide set, some feedback, and some standardized patients. I wanted it to be flexible enough so that folks here in my state, a different state, or even internationally could take advantage of this technology and do it from the comfort of their home.
As you mentioned, this is going to strike some people. It’s going to hit them heavier than others in terms of prior experience as PTSD. For some people, it may be more comfortable to do it in the comfort of their homes. I wanted to create something very flexible and dynamic.
Dr. Glatter: I think that’s ideal. Just one other point. Can you discuss the different levels of competencies involved in this module and how that would be attained?
Dr. Salazar: It’s all evidence based, so we borrowed from literature and the specialties of emergency medicine. We collaborated with psychiatrists within our medical center. We looked at all available literature and methods, proficiencies, competencies, and best practices, and we took all of them together to form something that we think is organized and concise.
We were able to create our own algorithm, but it’s not brand new. We’re just borrowing what we think is the best to create something that the majority of health care personnel are going to be able to relate to and be able to really be proficient at.
This includes things like active listening, bargaining, how to respond, where to put yourself in a situation, and the best possible situation to respond to a scenario, how to prevent things – how to get out of a chokehold, for example. We’re borrowing from several different disciplines and creating something that can be very concise and organized.
Dr. Glatter: Does this program that you’ve developed allow the provider to get feedback in the sense that when they’re in such a danger, their life could be at risk? For example, if they don’t remove themselves in a certain amount of time, this could be lethal.
Dr. Salazar: Yes, 100%. Probably the one thing that differentiates our project from any others is the ability to customize the experience so that a learner who is doing the things that we ask them to do in terms of safety and response is able to get out of a situation successfully within the environment. If they don’t, they get some kind of feedback.
Not to spoil the surprise here, but we’re going to be doing things like looking at decibel meters to see what the volume in the room is doing and how you’re managing the volume and the stimulation within the room. If you are able to maintain the decibel readings at a specific level, you’re going to succeed through the module. If you don’t, we keep the patient escalation going.
Dr. Glatter: There is a debrief built into this type of approach where, in other words, learning points are emphasized – where you could have done better and such.
Dr. Salazar: Yes, absolutely. We are going to be able to get individualized data for each learner so that we can tailor the debrief to their own performance and be able to give them actionable items to work on. It’s a debrief that’s productive and individualized, and folks can walk away with something useful in the end.
Dr. Glatter: Are the data shared or confidential at present?
Dr. Salazar: At this very moment, the data are confidential. We are going to look at how to best use this. We’re hoping to eventually write this up and see how this information can be best used to train personnel.
Eventually, we may see that some of the advice that we’re giving is very common to most folks. Others may require some individualized type of feedback. That said, it remains to be seen, but right now, it’s confidential.
Dr. Glatter: Is this currently being implemented as part of your curriculum for emergency medicine residents?
Dr. Salazar: We’re going to study it first. We’re very excited to include our emergency medicine residents as one of our cohorts that’s going to be undergoing the module, and we’re going to be studying other forms of workplace violence mitigation strategies. We’re really excited about the possibility of this eventually becoming the standard of education for not only our emergency medicine residents, but also health care personnel all over the world.
Dr. Glatter: I’m glad you mentioned that, because obviously nurses, clerks in the department, and anyone who’s working in the department, for that matter, and who interfaces with patients really should undergo such training.
Dr. Salazar: Absolutely. The folks at intake, at check-in, and at kiosks. Do they go through a separate area for screening? You’re absolutely right. There are many folks who interface with patients and all of us are potential victims of workplace violence. We want to give our health care family the best opportunity to succeed in these situations.
Dr. Glatter:: Absolutely. Even EMS providers, being on the front lines and encountering patients in such situations, would benefit, in my opinion.
Dr. Salazar: Yes, absolutely. Behavioral health emergencies and organically induced altered mental status results in injury, both physical and mental, to EMS professionals as well, and there’s good evidence of that. I’ll be very glad to see this type of education make it out to our initial and continuing education efforts for EMS as well.
Dr. Glatter: I want to thank you. This has been very helpful. It’s such an important task that you’ve started to explore, and I look forward to follow-up on this. Again, thank you for your time.
Dr. Salazar: It was my pleasure. Thank you so much for having me.
Dr. Glatter is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes. Dr. Salazar is a board-certified emergency physician and associate professor at UT Southwestern Medicine Center in Dallas. He is involved with the UTSW Emergency Medicine Education Program and serves as the medical director to teach both initial and continuing the emergency medicine education for emergency medical technicians and paramedics, which trains most of the Dallas Fire Rescue personnel and the vast majority for EMS providers in the Dallas County. In addition, he serves as an associate chief of service at Parkland’s emergency department, and liaison to surgical services. A version of this article originally appeared on Medscape.com.
This discussion was recorded on Feb. 21, 2023. This transcript has been edited for clarity.
Robert D. Glatter, MD: Welcome. I’m Dr. Robert Glatter, medical adviser for Medscape Emergency Medicine. Welcome, Dr. Salazar. It’s a pleasure to have you join us today.
Gilberto A. Salazar, MD: The pleasure is all mine, Dr. Glatter. Thank you so much for having me.
Dr. Glatter: This is such an important topic, as you can imagine. Workplace violence is affecting so many providers in hospital emergency departments but also throughout other parts of the hospital.
First, can you describe how the virtual reality (VR) program was designed that you developed and what type of situations it simulates?
Dr. Salazar: We worked in conjunction with the University of Texas at Dallas. They help people like me, subject matter experts in health care, to bring ideas to reality. I worked very closely with a group of engineers from their department in designing a module specifically designed to tackle, as you mentioned, one of our biggest threats in workplace violence.
We decided to bring in a series of competencies and proficiencies that we wanted to bring into the virtual reality space. In leveraging the technology and the expertise from UT Dallas, we were able to make that happen.
Dr. Glatter: I think it’s important to understand, in terms of virtual reality, what type of environment the program creates. Can you describe what a provider who puts the goggles on is experiencing? Do they feel anything? Is there technology that enables this?
Dr. Salazar: Yes, absolutely. We were able to bring to reality a series of scenarios very common from what you and I see in the emergency department on a daily basis. We wanted to immerse a learner into that specific environment. We didn’t feel that a module or something on a computer or a slide set could really bring the reality of what it’s like to interact with a patient who may be escalating or may be aggressive.
We are immersing learners into an actual hospital room to our specifications, very similar to exactly where we practice each and every day, and taking the learners through different situations that we designed with various levels of escalation and aggression, and asking the learner to manage that situation as best as they possibly can using the competencies and proficiencies that we taught them.
Dr. Glatter: Haptic feedback is an important part of the program and also the approach and technique that you’re using. Can you describe what haptic feedback means and what people actually feel?
Dr. Salazar: Absolutely. One of the most unfortunate things in my professional career is physical abuse suffered by people like me and you and our colleagues, nursing personnel, technicians, and others, resulting in injury.
We wanted to provide the most realistic experience that we could design. Haptics engage digital senses other than your auditory and your visuals. They really engage your tactile senses. These haptic vests and gloves and technology allow us to provide a third set of sensory stimuli for the learner.
At one of the modules, we have an actual physical assault that takes place, and the learner is actually able to feel in their body the strikes – of course, not painful – but just bringing in those senses and that stimulus, really leaving the learner with an experience that’s going to be long-lasting.
Dr. Glatter: Feeling that stimulus certainly affects your vital signs. Do you monitor a provider’s vital signs, such as their blood pressure and heart rate, as the situation and the threat escalate? That could potentially trigger some issues in people with prior PTSD or people with other mental health issues. Has that ever been considered in the design of your program?
Dr. Salazar: Yes, 100%. The beautiful thing about haptics is that they can be tailored to our specific parameters. The sensory stimulus that’s provided is actually very mild. It feels more like a tap than an actual strike. It just reminds us that when we’re having or experiencing an actual physical attack, we’re really engaging the senses.
We have an emergency physician or an EMT-paramedic on site at all times during the training so that we can monitor our subjects and make sure that they’re comfortable and healthy.
Dr. Glatter: Do they have actual sensors attached to their bodies that are part of your program or distinct in terms of monitoring their vital signs?
Dr. Salazar: It’s completely different. We have two different systems that we are planning on utilizing. Frankly, in the final version of this virtual reality module, we may not even involve the haptics. We’re going to study it and see how our learners behave and how much information they’re able to acquire and retain.
It may be very possible that just the visuals – the auditory and the immersion taking place within the hospital room – may be enough. It’s very possible that, in the next final version of this, we may find that haptics bring in quite a bit of value, and we may incorporate that. If that is the case, then we will, of course, acquire different technology to monitor the patient’s vital signs.
Dr. Glatter: Clearly, when situations escalate in the department, everyone gets more concerned about the patient, but providers are part of this equation, as you allude to.
In 2022, there was a poll by the American College of Emergency Physicians that stated that 85% of emergency physicians reported an increase in violent activity in their ERs in the past 5 years. Nearly two-thirds of nearly 3,000 emergency physicians surveyed reported being assaulted in the past year. This is an important module that we integrate into training providers in terms of these types of tense situations that can result not only in mental anguish but also in physical injury.
Dr. Salazar: One hundred percent. I frankly got tired of seeing my friends and my colleagues suffer both the physical and mental effects of verbal and physical abuse, and I wanted to design a project that was very patient centric while allowing our personnel to really manage these situations a little bit better.
Frankly, we don’t receive great training in this space, and I wanted to rewrite that narrative and make things better for our clinicians out there while remaining patient centric. I wanted to do something about it, and hopefully this dream will become a reality.
Dr. Glatter: Absolutely. There are other data from the Bureau of Labor Statistics stating that health care workers are five times more likely than employees in any other area of work to experience workplace violence. This could, again, range from verbal to physical violence. This is a very important module that you’re developing.
Are there any thoughts to extend this to active-shooter scenarios or any other high-stakes scenarios that you can imagine in the department?
Dr. Salazar: We’re actually working with the same developer that’s helping us with this VR module in developing a mass-casualty incident module so that we can get better training in responding to these very unfortunate high-stakes situations.
Dr. Glatter: In terms of using the module remotely, certainly not requiring resources or having to be in a physical place, can providers in your plan be able to take such a headset home and practice on their own in the sense of being able to deal with a situation? Would this be more reserved for in-department use?
Dr. Salazar: That’s a phenomenal question. I wanted to create the most flexible module that I possibly could. Ideally, a dream scenario is leveraging a simulation center at an academic center and not just do the VR module but also have a brief didactics incorporating a small slide set, some feedback, and some standardized patients. I wanted it to be flexible enough so that folks here in my state, a different state, or even internationally could take advantage of this technology and do it from the comfort of their home.
As you mentioned, this is going to strike some people. It’s going to hit them heavier than others in terms of prior experience as PTSD. For some people, it may be more comfortable to do it in the comfort of their homes. I wanted to create something very flexible and dynamic.
Dr. Glatter: I think that’s ideal. Just one other point. Can you discuss the different levels of competencies involved in this module and how that would be attained?
Dr. Salazar: It’s all evidence based, so we borrowed from literature and the specialties of emergency medicine. We collaborated with psychiatrists within our medical center. We looked at all available literature and methods, proficiencies, competencies, and best practices, and we took all of them together to form something that we think is organized and concise.
We were able to create our own algorithm, but it’s not brand new. We’re just borrowing what we think is the best to create something that the majority of health care personnel are going to be able to relate to and be able to really be proficient at.
This includes things like active listening, bargaining, how to respond, where to put yourself in a situation, and the best possible situation to respond to a scenario, how to prevent things – how to get out of a chokehold, for example. We’re borrowing from several different disciplines and creating something that can be very concise and organized.
Dr. Glatter: Does this program that you’ve developed allow the provider to get feedback in the sense that when they’re in such a danger, their life could be at risk? For example, if they don’t remove themselves in a certain amount of time, this could be lethal.
Dr. Salazar: Yes, 100%. Probably the one thing that differentiates our project from any others is the ability to customize the experience so that a learner who is doing the things that we ask them to do in terms of safety and response is able to get out of a situation successfully within the environment. If they don’t, they get some kind of feedback.
Not to spoil the surprise here, but we’re going to be doing things like looking at decibel meters to see what the volume in the room is doing and how you’re managing the volume and the stimulation within the room. If you are able to maintain the decibel readings at a specific level, you’re going to succeed through the module. If you don’t, we keep the patient escalation going.
Dr. Glatter: There is a debrief built into this type of approach where, in other words, learning points are emphasized – where you could have done better and such.
Dr. Salazar: Yes, absolutely. We are going to be able to get individualized data for each learner so that we can tailor the debrief to their own performance and be able to give them actionable items to work on. It’s a debrief that’s productive and individualized, and folks can walk away with something useful in the end.
Dr. Glatter: Are the data shared or confidential at present?
Dr. Salazar: At this very moment, the data are confidential. We are going to look at how to best use this. We’re hoping to eventually write this up and see how this information can be best used to train personnel.
Eventually, we may see that some of the advice that we’re giving is very common to most folks. Others may require some individualized type of feedback. That said, it remains to be seen, but right now, it’s confidential.
Dr. Glatter: Is this currently being implemented as part of your curriculum for emergency medicine residents?
Dr. Salazar: We’re going to study it first. We’re very excited to include our emergency medicine residents as one of our cohorts that’s going to be undergoing the module, and we’re going to be studying other forms of workplace violence mitigation strategies. We’re really excited about the possibility of this eventually becoming the standard of education for not only our emergency medicine residents, but also health care personnel all over the world.
Dr. Glatter: I’m glad you mentioned that, because obviously nurses, clerks in the department, and anyone who’s working in the department, for that matter, and who interfaces with patients really should undergo such training.
Dr. Salazar: Absolutely. The folks at intake, at check-in, and at kiosks. Do they go through a separate area for screening? You’re absolutely right. There are many folks who interface with patients and all of us are potential victims of workplace violence. We want to give our health care family the best opportunity to succeed in these situations.
Dr. Glatter:: Absolutely. Even EMS providers, being on the front lines and encountering patients in such situations, would benefit, in my opinion.
Dr. Salazar: Yes, absolutely. Behavioral health emergencies and organically induced altered mental status results in injury, both physical and mental, to EMS professionals as well, and there’s good evidence of that. I’ll be very glad to see this type of education make it out to our initial and continuing education efforts for EMS as well.
Dr. Glatter: I want to thank you. This has been very helpful. It’s such an important task that you’ve started to explore, and I look forward to follow-up on this. Again, thank you for your time.
Dr. Salazar: It was my pleasure. Thank you so much for having me.
Dr. Glatter is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes. Dr. Salazar is a board-certified emergency physician and associate professor at UT Southwestern Medicine Center in Dallas. He is involved with the UTSW Emergency Medicine Education Program and serves as the medical director to teach both initial and continuing the emergency medicine education for emergency medical technicians and paramedics, which trains most of the Dallas Fire Rescue personnel and the vast majority for EMS providers in the Dallas County. In addition, he serves as an associate chief of service at Parkland’s emergency department, and liaison to surgical services. A version of this article originally appeared on Medscape.com.
This discussion was recorded on Feb. 21, 2023. This transcript has been edited for clarity.
Robert D. Glatter, MD: Welcome. I’m Dr. Robert Glatter, medical adviser for Medscape Emergency Medicine. Welcome, Dr. Salazar. It’s a pleasure to have you join us today.
Gilberto A. Salazar, MD: The pleasure is all mine, Dr. Glatter. Thank you so much for having me.
Dr. Glatter: This is such an important topic, as you can imagine. Workplace violence is affecting so many providers in hospital emergency departments but also throughout other parts of the hospital.
First, can you describe how the virtual reality (VR) program was designed that you developed and what type of situations it simulates?
Dr. Salazar: We worked in conjunction with the University of Texas at Dallas. They help people like me, subject matter experts in health care, to bring ideas to reality. I worked very closely with a group of engineers from their department in designing a module specifically designed to tackle, as you mentioned, one of our biggest threats in workplace violence.
We decided to bring in a series of competencies and proficiencies that we wanted to bring into the virtual reality space. In leveraging the technology and the expertise from UT Dallas, we were able to make that happen.
Dr. Glatter: I think it’s important to understand, in terms of virtual reality, what type of environment the program creates. Can you describe what a provider who puts the goggles on is experiencing? Do they feel anything? Is there technology that enables this?
Dr. Salazar: Yes, absolutely. We were able to bring to reality a series of scenarios very common from what you and I see in the emergency department on a daily basis. We wanted to immerse a learner into that specific environment. We didn’t feel that a module or something on a computer or a slide set could really bring the reality of what it’s like to interact with a patient who may be escalating or may be aggressive.
We are immersing learners into an actual hospital room to our specifications, very similar to exactly where we practice each and every day, and taking the learners through different situations that we designed with various levels of escalation and aggression, and asking the learner to manage that situation as best as they possibly can using the competencies and proficiencies that we taught them.
Dr. Glatter: Haptic feedback is an important part of the program and also the approach and technique that you’re using. Can you describe what haptic feedback means and what people actually feel?
Dr. Salazar: Absolutely. One of the most unfortunate things in my professional career is physical abuse suffered by people like me and you and our colleagues, nursing personnel, technicians, and others, resulting in injury.
We wanted to provide the most realistic experience that we could design. Haptics engage digital senses other than your auditory and your visuals. They really engage your tactile senses. These haptic vests and gloves and technology allow us to provide a third set of sensory stimuli for the learner.
At one of the modules, we have an actual physical assault that takes place, and the learner is actually able to feel in their body the strikes – of course, not painful – but just bringing in those senses and that stimulus, really leaving the learner with an experience that’s going to be long-lasting.
Dr. Glatter: Feeling that stimulus certainly affects your vital signs. Do you monitor a provider’s vital signs, such as their blood pressure and heart rate, as the situation and the threat escalate? That could potentially trigger some issues in people with prior PTSD or people with other mental health issues. Has that ever been considered in the design of your program?
Dr. Salazar: Yes, 100%. The beautiful thing about haptics is that they can be tailored to our specific parameters. The sensory stimulus that’s provided is actually very mild. It feels more like a tap than an actual strike. It just reminds us that when we’re having or experiencing an actual physical attack, we’re really engaging the senses.
We have an emergency physician or an EMT-paramedic on site at all times during the training so that we can monitor our subjects and make sure that they’re comfortable and healthy.
Dr. Glatter: Do they have actual sensors attached to their bodies that are part of your program or distinct in terms of monitoring their vital signs?
Dr. Salazar: It’s completely different. We have two different systems that we are planning on utilizing. Frankly, in the final version of this virtual reality module, we may not even involve the haptics. We’re going to study it and see how our learners behave and how much information they’re able to acquire and retain.
It may be very possible that just the visuals – the auditory and the immersion taking place within the hospital room – may be enough. It’s very possible that, in the next final version of this, we may find that haptics bring in quite a bit of value, and we may incorporate that. If that is the case, then we will, of course, acquire different technology to monitor the patient’s vital signs.
Dr. Glatter: Clearly, when situations escalate in the department, everyone gets more concerned about the patient, but providers are part of this equation, as you allude to.
In 2022, there was a poll by the American College of Emergency Physicians that stated that 85% of emergency physicians reported an increase in violent activity in their ERs in the past 5 years. Nearly two-thirds of nearly 3,000 emergency physicians surveyed reported being assaulted in the past year. This is an important module that we integrate into training providers in terms of these types of tense situations that can result not only in mental anguish but also in physical injury.
Dr. Salazar: One hundred percent. I frankly got tired of seeing my friends and my colleagues suffer both the physical and mental effects of verbal and physical abuse, and I wanted to design a project that was very patient centric while allowing our personnel to really manage these situations a little bit better.
Frankly, we don’t receive great training in this space, and I wanted to rewrite that narrative and make things better for our clinicians out there while remaining patient centric. I wanted to do something about it, and hopefully this dream will become a reality.
Dr. Glatter: Absolutely. There are other data from the Bureau of Labor Statistics stating that health care workers are five times more likely than employees in any other area of work to experience workplace violence. This could, again, range from verbal to physical violence. This is a very important module that you’re developing.
Are there any thoughts to extend this to active-shooter scenarios or any other high-stakes scenarios that you can imagine in the department?
Dr. Salazar: We’re actually working with the same developer that’s helping us with this VR module in developing a mass-casualty incident module so that we can get better training in responding to these very unfortunate high-stakes situations.
Dr. Glatter: In terms of using the module remotely, certainly not requiring resources or having to be in a physical place, can providers in your plan be able to take such a headset home and practice on their own in the sense of being able to deal with a situation? Would this be more reserved for in-department use?
Dr. Salazar: That’s a phenomenal question. I wanted to create the most flexible module that I possibly could. Ideally, a dream scenario is leveraging a simulation center at an academic center and not just do the VR module but also have a brief didactics incorporating a small slide set, some feedback, and some standardized patients. I wanted it to be flexible enough so that folks here in my state, a different state, or even internationally could take advantage of this technology and do it from the comfort of their home.
As you mentioned, this is going to strike some people. It’s going to hit them heavier than others in terms of prior experience as PTSD. For some people, it may be more comfortable to do it in the comfort of their homes. I wanted to create something very flexible and dynamic.
Dr. Glatter: I think that’s ideal. Just one other point. Can you discuss the different levels of competencies involved in this module and how that would be attained?
Dr. Salazar: It’s all evidence based, so we borrowed from literature and the specialties of emergency medicine. We collaborated with psychiatrists within our medical center. We looked at all available literature and methods, proficiencies, competencies, and best practices, and we took all of them together to form something that we think is organized and concise.
We were able to create our own algorithm, but it’s not brand new. We’re just borrowing what we think is the best to create something that the majority of health care personnel are going to be able to relate to and be able to really be proficient at.
This includes things like active listening, bargaining, how to respond, where to put yourself in a situation, and the best possible situation to respond to a scenario, how to prevent things – how to get out of a chokehold, for example. We’re borrowing from several different disciplines and creating something that can be very concise and organized.
Dr. Glatter: Does this program that you’ve developed allow the provider to get feedback in the sense that when they’re in such a danger, their life could be at risk? For example, if they don’t remove themselves in a certain amount of time, this could be lethal.
Dr. Salazar: Yes, 100%. Probably the one thing that differentiates our project from any others is the ability to customize the experience so that a learner who is doing the things that we ask them to do in terms of safety and response is able to get out of a situation successfully within the environment. If they don’t, they get some kind of feedback.
Not to spoil the surprise here, but we’re going to be doing things like looking at decibel meters to see what the volume in the room is doing and how you’re managing the volume and the stimulation within the room. If you are able to maintain the decibel readings at a specific level, you’re going to succeed through the module. If you don’t, we keep the patient escalation going.
Dr. Glatter: There is a debrief built into this type of approach where, in other words, learning points are emphasized – where you could have done better and such.
Dr. Salazar: Yes, absolutely. We are going to be able to get individualized data for each learner so that we can tailor the debrief to their own performance and be able to give them actionable items to work on. It’s a debrief that’s productive and individualized, and folks can walk away with something useful in the end.
Dr. Glatter: Are the data shared or confidential at present?
Dr. Salazar: At this very moment, the data are confidential. We are going to look at how to best use this. We’re hoping to eventually write this up and see how this information can be best used to train personnel.
Eventually, we may see that some of the advice that we’re giving is very common to most folks. Others may require some individualized type of feedback. That said, it remains to be seen, but right now, it’s confidential.
Dr. Glatter: Is this currently being implemented as part of your curriculum for emergency medicine residents?
Dr. Salazar: We’re going to study it first. We’re very excited to include our emergency medicine residents as one of our cohorts that’s going to be undergoing the module, and we’re going to be studying other forms of workplace violence mitigation strategies. We’re really excited about the possibility of this eventually becoming the standard of education for not only our emergency medicine residents, but also health care personnel all over the world.
Dr. Glatter: I’m glad you mentioned that, because obviously nurses, clerks in the department, and anyone who’s working in the department, for that matter, and who interfaces with patients really should undergo such training.
Dr. Salazar: Absolutely. The folks at intake, at check-in, and at kiosks. Do they go through a separate area for screening? You’re absolutely right. There are many folks who interface with patients and all of us are potential victims of workplace violence. We want to give our health care family the best opportunity to succeed in these situations.
Dr. Glatter:: Absolutely. Even EMS providers, being on the front lines and encountering patients in such situations, would benefit, in my opinion.
Dr. Salazar: Yes, absolutely. Behavioral health emergencies and organically induced altered mental status results in injury, both physical and mental, to EMS professionals as well, and there’s good evidence of that. I’ll be very glad to see this type of education make it out to our initial and continuing education efforts for EMS as well.
Dr. Glatter: I want to thank you. This has been very helpful. It’s such an important task that you’ve started to explore, and I look forward to follow-up on this. Again, thank you for your time.
Dr. Salazar: It was my pleasure. Thank you so much for having me.
Dr. Glatter is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, N.Y. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes. Dr. Salazar is a board-certified emergency physician and associate professor at UT Southwestern Medicine Center in Dallas. He is involved with the UTSW Emergency Medicine Education Program and serves as the medical director to teach both initial and continuing the emergency medicine education for emergency medical technicians and paramedics, which trains most of the Dallas Fire Rescue personnel and the vast majority for EMS providers in the Dallas County. In addition, he serves as an associate chief of service at Parkland’s emergency department, and liaison to surgical services. A version of this article originally appeared on Medscape.com.
Migraine after concussion linked to worse outcomes
researchers have found.
“Early assessment of headache – and whether it has migraine features – after concussion can be helpful in predicting which children are at risk for poor outcomes and identifying children who require targeted intervention,” said senior author Keith Owen Yeates, PhD, the Ronald and Irene Ward Chair in Pediatric Brain Injury Professor and head of the department of psychology at the University of Calgary (Alta.). “Posttraumatic headache, especially when it involves migraine features, is a strong predictor of persisting symptoms and poorer quality of life after childhood concussion.”
Approximately 840,000 children per year visit an emergency department in the United States after having a traumatic brain injury. As many as 90% of those visits are considered to involve a concussion, according to the investigators. Although most children recover quickly, approximately one-third continue to report symptoms a month after the event.
Posttraumatic headache occurs in up to 90% of children, most commonly with features of migraine.
The new study, published in JAMA Network Open, was a secondary analysis of the Advancing Concussion Assessment in Pediatrics (A-CAP) prospective cohort study. The study was conducted at five emergency departments in Canada from September 2016 to July 2019 and included children and adolescents aged 8-17 years who presented with acute concussion or an orthopedic injury.
Children were included in the concussion group if they had a history of blunt head trauma resulting in at least one of three criteria consistent with the World Health Organization definition of mild traumatic brain injury. The criteria include loss of consciousness for less than 30 minutes, a Glasgow Coma Scale score of 13 or 14, or at least one acute sign or symptom of concussion, as noted by emergency clinicians.
Patients were excluded from the concussion group if they had deteriorating neurologic status, underwent neurosurgical intervention, had posttraumatic amnesia that lasted more than 24 hours, or had a score higher than 4 on the Abbreviated Injury Scale (AIS). The orthopedic injury group included patients without symptoms of concussion and with blunt trauma associated with an AIS 13 score of 4 or less. Patients were excluded from both groups if they had an overnight hospitalization for traumatic brain injury, a concussion within the past 3 months, or a neurodevelopmental disorder.
The researchers analyzed data from 928 children of 967 enrolled in the study. The median age was 12.2 years, and 41.3% were female. The final study cohort included 239 children with orthopedic injuries but no headache, 160 with a concussion and no headache, 134 with a concussion and nonmigraine headaches, and 254 with a concussion and migraine headaches.
Children with posttraumatic migraines 10 days after a concussion had the most severe symptoms and worst quality of life 3 months following their head trauma, the researchers found. Children without headaches within 10 days after concussion had the best 3-month outcomes, comparable to those with orthopedic injuries alone.
The researchers said the strengths of their study included its large population and its inclusion of various causes of head trauma, not just sports-related concussions. Limitations included self-reports of headaches instead of a physician diagnosis and lack of control for clinical interventions that might have affected the outcomes.
Charles Tator, MD, PhD, director of the Canadian Concussion Centre at Toronto Western Hospital, said the findings were unsurprising.
“Headaches are the most common symptom after concussion,” Dr. Tator, who was not involved in the latest research, told this news organization. “In my practice and research with concussed kids 11 and up and with adults, those with preconcussion history of migraine are the most difficult to treat because their headaches don’t improve unless specific measures are taken.”
Dr. Tator, who also is a professor of neurosurgery at the University of Toronto, said clinicians who treat concussions must determine which type of headaches children are experiencing – and refer as early as possible for migraine prevention or treatment and medication, as warranted.
“Early recognition after concussion that migraine headaches are occurring will save kids a lot of suffering,” he said.
The study was supported by a Canadian Institute of Health Research Foundation Grant and by funds from the Alberta Children’s Hospital Foundation and the Alberta Children’s Hospital Research Institute. Dr. Tator has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
researchers have found.
“Early assessment of headache – and whether it has migraine features – after concussion can be helpful in predicting which children are at risk for poor outcomes and identifying children who require targeted intervention,” said senior author Keith Owen Yeates, PhD, the Ronald and Irene Ward Chair in Pediatric Brain Injury Professor and head of the department of psychology at the University of Calgary (Alta.). “Posttraumatic headache, especially when it involves migraine features, is a strong predictor of persisting symptoms and poorer quality of life after childhood concussion.”
Approximately 840,000 children per year visit an emergency department in the United States after having a traumatic brain injury. As many as 90% of those visits are considered to involve a concussion, according to the investigators. Although most children recover quickly, approximately one-third continue to report symptoms a month after the event.
Posttraumatic headache occurs in up to 90% of children, most commonly with features of migraine.
The new study, published in JAMA Network Open, was a secondary analysis of the Advancing Concussion Assessment in Pediatrics (A-CAP) prospective cohort study. The study was conducted at five emergency departments in Canada from September 2016 to July 2019 and included children and adolescents aged 8-17 years who presented with acute concussion or an orthopedic injury.
Children were included in the concussion group if they had a history of blunt head trauma resulting in at least one of three criteria consistent with the World Health Organization definition of mild traumatic brain injury. The criteria include loss of consciousness for less than 30 minutes, a Glasgow Coma Scale score of 13 or 14, or at least one acute sign or symptom of concussion, as noted by emergency clinicians.
Patients were excluded from the concussion group if they had deteriorating neurologic status, underwent neurosurgical intervention, had posttraumatic amnesia that lasted more than 24 hours, or had a score higher than 4 on the Abbreviated Injury Scale (AIS). The orthopedic injury group included patients without symptoms of concussion and with blunt trauma associated with an AIS 13 score of 4 or less. Patients were excluded from both groups if they had an overnight hospitalization for traumatic brain injury, a concussion within the past 3 months, or a neurodevelopmental disorder.
The researchers analyzed data from 928 children of 967 enrolled in the study. The median age was 12.2 years, and 41.3% were female. The final study cohort included 239 children with orthopedic injuries but no headache, 160 with a concussion and no headache, 134 with a concussion and nonmigraine headaches, and 254 with a concussion and migraine headaches.
Children with posttraumatic migraines 10 days after a concussion had the most severe symptoms and worst quality of life 3 months following their head trauma, the researchers found. Children without headaches within 10 days after concussion had the best 3-month outcomes, comparable to those with orthopedic injuries alone.
The researchers said the strengths of their study included its large population and its inclusion of various causes of head trauma, not just sports-related concussions. Limitations included self-reports of headaches instead of a physician diagnosis and lack of control for clinical interventions that might have affected the outcomes.
Charles Tator, MD, PhD, director of the Canadian Concussion Centre at Toronto Western Hospital, said the findings were unsurprising.
“Headaches are the most common symptom after concussion,” Dr. Tator, who was not involved in the latest research, told this news organization. “In my practice and research with concussed kids 11 and up and with adults, those with preconcussion history of migraine are the most difficult to treat because their headaches don’t improve unless specific measures are taken.”
Dr. Tator, who also is a professor of neurosurgery at the University of Toronto, said clinicians who treat concussions must determine which type of headaches children are experiencing – and refer as early as possible for migraine prevention or treatment and medication, as warranted.
“Early recognition after concussion that migraine headaches are occurring will save kids a lot of suffering,” he said.
The study was supported by a Canadian Institute of Health Research Foundation Grant and by funds from the Alberta Children’s Hospital Foundation and the Alberta Children’s Hospital Research Institute. Dr. Tator has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
researchers have found.
“Early assessment of headache – and whether it has migraine features – after concussion can be helpful in predicting which children are at risk for poor outcomes and identifying children who require targeted intervention,” said senior author Keith Owen Yeates, PhD, the Ronald and Irene Ward Chair in Pediatric Brain Injury Professor and head of the department of psychology at the University of Calgary (Alta.). “Posttraumatic headache, especially when it involves migraine features, is a strong predictor of persisting symptoms and poorer quality of life after childhood concussion.”
Approximately 840,000 children per year visit an emergency department in the United States after having a traumatic brain injury. As many as 90% of those visits are considered to involve a concussion, according to the investigators. Although most children recover quickly, approximately one-third continue to report symptoms a month after the event.
Posttraumatic headache occurs in up to 90% of children, most commonly with features of migraine.
The new study, published in JAMA Network Open, was a secondary analysis of the Advancing Concussion Assessment in Pediatrics (A-CAP) prospective cohort study. The study was conducted at five emergency departments in Canada from September 2016 to July 2019 and included children and adolescents aged 8-17 years who presented with acute concussion or an orthopedic injury.
Children were included in the concussion group if they had a history of blunt head trauma resulting in at least one of three criteria consistent with the World Health Organization definition of mild traumatic brain injury. The criteria include loss of consciousness for less than 30 minutes, a Glasgow Coma Scale score of 13 or 14, or at least one acute sign or symptom of concussion, as noted by emergency clinicians.
Patients were excluded from the concussion group if they had deteriorating neurologic status, underwent neurosurgical intervention, had posttraumatic amnesia that lasted more than 24 hours, or had a score higher than 4 on the Abbreviated Injury Scale (AIS). The orthopedic injury group included patients without symptoms of concussion and with blunt trauma associated with an AIS 13 score of 4 or less. Patients were excluded from both groups if they had an overnight hospitalization for traumatic brain injury, a concussion within the past 3 months, or a neurodevelopmental disorder.
The researchers analyzed data from 928 children of 967 enrolled in the study. The median age was 12.2 years, and 41.3% were female. The final study cohort included 239 children with orthopedic injuries but no headache, 160 with a concussion and no headache, 134 with a concussion and nonmigraine headaches, and 254 with a concussion and migraine headaches.
Children with posttraumatic migraines 10 days after a concussion had the most severe symptoms and worst quality of life 3 months following their head trauma, the researchers found. Children without headaches within 10 days after concussion had the best 3-month outcomes, comparable to those with orthopedic injuries alone.
The researchers said the strengths of their study included its large population and its inclusion of various causes of head trauma, not just sports-related concussions. Limitations included self-reports of headaches instead of a physician diagnosis and lack of control for clinical interventions that might have affected the outcomes.
Charles Tator, MD, PhD, director of the Canadian Concussion Centre at Toronto Western Hospital, said the findings were unsurprising.
“Headaches are the most common symptom after concussion,” Dr. Tator, who was not involved in the latest research, told this news organization. “In my practice and research with concussed kids 11 and up and with adults, those with preconcussion history of migraine are the most difficult to treat because their headaches don’t improve unless specific measures are taken.”
Dr. Tator, who also is a professor of neurosurgery at the University of Toronto, said clinicians who treat concussions must determine which type of headaches children are experiencing – and refer as early as possible for migraine prevention or treatment and medication, as warranted.
“Early recognition after concussion that migraine headaches are occurring will save kids a lot of suffering,” he said.
The study was supported by a Canadian Institute of Health Research Foundation Grant and by funds from the Alberta Children’s Hospital Foundation and the Alberta Children’s Hospital Research Institute. Dr. Tator has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM JAMA NETWORK OPEN
Returning to normal after concussion
Last night I invested an hour and a half watching the first half of the Super Bowl ... because ... well, just because. As exciting as it might have been to watch, investing another 2 hours on the second half would have kept me up well past my bedtime. As I lay in bed with the thwack-thwack-thud of helmets hitting pads still reverberating in my ears, my thoughts drifted to the ever-shifting landscape of concussion management.
More than 2 decades ago, concussions were just beginning to exit the dark ages when loss of consciousness was the defining symptom or sign that most folks (and here I am including physicians) used to separate the run-of-the-mill stinger or bell-ringer from a “real” concussion.
The new era dawned with the appearance of clinics devoted to concussion management and the development of protocols that limited everything from physical exertion to reading and screen time. Schools were coaxed into subjecting their athletes to preparticipation testing sessions with the hope that creating a baseline cognitive assessment would somehow make the diagnosis and management of concussion feel more scientific. Many of the recommended management strategies were based on the intuitive but flawed notion of “brain rest.” If reading or bright lights aggravate patient’s symptoms, they should be avoided but otherwise resting the brain doesn’t seem to make sense.
Fortunately, there were, and hopefully will continue to be, clinicians willing to question hastily developed management protocols. One recent cohort study from Canada has found that, surprisingly, (to some experts), “early return to school was associated with a lower symptom burden” This association held true for both age groups the researches studied (8-12 years and 13-18 years). The authors conclude that delayed return to school “may be detrimental to recovery.” In this study, early return to school was defined as less than 3 days.
In another study, this one in the journal Pediatrics, the authors found that “the association of early screen time with postconcussion symptoms is not linear.” Their conclusion was that the best approach to clinical management of concussion should include a moderate amount of screen time.
After reading both of these studies I am heartened that we are now hearing voices suggesting a return to concussion management based on careful observation of the individual patient and common sense. A concussed brain is not a torn hamstring or a broken clavicle that under most circumstances will heal in a predictable amount of time. It is prudent to exclude the concussed patient from activities that carry a significant risk of reinjury until the symptoms have subsided. However, postconcussion symptoms are often vague and can be mistaken for or aggravated by a host of other conditions including learning disabilities, anxiety, and depression.
I hope that our experience with the COVID pandemic has taught us that removing children from school and their usual activities can have a serious negative effect on their emotional health and academic achievement. This seems to be particularly true for the young people who were already struggling to adjust to being a student. Getting out of the habit of going to school often intensifies the anxieties of an emotionally or academically challenged student. Each day away from the school atmosphere can compound the symptoms that may or may not have been triggered by the concussion.
The message here is clear that, whether we are talking about concussions or appendectomies or mononucleosis, the sooner we can return the child to something close to their old normal the more successful we will be in a helping them adjust to the new normal.
Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.
Last night I invested an hour and a half watching the first half of the Super Bowl ... because ... well, just because. As exciting as it might have been to watch, investing another 2 hours on the second half would have kept me up well past my bedtime. As I lay in bed with the thwack-thwack-thud of helmets hitting pads still reverberating in my ears, my thoughts drifted to the ever-shifting landscape of concussion management.
More than 2 decades ago, concussions were just beginning to exit the dark ages when loss of consciousness was the defining symptom or sign that most folks (and here I am including physicians) used to separate the run-of-the-mill stinger or bell-ringer from a “real” concussion.
The new era dawned with the appearance of clinics devoted to concussion management and the development of protocols that limited everything from physical exertion to reading and screen time. Schools were coaxed into subjecting their athletes to preparticipation testing sessions with the hope that creating a baseline cognitive assessment would somehow make the diagnosis and management of concussion feel more scientific. Many of the recommended management strategies were based on the intuitive but flawed notion of “brain rest.” If reading or bright lights aggravate patient’s symptoms, they should be avoided but otherwise resting the brain doesn’t seem to make sense.
Fortunately, there were, and hopefully will continue to be, clinicians willing to question hastily developed management protocols. One recent cohort study from Canada has found that, surprisingly, (to some experts), “early return to school was associated with a lower symptom burden” This association held true for both age groups the researches studied (8-12 years and 13-18 years). The authors conclude that delayed return to school “may be detrimental to recovery.” In this study, early return to school was defined as less than 3 days.
In another study, this one in the journal Pediatrics, the authors found that “the association of early screen time with postconcussion symptoms is not linear.” Their conclusion was that the best approach to clinical management of concussion should include a moderate amount of screen time.
After reading both of these studies I am heartened that we are now hearing voices suggesting a return to concussion management based on careful observation of the individual patient and common sense. A concussed brain is not a torn hamstring or a broken clavicle that under most circumstances will heal in a predictable amount of time. It is prudent to exclude the concussed patient from activities that carry a significant risk of reinjury until the symptoms have subsided. However, postconcussion symptoms are often vague and can be mistaken for or aggravated by a host of other conditions including learning disabilities, anxiety, and depression.
I hope that our experience with the COVID pandemic has taught us that removing children from school and their usual activities can have a serious negative effect on their emotional health and academic achievement. This seems to be particularly true for the young people who were already struggling to adjust to being a student. Getting out of the habit of going to school often intensifies the anxieties of an emotionally or academically challenged student. Each day away from the school atmosphere can compound the symptoms that may or may not have been triggered by the concussion.
The message here is clear that, whether we are talking about concussions or appendectomies or mononucleosis, the sooner we can return the child to something close to their old normal the more successful we will be in a helping them adjust to the new normal.
Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.
Last night I invested an hour and a half watching the first half of the Super Bowl ... because ... well, just because. As exciting as it might have been to watch, investing another 2 hours on the second half would have kept me up well past my bedtime. As I lay in bed with the thwack-thwack-thud of helmets hitting pads still reverberating in my ears, my thoughts drifted to the ever-shifting landscape of concussion management.
More than 2 decades ago, concussions were just beginning to exit the dark ages when loss of consciousness was the defining symptom or sign that most folks (and here I am including physicians) used to separate the run-of-the-mill stinger or bell-ringer from a “real” concussion.
The new era dawned with the appearance of clinics devoted to concussion management and the development of protocols that limited everything from physical exertion to reading and screen time. Schools were coaxed into subjecting their athletes to preparticipation testing sessions with the hope that creating a baseline cognitive assessment would somehow make the diagnosis and management of concussion feel more scientific. Many of the recommended management strategies were based on the intuitive but flawed notion of “brain rest.” If reading or bright lights aggravate patient’s symptoms, they should be avoided but otherwise resting the brain doesn’t seem to make sense.
Fortunately, there were, and hopefully will continue to be, clinicians willing to question hastily developed management protocols. One recent cohort study from Canada has found that, surprisingly, (to some experts), “early return to school was associated with a lower symptom burden” This association held true for both age groups the researches studied (8-12 years and 13-18 years). The authors conclude that delayed return to school “may be detrimental to recovery.” In this study, early return to school was defined as less than 3 days.
In another study, this one in the journal Pediatrics, the authors found that “the association of early screen time with postconcussion symptoms is not linear.” Their conclusion was that the best approach to clinical management of concussion should include a moderate amount of screen time.
After reading both of these studies I am heartened that we are now hearing voices suggesting a return to concussion management based on careful observation of the individual patient and common sense. A concussed brain is not a torn hamstring or a broken clavicle that under most circumstances will heal in a predictable amount of time. It is prudent to exclude the concussed patient from activities that carry a significant risk of reinjury until the symptoms have subsided. However, postconcussion symptoms are often vague and can be mistaken for or aggravated by a host of other conditions including learning disabilities, anxiety, and depression.
I hope that our experience with the COVID pandemic has taught us that removing children from school and their usual activities can have a serious negative effect on their emotional health and academic achievement. This seems to be particularly true for the young people who were already struggling to adjust to being a student. Getting out of the habit of going to school often intensifies the anxieties of an emotionally or academically challenged student. Each day away from the school atmosphere can compound the symptoms that may or may not have been triggered by the concussion.
The message here is clear that, whether we are talking about concussions or appendectomies or mononucleosis, the sooner we can return the child to something close to their old normal the more successful we will be in a helping them adjust to the new normal.
Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.
How a concussion led a former football player/WWE star to a pioneering neuroscience career
On Oct. 5, 2022, at 10:24 a.m., Chris Nowinski, PhD, cofounder of the Boston-based Concussion Legacy Foundation (CLF), was in his home office when the email came through.
“I pounded my desk, shouted YES! and went to find my wife so I could pick her up and give her a big hug,” he recalled. “It was the culmination of 15 years of research and hard work.”
Robert Cantu, MD, who has been studying head trauma for 50+ years and has published more than 500 papers about it, compares the announcement to the 1964 Surgeon General’s report that linked cigarette smoking with lung cancer and heart disease. With the NIH and the Centers of Disease Control and Prevention (CDC) now in agreement about the risks of participating in impact sports and activities, he said, “We’ve reached a tipping point that should finally prompt deniers such as the NHL, NCAA, FIFA, World Rugby, the International Olympic Committee, and other [sports organizations] to remove all unnecessary head trauma from their sports.”
“A lot of the credit for this must go to Chris,” added Dr. Cantu, medical director and director of clinical research at the Cantu Concussion Center at Emerson Hospital in Concord, Mass. “Clinicians like myself can reach only so many people by writing papers and giving speeches at medical conferences. For this to happen, the message needed to get out to parents, athletes, and society in general. And Chris was the vehicle for doing that.”
Dr. Nowinski didn’t set out to be the messenger. He played football at Harvard in the late 1990s, making second-team All-Ivy as a defensive tackle his senior year. In 2000, he enrolled in Killer Kowalski’s Wrestling Institute and eventually joined Vince McMahon’s World Wrestling Entertainment (WWE).
There he played the role of 295-pound villain “Chris Harvard,” an intellectual snob who dressed in crimson tights and insulted the crowd’s IQ. “Roses are red. Violets are blue. The reason I’m talking so slowly is because no one in [insert name of town he was appearing in] has passed grade 2!”
“I’d often apply my education during a match,” he wrote in his book, “Head Games: Football’s Concussion Crisis.“ In a match in Bridgeport, Conn., I assaulted [my opponent] with a human skeleton, ripped off the skull, got down on bended knee, and began reciting Hamlet. Those were good times.”
Those good times ended abruptly, however, during a match with Bubba Ray Dudley at the Hartford Civic Center in Connecticut in 2003. Even though pro wrestling matches are rehearsed, and the blows aren’t real, accidents happen. Mr. Dudley mistakenly kicked Dr. Nowinski in the jaw with enough force to put him on his back and make the whole ring shake.
“Holy shit, kid! You okay?” asked the referee. Before a foggy Dr. Nowinski could reply, 300-pound Mr. Dudley crashed down on him, hooked his leg, and the ref began counting, “One! Two! …” Dr. Nowinski instinctively kicked out but had forgotten the rest of the script. He managed to finish the match and stagger backstage.
His coherence and awareness gradually returned, but a “throbbing headache” persisted. A locker room doctor said he might have a concussion and recommended he wait to see how he felt before wrestling in Albany, N.Y., the next evening.
The following day the headache had subsided, but he still felt “a little strange.” Nonetheless, he told the doctor he was fine and strutted out to again battle Bubba Ray, this time in a match where he eventually got thrown through a ringside table and suffered the Dudley Death Drop. Afterward, “I crawled backstage and laid down. The headache was much, much worse.”
An event and a process
Dr. Nowinski continued to insist he was “fine” and wrestled a few more matches in the following days before finally acknowledging something was wrong. He’d had his bell rung numerous times in football, but this was different. Even more worrisome, none of the doctors he consulted could give him any definitive answers. He finally found his way to Emerson Hospital, where Dr. Cantu was the chief of neurosurgery.
“I remember that day vividly,” said Dr. Cantu. “Chris was this big, strapping, handsome guy – a hell of an athlete whose star was rising. He didn’t realize that he’d suffered a series of concussions and that trying to push through them was the worst thing he could be doing.”
Concussions and their effects were misunderstood by many athletes, coaches, and even physicians back then. It was assumed that the quarter inch of bone surrounding the adult brain provided adequate protection from common sports impacts and that any aftereffects were temporary. A common treatment was smelling salts and a pat on the back as the athlete returned to action.
However, the brain floats inside the skull in a bath of cerebral fluid. Any significant impact causes it to slosh violently from side to side, damaging tissue, synapses, and cells resulting in inflammation that can manifest as confusion and brain fog.
“A concussion is actually not defined by a physical injury,” explained Dr. Nowinski, “but by a loss of brain function that is induced by trauma. Concussion is not just an event, but also a process.” It’s almost as if the person has suffered a small seizure.
Fortunately, most concussion symptoms resolve within 2 weeks, but in some cases, especially if there’s been additional head trauma, they can persist, causing anxiety, depression, anger, and/or sleep disorders. Known as postconcussion syndrome (PCS), this is what Dr. Nowinski was unknowingly suffering from when he consulted Dr. Cantu.
In fact, one night it an Indianapolis hotel, weeks after his initial concussion, he awoke to find himself on the floor and the room in shambles. His girlfriend was yelling his name and shaking him. She told him he’d been having a nightmare and had suddenly started screaming and tearing up the room. “I didn’t remember any of it,” he said.
Dr. Cantu eventually advised Dr. Nowinski against ever returning to the ring or any activity with the risk for head injury. Research shows that sustaining a single significant concussion increases the risk of subsequent more-severe brain injuries.
“My diagnosis could have sent Chris off the deep end because he could no longer do what he wanted to do with this life,” said Dr. Cantu. “But instead, he used it as a tool to find meaning for his life.”
Dr. Nowinski decided to use his experience as a teaching opportunity, not just for other athletes but also for sports organizations and the medical community.
His book, which focused on the NFL’s “tobacco-industry-like refusal to acknowledge the depths of the problem,” was published in 2006. A year later, Dr. Nowinski partnered with Dr. Cantu to found the Sports Legacy Institute, which eventually became the Concussion Legacy Foundation (CLF).
Cold calling for brain donations
Robert Stern, PhD, is another highly respected authority in the study of neurodegenerative disease. In 2007, he was directing the clinical core of Boston University’s Alzheimer’s Disease Center. After giving a lecture to a group of financial planners and elder-law attorneys one morning, he got a request for a private meeting from a fellow named Chris Nowinski.
“I’d never heard of him, but I agreed,” recalled Dr. Stern, a professor of neurology, neurosurgery, anatomy, and neurobiology at Boston University. “A few days later, this larger-than-life guy walked into our conference room at the BU School of Medicine, exuding a great deal of passion, intellect, and determination. He told me his story and then started talking about the long-term consequences of concussions in sports.”
Dr. Stern had seen patients with dementia pugilistica, the old-school term for CTE. These were mostly boxers with cognitive and behavioral impairment. “But I had not heard about football players,” he said. “I hadn’t put the two together. And as I was listening to Chris, I realized if what he was saying was true then it was not only a potentially huge public health issue, but it was also a potentially huge scientific issue in the field of neurodegenerative disease.”
Dr. Nowinski introduced Dr. Stern to Dr. Cantu, and together with Ann McKee, MD, professor of neurology and pathology at BU, they cofounded the Center for the Study of Traumatic Encephalopathy (CSTE) in 2008. It was the first center of its kind devoted to the study of CTE in the world.
One of Dr. Nowinski’s first jobs at the CSTE was soliciting and procuring brain donations. Since CTE is generally a progressive condition that can take decades to manifest, autopsy was the only way to detect it.
The brains of two former Pittsburgh Steelers, Mike Webster and Terry Long, had been examined after their untimely deaths. After immunostaining, investigators found both former NFL players had “protein misfolds” characteristic of CTE.
This finding drew a lot of public and scientific attention, given that Mr. Long died by suicide and Mr. Webster was homeless when he died of a heart attack. But more scientific evidence was needed to prove a causal link between the head trauma and CTE.
Dr. Nowinski scoured obituaries looking for potential brains to study. When he found one, he would cold call the family and try to convince them to donate it to science. The first brain he secured for the center belonged to John Grimsley, a former NFL linebacker who in 2008 died at age 45 of an accidental gunshot wound. Often, Dr. Nowinski would even be the courier, traveling to pick up the brain after it had been harvested.
Over the next 10 years, Dr. Nowinski and his research team secured 500 brain donations. The research that resulted was staggering. In the beginning only 45 cases of CTE had been identified in the world, but in the first 111 NFL players who were autopsied, 110 had the disorder.
Of the first 53 college football players autopsied, 48 had CTE. Although Dr. Nowinski’s initial focus was football, evidence of CTE was soon detected among athletes in boxing, hockey, soccer, and rugby, as well as in combat veterans. However, the National Football League and other governing sports bodies initially denied any connection between sport-related head trauma and CTE.
Cumulative damage
In 2017, after 7 years of study, Dr. Nowinski earned a PhD in neurology. As the scientific evidence continued to accumulate, two shifts occurred that Dr. Stern said represent Dr. Nowinski’s greatest contributions. First, concussion is now widely recognized as an acute brain injury with symptoms that need to be immediately diagnosed and addressed.
“This is a completely different story from where things were just 10 years ago,” said Dr. Stern, “and Chris played a central role, if not the central role, in raising awareness about that.”
All 50 states and the District of Columbia now have laws regarding sports-related concussion. And there are brain banks in Australia, Canada, New Zealand, Brazil, and the United Kingdom studying CTE. More than 2,500 athletes in a variety of sports, including NASCAR’s Dale Earnhardt Jr. and NFL hall of famer Nick Buoniconti, have publicly pledged to donate their brains to science after their deaths.
Second, said Dr. Stern, we now know that although concussions can contribute to CTE, they are not the sole cause. It’s repetitive subconcussive trauma, without symptoms of concussion, that do the most damage.
“These happen during every practice and in every game,” said Dr. Stern. In fact, it’s estimated that pro football players suffer thousands of subconcussive incidents over the course of their careers. So, a player doesn’t have to see stars or lose consciousness to suffer brain damage; small impacts can accumulate over time.
Understanding this point is crucial for making youth sports safer. “Chris has played a critical role in raising awareness here, too,” said Dr. Stern. “Allowing our kids to get hit in the head over and over can put them at greater risk for later problems, plus it just doesn’t make common sense.”
“The biggest misconception surrounding head trauma in sports,” said Dr. Nowinski, “is the belief among players, coaches, and even the medical and scientific communities that if you get hit in the head and don’t have any symptoms then you’re okay and there hasn’t been any damage. That couldn’t be further from the truth. We now know that people are suffering serious brain injuries due to the accumulated effect of subconcussive impacts, and we need to get the word out about that.”
A major initiative from the Concussion Legacy Foundation called “Stop Hitting Kids in the Head” has the goal of convincing every sport to eliminate repetitive head impacts in players under age 14 – the time when the skull and brain are still developing and most vulnerable – by 2026. In fact, Dr. Nowinski wrote that “there could be a lot of kids who are misdiagnosed and medicated for various behavioral or emotional problems that may actually be head injury–related.”
Starting in 2009, the NFL adopted a series of rule changes designed to better protect its players against repeated head trauma. Among them is a ban on spearing or leading with the helmet, penalties for hitting defenseless players, and more stringent return-to-play guidelines, including concussion protocols.
The NFL has also put more emphasis on flag football options for youngsters and, for the first time, showcased this alternative in the 2023 Pro Bowl. But Dr. Nowinski is pressuring the league to go further. “While acknowledging that the game causes CTE, the NFL still underwrites recruiting 5-year-olds to play tackle football,” he said. “In my opinion, that’s unethical, and it needs to be addressed.”
WWE one of the most responsive organizations
Dr. Nowinski said WWE has been one of the most responsive sports organizations for protecting athletes. A doctor is now ringside at every match as is an observer who knows the script, thereby allowing for instant medical intervention if something goes wrong. “Since everyone is trying to look like they have a concussion all the time, it takes a deep understanding of the business to recognize a real one,” he said.
But this hasn’t been the case with other sports. “I am eternally disappointed in the response of the professional sports industry to the knowledge of CTE and long-term concussion symptoms,” said Dr. Nowinski.
“For example, FIFA [international soccer’s governing body] still doesn’t allow doctors to evaluate [potentially concussed] players on the sidelines and put them back in the game with a free substitution [if they’re deemed okay]. Not giving players proper medical care for a brain injury is unethical,” he said. BU’s Center for the Study of Traumatic Encephalopathy diagnosed the first CTE case in soccer in 2012, and in 2015 Dr. Nowinski successfully lobbied U.S. Soccer to ban heading the ball before age 11.
“Unfortunately, many governing bodies have circled the wagons in denying their sport causes CTE,” he continued. “FIFA, World Rugby, the NHL, even the NCAA and International Olympic Committee refuse to acknowledge it and, therefore, aren’t taking any steps to prevent it. They see it as a threat to their business model. Hopefully, now that the NIH and CDC are aligned about the risks of head impact in sports, this will begin to change.”
Meanwhile, research is continuing. Scientists are getting closer to being able to diagnose CTE in living humans, with ongoing studies using PET scans, blood markers, and spinal fluid markers. In 2019, researchers identified tau proteins specific to CTE that they believe are distinct from those of Alzheimer’s and other neurodegenerative diseases. Next step would be developing a drug to slow the development of CTE once detected.
Nonetheless, athletes at all levels in impact sports still don’t fully appreciate the risks of repeated head trauma and especially subconcussive blows. “I talk to former NFL and college players every week,” said Dr. Stern. “Some tell me, ‘I love the sport, it gave me so much, and I would do it again, but I’m not letting my grandchildren play.’ But others say, ‘As long as they know the risks, they can make their own decision.’ “
Dr. Nowinski has a daughter who is 4 and a son who’s 2. Both play soccer but, thanks to dad, heading isn’t allowed in their age groups. If they continue playing sports, Dr. Nowinski said he’ll make sure they understand the risks and how to protect themselves. This is a conversation all parents should have with their kids at every level to make sure they play safe, he added.
Those in the medical community can also volunteer their time to explain head trauma to athletes, coaches, and school administrators to be sure they understand its seriousness and are doing everything to protect players.
As you watch this year’s Super Bowl, Dr. Nowinski and his team would like you to keep something in mind. Those young men on the field for your entertainment are receiving mild brain trauma repeatedly throughout the game.
Even if it’s not a huge hit that gets replayed and makes everyone gasp, even if no one gets ushered into the little sideline tent for a concussion screening, even if no one loses consciousness, brain damage is still occurring. Watch the heads of the players during every play and think about what’s going on inside their skulls regardless of how big and strong those helmets look.
A version of this article first appeared on Medscape.com.
On Oct. 5, 2022, at 10:24 a.m., Chris Nowinski, PhD, cofounder of the Boston-based Concussion Legacy Foundation (CLF), was in his home office when the email came through.
“I pounded my desk, shouted YES! and went to find my wife so I could pick her up and give her a big hug,” he recalled. “It was the culmination of 15 years of research and hard work.”
Robert Cantu, MD, who has been studying head trauma for 50+ years and has published more than 500 papers about it, compares the announcement to the 1964 Surgeon General’s report that linked cigarette smoking with lung cancer and heart disease. With the NIH and the Centers of Disease Control and Prevention (CDC) now in agreement about the risks of participating in impact sports and activities, he said, “We’ve reached a tipping point that should finally prompt deniers such as the NHL, NCAA, FIFA, World Rugby, the International Olympic Committee, and other [sports organizations] to remove all unnecessary head trauma from their sports.”
“A lot of the credit for this must go to Chris,” added Dr. Cantu, medical director and director of clinical research at the Cantu Concussion Center at Emerson Hospital in Concord, Mass. “Clinicians like myself can reach only so many people by writing papers and giving speeches at medical conferences. For this to happen, the message needed to get out to parents, athletes, and society in general. And Chris was the vehicle for doing that.”
Dr. Nowinski didn’t set out to be the messenger. He played football at Harvard in the late 1990s, making second-team All-Ivy as a defensive tackle his senior year. In 2000, he enrolled in Killer Kowalski’s Wrestling Institute and eventually joined Vince McMahon’s World Wrestling Entertainment (WWE).
There he played the role of 295-pound villain “Chris Harvard,” an intellectual snob who dressed in crimson tights and insulted the crowd’s IQ. “Roses are red. Violets are blue. The reason I’m talking so slowly is because no one in [insert name of town he was appearing in] has passed grade 2!”
“I’d often apply my education during a match,” he wrote in his book, “Head Games: Football’s Concussion Crisis.“ In a match in Bridgeport, Conn., I assaulted [my opponent] with a human skeleton, ripped off the skull, got down on bended knee, and began reciting Hamlet. Those were good times.”
Those good times ended abruptly, however, during a match with Bubba Ray Dudley at the Hartford Civic Center in Connecticut in 2003. Even though pro wrestling matches are rehearsed, and the blows aren’t real, accidents happen. Mr. Dudley mistakenly kicked Dr. Nowinski in the jaw with enough force to put him on his back and make the whole ring shake.
“Holy shit, kid! You okay?” asked the referee. Before a foggy Dr. Nowinski could reply, 300-pound Mr. Dudley crashed down on him, hooked his leg, and the ref began counting, “One! Two! …” Dr. Nowinski instinctively kicked out but had forgotten the rest of the script. He managed to finish the match and stagger backstage.
His coherence and awareness gradually returned, but a “throbbing headache” persisted. A locker room doctor said he might have a concussion and recommended he wait to see how he felt before wrestling in Albany, N.Y., the next evening.
The following day the headache had subsided, but he still felt “a little strange.” Nonetheless, he told the doctor he was fine and strutted out to again battle Bubba Ray, this time in a match where he eventually got thrown through a ringside table and suffered the Dudley Death Drop. Afterward, “I crawled backstage and laid down. The headache was much, much worse.”
An event and a process
Dr. Nowinski continued to insist he was “fine” and wrestled a few more matches in the following days before finally acknowledging something was wrong. He’d had his bell rung numerous times in football, but this was different. Even more worrisome, none of the doctors he consulted could give him any definitive answers. He finally found his way to Emerson Hospital, where Dr. Cantu was the chief of neurosurgery.
“I remember that day vividly,” said Dr. Cantu. “Chris was this big, strapping, handsome guy – a hell of an athlete whose star was rising. He didn’t realize that he’d suffered a series of concussions and that trying to push through them was the worst thing he could be doing.”
Concussions and their effects were misunderstood by many athletes, coaches, and even physicians back then. It was assumed that the quarter inch of bone surrounding the adult brain provided adequate protection from common sports impacts and that any aftereffects were temporary. A common treatment was smelling salts and a pat on the back as the athlete returned to action.
However, the brain floats inside the skull in a bath of cerebral fluid. Any significant impact causes it to slosh violently from side to side, damaging tissue, synapses, and cells resulting in inflammation that can manifest as confusion and brain fog.
“A concussion is actually not defined by a physical injury,” explained Dr. Nowinski, “but by a loss of brain function that is induced by trauma. Concussion is not just an event, but also a process.” It’s almost as if the person has suffered a small seizure.
Fortunately, most concussion symptoms resolve within 2 weeks, but in some cases, especially if there’s been additional head trauma, they can persist, causing anxiety, depression, anger, and/or sleep disorders. Known as postconcussion syndrome (PCS), this is what Dr. Nowinski was unknowingly suffering from when he consulted Dr. Cantu.
In fact, one night it an Indianapolis hotel, weeks after his initial concussion, he awoke to find himself on the floor and the room in shambles. His girlfriend was yelling his name and shaking him. She told him he’d been having a nightmare and had suddenly started screaming and tearing up the room. “I didn’t remember any of it,” he said.
Dr. Cantu eventually advised Dr. Nowinski against ever returning to the ring or any activity with the risk for head injury. Research shows that sustaining a single significant concussion increases the risk of subsequent more-severe brain injuries.
“My diagnosis could have sent Chris off the deep end because he could no longer do what he wanted to do with this life,” said Dr. Cantu. “But instead, he used it as a tool to find meaning for his life.”
Dr. Nowinski decided to use his experience as a teaching opportunity, not just for other athletes but also for sports organizations and the medical community.
His book, which focused on the NFL’s “tobacco-industry-like refusal to acknowledge the depths of the problem,” was published in 2006. A year later, Dr. Nowinski partnered with Dr. Cantu to found the Sports Legacy Institute, which eventually became the Concussion Legacy Foundation (CLF).
Cold calling for brain donations
Robert Stern, PhD, is another highly respected authority in the study of neurodegenerative disease. In 2007, he was directing the clinical core of Boston University’s Alzheimer’s Disease Center. After giving a lecture to a group of financial planners and elder-law attorneys one morning, he got a request for a private meeting from a fellow named Chris Nowinski.
“I’d never heard of him, but I agreed,” recalled Dr. Stern, a professor of neurology, neurosurgery, anatomy, and neurobiology at Boston University. “A few days later, this larger-than-life guy walked into our conference room at the BU School of Medicine, exuding a great deal of passion, intellect, and determination. He told me his story and then started talking about the long-term consequences of concussions in sports.”
Dr. Stern had seen patients with dementia pugilistica, the old-school term for CTE. These were mostly boxers with cognitive and behavioral impairment. “But I had not heard about football players,” he said. “I hadn’t put the two together. And as I was listening to Chris, I realized if what he was saying was true then it was not only a potentially huge public health issue, but it was also a potentially huge scientific issue in the field of neurodegenerative disease.”
Dr. Nowinski introduced Dr. Stern to Dr. Cantu, and together with Ann McKee, MD, professor of neurology and pathology at BU, they cofounded the Center for the Study of Traumatic Encephalopathy (CSTE) in 2008. It was the first center of its kind devoted to the study of CTE in the world.
One of Dr. Nowinski’s first jobs at the CSTE was soliciting and procuring brain donations. Since CTE is generally a progressive condition that can take decades to manifest, autopsy was the only way to detect it.
The brains of two former Pittsburgh Steelers, Mike Webster and Terry Long, had been examined after their untimely deaths. After immunostaining, investigators found both former NFL players had “protein misfolds” characteristic of CTE.
This finding drew a lot of public and scientific attention, given that Mr. Long died by suicide and Mr. Webster was homeless when he died of a heart attack. But more scientific evidence was needed to prove a causal link between the head trauma and CTE.
Dr. Nowinski scoured obituaries looking for potential brains to study. When he found one, he would cold call the family and try to convince them to donate it to science. The first brain he secured for the center belonged to John Grimsley, a former NFL linebacker who in 2008 died at age 45 of an accidental gunshot wound. Often, Dr. Nowinski would even be the courier, traveling to pick up the brain after it had been harvested.
Over the next 10 years, Dr. Nowinski and his research team secured 500 brain donations. The research that resulted was staggering. In the beginning only 45 cases of CTE had been identified in the world, but in the first 111 NFL players who were autopsied, 110 had the disorder.
Of the first 53 college football players autopsied, 48 had CTE. Although Dr. Nowinski’s initial focus was football, evidence of CTE was soon detected among athletes in boxing, hockey, soccer, and rugby, as well as in combat veterans. However, the National Football League and other governing sports bodies initially denied any connection between sport-related head trauma and CTE.
Cumulative damage
In 2017, after 7 years of study, Dr. Nowinski earned a PhD in neurology. As the scientific evidence continued to accumulate, two shifts occurred that Dr. Stern said represent Dr. Nowinski’s greatest contributions. First, concussion is now widely recognized as an acute brain injury with symptoms that need to be immediately diagnosed and addressed.
“This is a completely different story from where things were just 10 years ago,” said Dr. Stern, “and Chris played a central role, if not the central role, in raising awareness about that.”
All 50 states and the District of Columbia now have laws regarding sports-related concussion. And there are brain banks in Australia, Canada, New Zealand, Brazil, and the United Kingdom studying CTE. More than 2,500 athletes in a variety of sports, including NASCAR’s Dale Earnhardt Jr. and NFL hall of famer Nick Buoniconti, have publicly pledged to donate their brains to science after their deaths.
Second, said Dr. Stern, we now know that although concussions can contribute to CTE, they are not the sole cause. It’s repetitive subconcussive trauma, without symptoms of concussion, that do the most damage.
“These happen during every practice and in every game,” said Dr. Stern. In fact, it’s estimated that pro football players suffer thousands of subconcussive incidents over the course of their careers. So, a player doesn’t have to see stars or lose consciousness to suffer brain damage; small impacts can accumulate over time.
Understanding this point is crucial for making youth sports safer. “Chris has played a critical role in raising awareness here, too,” said Dr. Stern. “Allowing our kids to get hit in the head over and over can put them at greater risk for later problems, plus it just doesn’t make common sense.”
“The biggest misconception surrounding head trauma in sports,” said Dr. Nowinski, “is the belief among players, coaches, and even the medical and scientific communities that if you get hit in the head and don’t have any symptoms then you’re okay and there hasn’t been any damage. That couldn’t be further from the truth. We now know that people are suffering serious brain injuries due to the accumulated effect of subconcussive impacts, and we need to get the word out about that.”
A major initiative from the Concussion Legacy Foundation called “Stop Hitting Kids in the Head” has the goal of convincing every sport to eliminate repetitive head impacts in players under age 14 – the time when the skull and brain are still developing and most vulnerable – by 2026. In fact, Dr. Nowinski wrote that “there could be a lot of kids who are misdiagnosed and medicated for various behavioral or emotional problems that may actually be head injury–related.”
Starting in 2009, the NFL adopted a series of rule changes designed to better protect its players against repeated head trauma. Among them is a ban on spearing or leading with the helmet, penalties for hitting defenseless players, and more stringent return-to-play guidelines, including concussion protocols.
The NFL has also put more emphasis on flag football options for youngsters and, for the first time, showcased this alternative in the 2023 Pro Bowl. But Dr. Nowinski is pressuring the league to go further. “While acknowledging that the game causes CTE, the NFL still underwrites recruiting 5-year-olds to play tackle football,” he said. “In my opinion, that’s unethical, and it needs to be addressed.”
WWE one of the most responsive organizations
Dr. Nowinski said WWE has been one of the most responsive sports organizations for protecting athletes. A doctor is now ringside at every match as is an observer who knows the script, thereby allowing for instant medical intervention if something goes wrong. “Since everyone is trying to look like they have a concussion all the time, it takes a deep understanding of the business to recognize a real one,” he said.
But this hasn’t been the case with other sports. “I am eternally disappointed in the response of the professional sports industry to the knowledge of CTE and long-term concussion symptoms,” said Dr. Nowinski.
“For example, FIFA [international soccer’s governing body] still doesn’t allow doctors to evaluate [potentially concussed] players on the sidelines and put them back in the game with a free substitution [if they’re deemed okay]. Not giving players proper medical care for a brain injury is unethical,” he said. BU’s Center for the Study of Traumatic Encephalopathy diagnosed the first CTE case in soccer in 2012, and in 2015 Dr. Nowinski successfully lobbied U.S. Soccer to ban heading the ball before age 11.
“Unfortunately, many governing bodies have circled the wagons in denying their sport causes CTE,” he continued. “FIFA, World Rugby, the NHL, even the NCAA and International Olympic Committee refuse to acknowledge it and, therefore, aren’t taking any steps to prevent it. They see it as a threat to their business model. Hopefully, now that the NIH and CDC are aligned about the risks of head impact in sports, this will begin to change.”
Meanwhile, research is continuing. Scientists are getting closer to being able to diagnose CTE in living humans, with ongoing studies using PET scans, blood markers, and spinal fluid markers. In 2019, researchers identified tau proteins specific to CTE that they believe are distinct from those of Alzheimer’s and other neurodegenerative diseases. Next step would be developing a drug to slow the development of CTE once detected.
Nonetheless, athletes at all levels in impact sports still don’t fully appreciate the risks of repeated head trauma and especially subconcussive blows. “I talk to former NFL and college players every week,” said Dr. Stern. “Some tell me, ‘I love the sport, it gave me so much, and I would do it again, but I’m not letting my grandchildren play.’ But others say, ‘As long as they know the risks, they can make their own decision.’ “
Dr. Nowinski has a daughter who is 4 and a son who’s 2. Both play soccer but, thanks to dad, heading isn’t allowed in their age groups. If they continue playing sports, Dr. Nowinski said he’ll make sure they understand the risks and how to protect themselves. This is a conversation all parents should have with their kids at every level to make sure they play safe, he added.
Those in the medical community can also volunteer their time to explain head trauma to athletes, coaches, and school administrators to be sure they understand its seriousness and are doing everything to protect players.
As you watch this year’s Super Bowl, Dr. Nowinski and his team would like you to keep something in mind. Those young men on the field for your entertainment are receiving mild brain trauma repeatedly throughout the game.
Even if it’s not a huge hit that gets replayed and makes everyone gasp, even if no one gets ushered into the little sideline tent for a concussion screening, even if no one loses consciousness, brain damage is still occurring. Watch the heads of the players during every play and think about what’s going on inside their skulls regardless of how big and strong those helmets look.
A version of this article first appeared on Medscape.com.
On Oct. 5, 2022, at 10:24 a.m., Chris Nowinski, PhD, cofounder of the Boston-based Concussion Legacy Foundation (CLF), was in his home office when the email came through.
“I pounded my desk, shouted YES! and went to find my wife so I could pick her up and give her a big hug,” he recalled. “It was the culmination of 15 years of research and hard work.”
Robert Cantu, MD, who has been studying head trauma for 50+ years and has published more than 500 papers about it, compares the announcement to the 1964 Surgeon General’s report that linked cigarette smoking with lung cancer and heart disease. With the NIH and the Centers of Disease Control and Prevention (CDC) now in agreement about the risks of participating in impact sports and activities, he said, “We’ve reached a tipping point that should finally prompt deniers such as the NHL, NCAA, FIFA, World Rugby, the International Olympic Committee, and other [sports organizations] to remove all unnecessary head trauma from their sports.”
“A lot of the credit for this must go to Chris,” added Dr. Cantu, medical director and director of clinical research at the Cantu Concussion Center at Emerson Hospital in Concord, Mass. “Clinicians like myself can reach only so many people by writing papers and giving speeches at medical conferences. For this to happen, the message needed to get out to parents, athletes, and society in general. And Chris was the vehicle for doing that.”
Dr. Nowinski didn’t set out to be the messenger. He played football at Harvard in the late 1990s, making second-team All-Ivy as a defensive tackle his senior year. In 2000, he enrolled in Killer Kowalski’s Wrestling Institute and eventually joined Vince McMahon’s World Wrestling Entertainment (WWE).
There he played the role of 295-pound villain “Chris Harvard,” an intellectual snob who dressed in crimson tights and insulted the crowd’s IQ. “Roses are red. Violets are blue. The reason I’m talking so slowly is because no one in [insert name of town he was appearing in] has passed grade 2!”
“I’d often apply my education during a match,” he wrote in his book, “Head Games: Football’s Concussion Crisis.“ In a match in Bridgeport, Conn., I assaulted [my opponent] with a human skeleton, ripped off the skull, got down on bended knee, and began reciting Hamlet. Those were good times.”
Those good times ended abruptly, however, during a match with Bubba Ray Dudley at the Hartford Civic Center in Connecticut in 2003. Even though pro wrestling matches are rehearsed, and the blows aren’t real, accidents happen. Mr. Dudley mistakenly kicked Dr. Nowinski in the jaw with enough force to put him on his back and make the whole ring shake.
“Holy shit, kid! You okay?” asked the referee. Before a foggy Dr. Nowinski could reply, 300-pound Mr. Dudley crashed down on him, hooked his leg, and the ref began counting, “One! Two! …” Dr. Nowinski instinctively kicked out but had forgotten the rest of the script. He managed to finish the match and stagger backstage.
His coherence and awareness gradually returned, but a “throbbing headache” persisted. A locker room doctor said he might have a concussion and recommended he wait to see how he felt before wrestling in Albany, N.Y., the next evening.
The following day the headache had subsided, but he still felt “a little strange.” Nonetheless, he told the doctor he was fine and strutted out to again battle Bubba Ray, this time in a match where he eventually got thrown through a ringside table and suffered the Dudley Death Drop. Afterward, “I crawled backstage and laid down. The headache was much, much worse.”
An event and a process
Dr. Nowinski continued to insist he was “fine” and wrestled a few more matches in the following days before finally acknowledging something was wrong. He’d had his bell rung numerous times in football, but this was different. Even more worrisome, none of the doctors he consulted could give him any definitive answers. He finally found his way to Emerson Hospital, where Dr. Cantu was the chief of neurosurgery.
“I remember that day vividly,” said Dr. Cantu. “Chris was this big, strapping, handsome guy – a hell of an athlete whose star was rising. He didn’t realize that he’d suffered a series of concussions and that trying to push through them was the worst thing he could be doing.”
Concussions and their effects were misunderstood by many athletes, coaches, and even physicians back then. It was assumed that the quarter inch of bone surrounding the adult brain provided adequate protection from common sports impacts and that any aftereffects were temporary. A common treatment was smelling salts and a pat on the back as the athlete returned to action.
However, the brain floats inside the skull in a bath of cerebral fluid. Any significant impact causes it to slosh violently from side to side, damaging tissue, synapses, and cells resulting in inflammation that can manifest as confusion and brain fog.
“A concussion is actually not defined by a physical injury,” explained Dr. Nowinski, “but by a loss of brain function that is induced by trauma. Concussion is not just an event, but also a process.” It’s almost as if the person has suffered a small seizure.
Fortunately, most concussion symptoms resolve within 2 weeks, but in some cases, especially if there’s been additional head trauma, they can persist, causing anxiety, depression, anger, and/or sleep disorders. Known as postconcussion syndrome (PCS), this is what Dr. Nowinski was unknowingly suffering from when he consulted Dr. Cantu.
In fact, one night it an Indianapolis hotel, weeks after his initial concussion, he awoke to find himself on the floor and the room in shambles. His girlfriend was yelling his name and shaking him. She told him he’d been having a nightmare and had suddenly started screaming and tearing up the room. “I didn’t remember any of it,” he said.
Dr. Cantu eventually advised Dr. Nowinski against ever returning to the ring or any activity with the risk for head injury. Research shows that sustaining a single significant concussion increases the risk of subsequent more-severe brain injuries.
“My diagnosis could have sent Chris off the deep end because he could no longer do what he wanted to do with this life,” said Dr. Cantu. “But instead, he used it as a tool to find meaning for his life.”
Dr. Nowinski decided to use his experience as a teaching opportunity, not just for other athletes but also for sports organizations and the medical community.
His book, which focused on the NFL’s “tobacco-industry-like refusal to acknowledge the depths of the problem,” was published in 2006. A year later, Dr. Nowinski partnered with Dr. Cantu to found the Sports Legacy Institute, which eventually became the Concussion Legacy Foundation (CLF).
Cold calling for brain donations
Robert Stern, PhD, is another highly respected authority in the study of neurodegenerative disease. In 2007, he was directing the clinical core of Boston University’s Alzheimer’s Disease Center. After giving a lecture to a group of financial planners and elder-law attorneys one morning, he got a request for a private meeting from a fellow named Chris Nowinski.
“I’d never heard of him, but I agreed,” recalled Dr. Stern, a professor of neurology, neurosurgery, anatomy, and neurobiology at Boston University. “A few days later, this larger-than-life guy walked into our conference room at the BU School of Medicine, exuding a great deal of passion, intellect, and determination. He told me his story and then started talking about the long-term consequences of concussions in sports.”
Dr. Stern had seen patients with dementia pugilistica, the old-school term for CTE. These were mostly boxers with cognitive and behavioral impairment. “But I had not heard about football players,” he said. “I hadn’t put the two together. And as I was listening to Chris, I realized if what he was saying was true then it was not only a potentially huge public health issue, but it was also a potentially huge scientific issue in the field of neurodegenerative disease.”
Dr. Nowinski introduced Dr. Stern to Dr. Cantu, and together with Ann McKee, MD, professor of neurology and pathology at BU, they cofounded the Center for the Study of Traumatic Encephalopathy (CSTE) in 2008. It was the first center of its kind devoted to the study of CTE in the world.
One of Dr. Nowinski’s first jobs at the CSTE was soliciting and procuring brain donations. Since CTE is generally a progressive condition that can take decades to manifest, autopsy was the only way to detect it.
The brains of two former Pittsburgh Steelers, Mike Webster and Terry Long, had been examined after their untimely deaths. After immunostaining, investigators found both former NFL players had “protein misfolds” characteristic of CTE.
This finding drew a lot of public and scientific attention, given that Mr. Long died by suicide and Mr. Webster was homeless when he died of a heart attack. But more scientific evidence was needed to prove a causal link between the head trauma and CTE.
Dr. Nowinski scoured obituaries looking for potential brains to study. When he found one, he would cold call the family and try to convince them to donate it to science. The first brain he secured for the center belonged to John Grimsley, a former NFL linebacker who in 2008 died at age 45 of an accidental gunshot wound. Often, Dr. Nowinski would even be the courier, traveling to pick up the brain after it had been harvested.
Over the next 10 years, Dr. Nowinski and his research team secured 500 brain donations. The research that resulted was staggering. In the beginning only 45 cases of CTE had been identified in the world, but in the first 111 NFL players who were autopsied, 110 had the disorder.
Of the first 53 college football players autopsied, 48 had CTE. Although Dr. Nowinski’s initial focus was football, evidence of CTE was soon detected among athletes in boxing, hockey, soccer, and rugby, as well as in combat veterans. However, the National Football League and other governing sports bodies initially denied any connection between sport-related head trauma and CTE.
Cumulative damage
In 2017, after 7 years of study, Dr. Nowinski earned a PhD in neurology. As the scientific evidence continued to accumulate, two shifts occurred that Dr. Stern said represent Dr. Nowinski’s greatest contributions. First, concussion is now widely recognized as an acute brain injury with symptoms that need to be immediately diagnosed and addressed.
“This is a completely different story from where things were just 10 years ago,” said Dr. Stern, “and Chris played a central role, if not the central role, in raising awareness about that.”
All 50 states and the District of Columbia now have laws regarding sports-related concussion. And there are brain banks in Australia, Canada, New Zealand, Brazil, and the United Kingdom studying CTE. More than 2,500 athletes in a variety of sports, including NASCAR’s Dale Earnhardt Jr. and NFL hall of famer Nick Buoniconti, have publicly pledged to donate their brains to science after their deaths.
Second, said Dr. Stern, we now know that although concussions can contribute to CTE, they are not the sole cause. It’s repetitive subconcussive trauma, without symptoms of concussion, that do the most damage.
“These happen during every practice and in every game,” said Dr. Stern. In fact, it’s estimated that pro football players suffer thousands of subconcussive incidents over the course of their careers. So, a player doesn’t have to see stars or lose consciousness to suffer brain damage; small impacts can accumulate over time.
Understanding this point is crucial for making youth sports safer. “Chris has played a critical role in raising awareness here, too,” said Dr. Stern. “Allowing our kids to get hit in the head over and over can put them at greater risk for later problems, plus it just doesn’t make common sense.”
“The biggest misconception surrounding head trauma in sports,” said Dr. Nowinski, “is the belief among players, coaches, and even the medical and scientific communities that if you get hit in the head and don’t have any symptoms then you’re okay and there hasn’t been any damage. That couldn’t be further from the truth. We now know that people are suffering serious brain injuries due to the accumulated effect of subconcussive impacts, and we need to get the word out about that.”
A major initiative from the Concussion Legacy Foundation called “Stop Hitting Kids in the Head” has the goal of convincing every sport to eliminate repetitive head impacts in players under age 14 – the time when the skull and brain are still developing and most vulnerable – by 2026. In fact, Dr. Nowinski wrote that “there could be a lot of kids who are misdiagnosed and medicated for various behavioral or emotional problems that may actually be head injury–related.”
Starting in 2009, the NFL adopted a series of rule changes designed to better protect its players against repeated head trauma. Among them is a ban on spearing or leading with the helmet, penalties for hitting defenseless players, and more stringent return-to-play guidelines, including concussion protocols.
The NFL has also put more emphasis on flag football options for youngsters and, for the first time, showcased this alternative in the 2023 Pro Bowl. But Dr. Nowinski is pressuring the league to go further. “While acknowledging that the game causes CTE, the NFL still underwrites recruiting 5-year-olds to play tackle football,” he said. “In my opinion, that’s unethical, and it needs to be addressed.”
WWE one of the most responsive organizations
Dr. Nowinski said WWE has been one of the most responsive sports organizations for protecting athletes. A doctor is now ringside at every match as is an observer who knows the script, thereby allowing for instant medical intervention if something goes wrong. “Since everyone is trying to look like they have a concussion all the time, it takes a deep understanding of the business to recognize a real one,” he said.
But this hasn’t been the case with other sports. “I am eternally disappointed in the response of the professional sports industry to the knowledge of CTE and long-term concussion symptoms,” said Dr. Nowinski.
“For example, FIFA [international soccer’s governing body] still doesn’t allow doctors to evaluate [potentially concussed] players on the sidelines and put them back in the game with a free substitution [if they’re deemed okay]. Not giving players proper medical care for a brain injury is unethical,” he said. BU’s Center for the Study of Traumatic Encephalopathy diagnosed the first CTE case in soccer in 2012, and in 2015 Dr. Nowinski successfully lobbied U.S. Soccer to ban heading the ball before age 11.
“Unfortunately, many governing bodies have circled the wagons in denying their sport causes CTE,” he continued. “FIFA, World Rugby, the NHL, even the NCAA and International Olympic Committee refuse to acknowledge it and, therefore, aren’t taking any steps to prevent it. They see it as a threat to their business model. Hopefully, now that the NIH and CDC are aligned about the risks of head impact in sports, this will begin to change.”
Meanwhile, research is continuing. Scientists are getting closer to being able to diagnose CTE in living humans, with ongoing studies using PET scans, blood markers, and spinal fluid markers. In 2019, researchers identified tau proteins specific to CTE that they believe are distinct from those of Alzheimer’s and other neurodegenerative diseases. Next step would be developing a drug to slow the development of CTE once detected.
Nonetheless, athletes at all levels in impact sports still don’t fully appreciate the risks of repeated head trauma and especially subconcussive blows. “I talk to former NFL and college players every week,” said Dr. Stern. “Some tell me, ‘I love the sport, it gave me so much, and I would do it again, but I’m not letting my grandchildren play.’ But others say, ‘As long as they know the risks, they can make their own decision.’ “
Dr. Nowinski has a daughter who is 4 and a son who’s 2. Both play soccer but, thanks to dad, heading isn’t allowed in their age groups. If they continue playing sports, Dr. Nowinski said he’ll make sure they understand the risks and how to protect themselves. This is a conversation all parents should have with their kids at every level to make sure they play safe, he added.
Those in the medical community can also volunteer their time to explain head trauma to athletes, coaches, and school administrators to be sure they understand its seriousness and are doing everything to protect players.
As you watch this year’s Super Bowl, Dr. Nowinski and his team would like you to keep something in mind. Those young men on the field for your entertainment are receiving mild brain trauma repeatedly throughout the game.
Even if it’s not a huge hit that gets replayed and makes everyone gasp, even if no one gets ushered into the little sideline tent for a concussion screening, even if no one loses consciousness, brain damage is still occurring. Watch the heads of the players during every play and think about what’s going on inside their skulls regardless of how big and strong those helmets look.
A version of this article first appeared on Medscape.com.
A doctor intervenes in a fiery car crash
Emergencies happen anywhere, anytime, and sometimes physicians find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape series telling these stories.
I was coming off a 48-hour shift plus a day of doing outpatient sedation at Sparrow Hospital in Lansing. It was December and Michigan-cold.
I drove on the side of the road where I wasn’t really supposed to and got closer. An SUV had crashed into one of the big concrete structures under the bridge. I saw people running around but wasn’t able to spot EMS or any health care workers. From where I was, I could identify four kids who had already been extricated and one adult still in the driver’s seat. I estimated the kids’ ages were around 7, 5, 3, and an infant who was a few months old. I left my car and went to help.
I was able to peg the ages correctly because I’m a pediatric critical care physician. As a specialty, we’re not commonly known. We oversee patient care in intensive care units, except the patients are children. Part of the job is that we’re experts at triaging. We recognize what’s life-threatening and less so.
The kids were with some adults who kept them warm with blankets. I examined each of them. The infant was asleep but arousable and acting like a normal baby. The 3-year-old boy was vomiting and appeared very fatigued. The 5-year-old boy had a forehead laceration and was in and out of consciousness. The 7-year-old girl was screaming because of different injuries.
While all of the children were concerning to me, I identified one in particular: the 5-year-old boy. It was obvious he needed serious medical attention and fast. So, I kept that little guy in mind. The others had sustained significant injuries, but my best guess was they could get to a hospital and be stabilized.
That said, I’m a trauma instructor, and one of the things I always tell trainees is: Trauma is a black box. On the outside, it may seem like a patient doesn’t have a lot of injuries. But underneath, there might be something worse, like a brain injury. Or the chest might have taken a blunt impact affecting the heart. There may be internal bleeding somewhere in the belly. It’s really hard to tease out what exactly is going on without equipment and testing.
I didn’t even have a pulse oximeter or heart rate monitor. I pretty much just went by the appearance of the child: pulse, heart rate, awareness, things like that.
After the kids, I moved to look at the man in the car. The front end had already caught fire. I could see the driver – the kids’ father, I guessed – unconscious and hunched over. I was wondering, Why hasn’t this guy been extricated?
I approached the car on the front passenger side. And then I just had this feeling. I knew I needed to step back. Immediately.
I did. And a few seconds later, the whole car exploded in flames.
I believe God is in control of everything. I tried to get to that man. But the scene was unsafe. Later I learned that several people, including a young nurse at the scene, had tried to get to him as well.
When EMS came, I identified myself. Obviously, these people do very, very important work. But they may be more used to the 60-year-old heart attack, the 25-year-old gunshot wound, the occasional ill child. I thought that four kids – each with possible critical poly-traumatic injuries – posed a challenge to anyone.
I told them, “This is what I do on a daily basis, and this is the kid I’m worried about the most. The other kids are definitely worrisome, but I would prioritize getting this kid to the hospital first. Can I ride with you?” They agreed.
We got that boy and his older sister into the first ambulance (she was in a lot of pain, the result of a femur fracture). The two other kids rode in the second ambulance. The hospital where I had just left was 10 minutes away. I called the other pediatric critical care doctor there, my partner. He thought I was calling for a routine issue – no such luck. I said, “I’m with four kids who are level-1 traumas in two ambulances and I’m heading to the hospital right now, ETA 10 minutes.”
En route, I thought the little boy might lose consciousness at any moment. He needed a breathing tube, and I debated whether it should be done in the ambulance vs. waiting until we got to the emergency room. Based on my judgment and his vital signs, I elected to wait to have it done it in a more controlled environment. Had I felt like he was in immediate need of an airway, I would’ve attempted it. But those are the tough calls that you must make.
My partner had alerted the trauma and emergency medicine teams at the hospital. By the time we arrived, my partner was down in the ER with the trauma team and ER staff. Everyone was ready. Then it was like divide and conquer. He attended to one of the kids. The ER team and I were with the little guy I was really worried about. We had his breathing tube in within minutes. The trauma team attended to the other two.
All the kids were stabilized and then admitted to the pediatric intensive care unit. I’m happy to say that all of them did well in the end. Even the little guy I was worried about the most.
I must say this incident gave me perspective on what EMS goes through. The field medicine we do in the United States is still in its infancy in a lot of ways. One of the things I would love to see in the future is a mobile ICU. After a critical illness hits, sometimes you only have seconds, minutes, maybe hours if you’re lucky. The earlier you can get patients the treatment they need, the better the outcomes.
I like taking care of critically ill children and their families. It fits my personality. And it’s a wonderful cause. But you have to be ready for tragic cases like this one. Yes, the children came out alive, but the accident claimed a life in a horrible way. And there was nothing I could do about it.
Critical care takes an emotional, psychological, and physical toll. It’s a roller coaster: Some kids do well; some kids don’t do well. All I can do is hold myself accountable. I keep my emotions in check, whether the outcome is positive or negative. And I do my best.
Mohamed Hani Farhat, MD, is a pediatric critical care physician at the University of Michigan C.S. Mott Children’s Hospital in Ann Arbor and Sparrow Hospital in Lansing, Mich. Are you a physician with a dramatic medical story outside the clinic? Medscape would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary of your story to access@webmd.net . A version of this article appeared on Medscape.com.
Emergencies happen anywhere, anytime, and sometimes physicians find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape series telling these stories.
I was coming off a 48-hour shift plus a day of doing outpatient sedation at Sparrow Hospital in Lansing. It was December and Michigan-cold.
I drove on the side of the road where I wasn’t really supposed to and got closer. An SUV had crashed into one of the big concrete structures under the bridge. I saw people running around but wasn’t able to spot EMS or any health care workers. From where I was, I could identify four kids who had already been extricated and one adult still in the driver’s seat. I estimated the kids’ ages were around 7, 5, 3, and an infant who was a few months old. I left my car and went to help.
I was able to peg the ages correctly because I’m a pediatric critical care physician. As a specialty, we’re not commonly known. We oversee patient care in intensive care units, except the patients are children. Part of the job is that we’re experts at triaging. We recognize what’s life-threatening and less so.
The kids were with some adults who kept them warm with blankets. I examined each of them. The infant was asleep but arousable and acting like a normal baby. The 3-year-old boy was vomiting and appeared very fatigued. The 5-year-old boy had a forehead laceration and was in and out of consciousness. The 7-year-old girl was screaming because of different injuries.
While all of the children were concerning to me, I identified one in particular: the 5-year-old boy. It was obvious he needed serious medical attention and fast. So, I kept that little guy in mind. The others had sustained significant injuries, but my best guess was they could get to a hospital and be stabilized.
That said, I’m a trauma instructor, and one of the things I always tell trainees is: Trauma is a black box. On the outside, it may seem like a patient doesn’t have a lot of injuries. But underneath, there might be something worse, like a brain injury. Or the chest might have taken a blunt impact affecting the heart. There may be internal bleeding somewhere in the belly. It’s really hard to tease out what exactly is going on without equipment and testing.
I didn’t even have a pulse oximeter or heart rate monitor. I pretty much just went by the appearance of the child: pulse, heart rate, awareness, things like that.
After the kids, I moved to look at the man in the car. The front end had already caught fire. I could see the driver – the kids’ father, I guessed – unconscious and hunched over. I was wondering, Why hasn’t this guy been extricated?
I approached the car on the front passenger side. And then I just had this feeling. I knew I needed to step back. Immediately.
I did. And a few seconds later, the whole car exploded in flames.
I believe God is in control of everything. I tried to get to that man. But the scene was unsafe. Later I learned that several people, including a young nurse at the scene, had tried to get to him as well.
When EMS came, I identified myself. Obviously, these people do very, very important work. But they may be more used to the 60-year-old heart attack, the 25-year-old gunshot wound, the occasional ill child. I thought that four kids – each with possible critical poly-traumatic injuries – posed a challenge to anyone.
I told them, “This is what I do on a daily basis, and this is the kid I’m worried about the most. The other kids are definitely worrisome, but I would prioritize getting this kid to the hospital first. Can I ride with you?” They agreed.
We got that boy and his older sister into the first ambulance (she was in a lot of pain, the result of a femur fracture). The two other kids rode in the second ambulance. The hospital where I had just left was 10 minutes away. I called the other pediatric critical care doctor there, my partner. He thought I was calling for a routine issue – no such luck. I said, “I’m with four kids who are level-1 traumas in two ambulances and I’m heading to the hospital right now, ETA 10 minutes.”
En route, I thought the little boy might lose consciousness at any moment. He needed a breathing tube, and I debated whether it should be done in the ambulance vs. waiting until we got to the emergency room. Based on my judgment and his vital signs, I elected to wait to have it done it in a more controlled environment. Had I felt like he was in immediate need of an airway, I would’ve attempted it. But those are the tough calls that you must make.
My partner had alerted the trauma and emergency medicine teams at the hospital. By the time we arrived, my partner was down in the ER with the trauma team and ER staff. Everyone was ready. Then it was like divide and conquer. He attended to one of the kids. The ER team and I were with the little guy I was really worried about. We had his breathing tube in within minutes. The trauma team attended to the other two.
All the kids were stabilized and then admitted to the pediatric intensive care unit. I’m happy to say that all of them did well in the end. Even the little guy I was worried about the most.
I must say this incident gave me perspective on what EMS goes through. The field medicine we do in the United States is still in its infancy in a lot of ways. One of the things I would love to see in the future is a mobile ICU. After a critical illness hits, sometimes you only have seconds, minutes, maybe hours if you’re lucky. The earlier you can get patients the treatment they need, the better the outcomes.
I like taking care of critically ill children and their families. It fits my personality. And it’s a wonderful cause. But you have to be ready for tragic cases like this one. Yes, the children came out alive, but the accident claimed a life in a horrible way. And there was nothing I could do about it.
Critical care takes an emotional, psychological, and physical toll. It’s a roller coaster: Some kids do well; some kids don’t do well. All I can do is hold myself accountable. I keep my emotions in check, whether the outcome is positive or negative. And I do my best.
Mohamed Hani Farhat, MD, is a pediatric critical care physician at the University of Michigan C.S. Mott Children’s Hospital in Ann Arbor and Sparrow Hospital in Lansing, Mich. Are you a physician with a dramatic medical story outside the clinic? Medscape would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary of your story to access@webmd.net . A version of this article appeared on Medscape.com.
Emergencies happen anywhere, anytime, and sometimes physicians find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape series telling these stories.
I was coming off a 48-hour shift plus a day of doing outpatient sedation at Sparrow Hospital in Lansing. It was December and Michigan-cold.
I drove on the side of the road where I wasn’t really supposed to and got closer. An SUV had crashed into one of the big concrete structures under the bridge. I saw people running around but wasn’t able to spot EMS or any health care workers. From where I was, I could identify four kids who had already been extricated and one adult still in the driver’s seat. I estimated the kids’ ages were around 7, 5, 3, and an infant who was a few months old. I left my car and went to help.
I was able to peg the ages correctly because I’m a pediatric critical care physician. As a specialty, we’re not commonly known. We oversee patient care in intensive care units, except the patients are children. Part of the job is that we’re experts at triaging. We recognize what’s life-threatening and less so.
The kids were with some adults who kept them warm with blankets. I examined each of them. The infant was asleep but arousable and acting like a normal baby. The 3-year-old boy was vomiting and appeared very fatigued. The 5-year-old boy had a forehead laceration and was in and out of consciousness. The 7-year-old girl was screaming because of different injuries.
While all of the children were concerning to me, I identified one in particular: the 5-year-old boy. It was obvious he needed serious medical attention and fast. So, I kept that little guy in mind. The others had sustained significant injuries, but my best guess was they could get to a hospital and be stabilized.
That said, I’m a trauma instructor, and one of the things I always tell trainees is: Trauma is a black box. On the outside, it may seem like a patient doesn’t have a lot of injuries. But underneath, there might be something worse, like a brain injury. Or the chest might have taken a blunt impact affecting the heart. There may be internal bleeding somewhere in the belly. It’s really hard to tease out what exactly is going on without equipment and testing.
I didn’t even have a pulse oximeter or heart rate monitor. I pretty much just went by the appearance of the child: pulse, heart rate, awareness, things like that.
After the kids, I moved to look at the man in the car. The front end had already caught fire. I could see the driver – the kids’ father, I guessed – unconscious and hunched over. I was wondering, Why hasn’t this guy been extricated?
I approached the car on the front passenger side. And then I just had this feeling. I knew I needed to step back. Immediately.
I did. And a few seconds later, the whole car exploded in flames.
I believe God is in control of everything. I tried to get to that man. But the scene was unsafe. Later I learned that several people, including a young nurse at the scene, had tried to get to him as well.
When EMS came, I identified myself. Obviously, these people do very, very important work. But they may be more used to the 60-year-old heart attack, the 25-year-old gunshot wound, the occasional ill child. I thought that four kids – each with possible critical poly-traumatic injuries – posed a challenge to anyone.
I told them, “This is what I do on a daily basis, and this is the kid I’m worried about the most. The other kids are definitely worrisome, but I would prioritize getting this kid to the hospital first. Can I ride with you?” They agreed.
We got that boy and his older sister into the first ambulance (she was in a lot of pain, the result of a femur fracture). The two other kids rode in the second ambulance. The hospital where I had just left was 10 minutes away. I called the other pediatric critical care doctor there, my partner. He thought I was calling for a routine issue – no such luck. I said, “I’m with four kids who are level-1 traumas in two ambulances and I’m heading to the hospital right now, ETA 10 minutes.”
En route, I thought the little boy might lose consciousness at any moment. He needed a breathing tube, and I debated whether it should be done in the ambulance vs. waiting until we got to the emergency room. Based on my judgment and his vital signs, I elected to wait to have it done it in a more controlled environment. Had I felt like he was in immediate need of an airway, I would’ve attempted it. But those are the tough calls that you must make.
My partner had alerted the trauma and emergency medicine teams at the hospital. By the time we arrived, my partner was down in the ER with the trauma team and ER staff. Everyone was ready. Then it was like divide and conquer. He attended to one of the kids. The ER team and I were with the little guy I was really worried about. We had his breathing tube in within minutes. The trauma team attended to the other two.
All the kids were stabilized and then admitted to the pediatric intensive care unit. I’m happy to say that all of them did well in the end. Even the little guy I was worried about the most.
I must say this incident gave me perspective on what EMS goes through. The field medicine we do in the United States is still in its infancy in a lot of ways. One of the things I would love to see in the future is a mobile ICU. After a critical illness hits, sometimes you only have seconds, minutes, maybe hours if you’re lucky. The earlier you can get patients the treatment they need, the better the outcomes.
I like taking care of critically ill children and their families. It fits my personality. And it’s a wonderful cause. But you have to be ready for tragic cases like this one. Yes, the children came out alive, but the accident claimed a life in a horrible way. And there was nothing I could do about it.
Critical care takes an emotional, psychological, and physical toll. It’s a roller coaster: Some kids do well; some kids don’t do well. All I can do is hold myself accountable. I keep my emotions in check, whether the outcome is positive or negative. And I do my best.
Mohamed Hani Farhat, MD, is a pediatric critical care physician at the University of Michigan C.S. Mott Children’s Hospital in Ann Arbor and Sparrow Hospital in Lansing, Mich. Are you a physician with a dramatic medical story outside the clinic? Medscape would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary of your story to access@webmd.net . A version of this article appeared on Medscape.com.
Even one head injury boosts all-cause mortality risk
An analysis of more than 13,000 adult participants in the Atherosclerosis Risk in Communities (ARIC) study showed a dose-response pattern in which one head injury was linked to a 66% increased risk for all-cause mortality, and two or more head injuries were associated with twice the risk in comparison with no head injuries.
These findings underscore the importance of preventing head injuries and of swift clinical intervention once a head injury occurs, lead author Holly Elser, MD, PhD, department of neurology, Hospital of the University of Pennsylvania, Philadelphia, told this news organization.
“Clinicians should counsel patients who are at risk for falls about head injuries and ensure patients are promptly evaluated in the hospital setting if they do have a fall – especially with loss of consciousness or other symptoms, such as headache or dizziness,” Dr. Elser added.
The findings were published online in JAMA Neurology.
Consistent evidence
There is “pretty consistent evidence” that mortality rates are increased in the short term after head injury, predominantly among hospitalized patients, Dr. Elser noted.
“But there’s less evidence about the long-term mortality implications of head injuries and less evidence from adults living in the community,” she added.
The analysis included 13,037 participants in the ARIC study, an ongoing study involving adults aged 45-65 years who were recruited from four geographically and racially diverse U.S. communities. The mean age at baseline (1987-1989) was 54 years; 57.7% were women; and 27.9% were Black.
Study participants are followed at routine in-person visits and semiannually via telephone.
Data on head injuries came from hospital diagnostic codes and self-reports. These reports included information on the number of injuries and whether the injury required medical care and involved loss of consciousness.
During the 27-year follow-up, 18.4% of the study sample had at least one head injury. Injuries occurred more frequently among women, which may reflect the predominance of women in the study population, said Dr. Elser.
Overall, about 56% of participants died during the study period. The estimated median amount of survival time after head injury was 4.7 years.
The most common causes of death were neoplasm, cardiovascular disease, and neurologic disorders. Regarding specific neurologic causes of death, the researchers found that 62.2% of deaths were due to neurodegenerative disease among individuals with head injury, vs. 51.4% among those without head injury.
This, said Dr. Elser, raises the possibility of reverse causality. “If you have a neurodegenerative disorder like Alzheimer’s disease dementia or Parkinson’s disease that leads to difficulty walking, you may be more likely to fall and have a head injury. The head injury in turn may lead to increased mortality,” she noted.
However, she stressed that the data on cause-specific mortality are exploratory. “Our research motivates future studies that really examine this time-dependent relationship between neurodegenerative disease and head injuries,” Dr. Elser said.
Dose-dependent response
In the unadjusted analysis, the hazard ratio of mortality among individuals with head injury was 2.21 (95% confidence interval, 2.09-2.34) compared with those who did not have head injury.
The association remained significant with adjustment for sociodemographic factors (HR, 1.99; 95% CI, 1.88-2.11) and with additional adjustment for vascular risk factors (HR, 1.92; 95% CI, 1.81-2.03).
The findings also showed a dose-response pattern in the association of head injuries with mortality. Compared with participants who did not have head injury, the HR was 1.66 (95% CI, 1.56-1.77) for those with one head injury and 2.11 (95% CI, 1.89-2.37) for those with two or more head injuries.
“It’s not as though once you’ve had one head injury, you’ve accrued all the damage you possibly can. We see pretty clearly here that recurrent head injury further increased the rate of deaths from all causes,” said Dr. Elser.
Injury severity was determined from hospital diagnostic codes using established algorithms. Results showed that mortality rates were increased with even mild head injury.
Interestingly, the association between head injury and all-cause mortality was weaker among those whose injuries were self-reported. One possibility is that these injuries were less severe, Dr. Elser noted.
“If you have head injury that’s mild enough that you don’t need to go to the hospital, it’s probably going to confer less long-term health risks than one that’s severe enough that you needed to be examined in an acute care setting,” she said.
Results were similar by race and for sex. “Even though there were more women with head injuries, the rate of mortality associated with head injury doesn’t differ from the rate among men,” Dr. Elser reported.
However, the association was stronger among those younger than 54 years at baseline (HR, 2.26) compared with older individuals (HR, 2.0) in the model that adjusted for demographics and lifestyle factors.
This may be explained by the reference group (those without a head injury) – the mortality rate was in general higher for the older participants, said Dr. Elser. It could also be that younger adults are more likely to have severe head injuries from, for example, motor vehicle accidents or violence, she added.
These new findings underscore the importance of public health measures, such as seatbelt laws, to reduce head injuries, the investigators note.
They add that clinicians with patients at risk for head injuries may recommend steps to lessen the risk of falls, such as having access to durable medical equipment, and ensuring driver safety.
Shorter life span
Commenting for this news organization, Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology in Port St. Lucie and past president of the Florida Society of Neurology, said the large number of participants “adds validity” to the finding that individuals with head injury are likely to have a shorter life span than those who do not suffer head trauma – and that this “was not purely by chance or from other causes.”
However, patients may not have accurately reported head injuries, in which case the rate of injury in the self-report subgroup would not reflect the actual incidence, noted Dr. Conidi, who was not involved with the research.
“In my practice, most patients have little knowledge as to the signs and symptoms of concussion and traumatic brain injury. Most think there needs to be some form of loss of consciousness to have a head injury, which is of course not true,” he said.
Dr. Conidi added that the finding of a higher incidence of death from neurodegenerative disorders supports the generally accepted consensus view that about 30% of patients with traumatic brain injury experience progression of symptoms and are at risk for early dementia.
The ARIC study is supported by the National Heart, Lung, and Blood Institute. Dr. Elser and Dr. Conidi have reported no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
An analysis of more than 13,000 adult participants in the Atherosclerosis Risk in Communities (ARIC) study showed a dose-response pattern in which one head injury was linked to a 66% increased risk for all-cause mortality, and two or more head injuries were associated with twice the risk in comparison with no head injuries.
These findings underscore the importance of preventing head injuries and of swift clinical intervention once a head injury occurs, lead author Holly Elser, MD, PhD, department of neurology, Hospital of the University of Pennsylvania, Philadelphia, told this news organization.
“Clinicians should counsel patients who are at risk for falls about head injuries and ensure patients are promptly evaluated in the hospital setting if they do have a fall – especially with loss of consciousness or other symptoms, such as headache or dizziness,” Dr. Elser added.
The findings were published online in JAMA Neurology.
Consistent evidence
There is “pretty consistent evidence” that mortality rates are increased in the short term after head injury, predominantly among hospitalized patients, Dr. Elser noted.
“But there’s less evidence about the long-term mortality implications of head injuries and less evidence from adults living in the community,” she added.
The analysis included 13,037 participants in the ARIC study, an ongoing study involving adults aged 45-65 years who were recruited from four geographically and racially diverse U.S. communities. The mean age at baseline (1987-1989) was 54 years; 57.7% were women; and 27.9% were Black.
Study participants are followed at routine in-person visits and semiannually via telephone.
Data on head injuries came from hospital diagnostic codes and self-reports. These reports included information on the number of injuries and whether the injury required medical care and involved loss of consciousness.
During the 27-year follow-up, 18.4% of the study sample had at least one head injury. Injuries occurred more frequently among women, which may reflect the predominance of women in the study population, said Dr. Elser.
Overall, about 56% of participants died during the study period. The estimated median amount of survival time after head injury was 4.7 years.
The most common causes of death were neoplasm, cardiovascular disease, and neurologic disorders. Regarding specific neurologic causes of death, the researchers found that 62.2% of deaths were due to neurodegenerative disease among individuals with head injury, vs. 51.4% among those without head injury.
This, said Dr. Elser, raises the possibility of reverse causality. “If you have a neurodegenerative disorder like Alzheimer’s disease dementia or Parkinson’s disease that leads to difficulty walking, you may be more likely to fall and have a head injury. The head injury in turn may lead to increased mortality,” she noted.
However, she stressed that the data on cause-specific mortality are exploratory. “Our research motivates future studies that really examine this time-dependent relationship between neurodegenerative disease and head injuries,” Dr. Elser said.
Dose-dependent response
In the unadjusted analysis, the hazard ratio of mortality among individuals with head injury was 2.21 (95% confidence interval, 2.09-2.34) compared with those who did not have head injury.
The association remained significant with adjustment for sociodemographic factors (HR, 1.99; 95% CI, 1.88-2.11) and with additional adjustment for vascular risk factors (HR, 1.92; 95% CI, 1.81-2.03).
The findings also showed a dose-response pattern in the association of head injuries with mortality. Compared with participants who did not have head injury, the HR was 1.66 (95% CI, 1.56-1.77) for those with one head injury and 2.11 (95% CI, 1.89-2.37) for those with two or more head injuries.
“It’s not as though once you’ve had one head injury, you’ve accrued all the damage you possibly can. We see pretty clearly here that recurrent head injury further increased the rate of deaths from all causes,” said Dr. Elser.
Injury severity was determined from hospital diagnostic codes using established algorithms. Results showed that mortality rates were increased with even mild head injury.
Interestingly, the association between head injury and all-cause mortality was weaker among those whose injuries were self-reported. One possibility is that these injuries were less severe, Dr. Elser noted.
“If you have head injury that’s mild enough that you don’t need to go to the hospital, it’s probably going to confer less long-term health risks than one that’s severe enough that you needed to be examined in an acute care setting,” she said.
Results were similar by race and for sex. “Even though there were more women with head injuries, the rate of mortality associated with head injury doesn’t differ from the rate among men,” Dr. Elser reported.
However, the association was stronger among those younger than 54 years at baseline (HR, 2.26) compared with older individuals (HR, 2.0) in the model that adjusted for demographics and lifestyle factors.
This may be explained by the reference group (those without a head injury) – the mortality rate was in general higher for the older participants, said Dr. Elser. It could also be that younger adults are more likely to have severe head injuries from, for example, motor vehicle accidents or violence, she added.
These new findings underscore the importance of public health measures, such as seatbelt laws, to reduce head injuries, the investigators note.
They add that clinicians with patients at risk for head injuries may recommend steps to lessen the risk of falls, such as having access to durable medical equipment, and ensuring driver safety.
Shorter life span
Commenting for this news organization, Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology in Port St. Lucie and past president of the Florida Society of Neurology, said the large number of participants “adds validity” to the finding that individuals with head injury are likely to have a shorter life span than those who do not suffer head trauma – and that this “was not purely by chance or from other causes.”
However, patients may not have accurately reported head injuries, in which case the rate of injury in the self-report subgroup would not reflect the actual incidence, noted Dr. Conidi, who was not involved with the research.
“In my practice, most patients have little knowledge as to the signs and symptoms of concussion and traumatic brain injury. Most think there needs to be some form of loss of consciousness to have a head injury, which is of course not true,” he said.
Dr. Conidi added that the finding of a higher incidence of death from neurodegenerative disorders supports the generally accepted consensus view that about 30% of patients with traumatic brain injury experience progression of symptoms and are at risk for early dementia.
The ARIC study is supported by the National Heart, Lung, and Blood Institute. Dr. Elser and Dr. Conidi have reported no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
An analysis of more than 13,000 adult participants in the Atherosclerosis Risk in Communities (ARIC) study showed a dose-response pattern in which one head injury was linked to a 66% increased risk for all-cause mortality, and two or more head injuries were associated with twice the risk in comparison with no head injuries.
These findings underscore the importance of preventing head injuries and of swift clinical intervention once a head injury occurs, lead author Holly Elser, MD, PhD, department of neurology, Hospital of the University of Pennsylvania, Philadelphia, told this news organization.
“Clinicians should counsel patients who are at risk for falls about head injuries and ensure patients are promptly evaluated in the hospital setting if they do have a fall – especially with loss of consciousness or other symptoms, such as headache or dizziness,” Dr. Elser added.
The findings were published online in JAMA Neurology.
Consistent evidence
There is “pretty consistent evidence” that mortality rates are increased in the short term after head injury, predominantly among hospitalized patients, Dr. Elser noted.
“But there’s less evidence about the long-term mortality implications of head injuries and less evidence from adults living in the community,” she added.
The analysis included 13,037 participants in the ARIC study, an ongoing study involving adults aged 45-65 years who were recruited from four geographically and racially diverse U.S. communities. The mean age at baseline (1987-1989) was 54 years; 57.7% were women; and 27.9% were Black.
Study participants are followed at routine in-person visits and semiannually via telephone.
Data on head injuries came from hospital diagnostic codes and self-reports. These reports included information on the number of injuries and whether the injury required medical care and involved loss of consciousness.
During the 27-year follow-up, 18.4% of the study sample had at least one head injury. Injuries occurred more frequently among women, which may reflect the predominance of women in the study population, said Dr. Elser.
Overall, about 56% of participants died during the study period. The estimated median amount of survival time after head injury was 4.7 years.
The most common causes of death were neoplasm, cardiovascular disease, and neurologic disorders. Regarding specific neurologic causes of death, the researchers found that 62.2% of deaths were due to neurodegenerative disease among individuals with head injury, vs. 51.4% among those without head injury.
This, said Dr. Elser, raises the possibility of reverse causality. “If you have a neurodegenerative disorder like Alzheimer’s disease dementia or Parkinson’s disease that leads to difficulty walking, you may be more likely to fall and have a head injury. The head injury in turn may lead to increased mortality,” she noted.
However, she stressed that the data on cause-specific mortality are exploratory. “Our research motivates future studies that really examine this time-dependent relationship between neurodegenerative disease and head injuries,” Dr. Elser said.
Dose-dependent response
In the unadjusted analysis, the hazard ratio of mortality among individuals with head injury was 2.21 (95% confidence interval, 2.09-2.34) compared with those who did not have head injury.
The association remained significant with adjustment for sociodemographic factors (HR, 1.99; 95% CI, 1.88-2.11) and with additional adjustment for vascular risk factors (HR, 1.92; 95% CI, 1.81-2.03).
The findings also showed a dose-response pattern in the association of head injuries with mortality. Compared with participants who did not have head injury, the HR was 1.66 (95% CI, 1.56-1.77) for those with one head injury and 2.11 (95% CI, 1.89-2.37) for those with two or more head injuries.
“It’s not as though once you’ve had one head injury, you’ve accrued all the damage you possibly can. We see pretty clearly here that recurrent head injury further increased the rate of deaths from all causes,” said Dr. Elser.
Injury severity was determined from hospital diagnostic codes using established algorithms. Results showed that mortality rates were increased with even mild head injury.
Interestingly, the association between head injury and all-cause mortality was weaker among those whose injuries were self-reported. One possibility is that these injuries were less severe, Dr. Elser noted.
“If you have head injury that’s mild enough that you don’t need to go to the hospital, it’s probably going to confer less long-term health risks than one that’s severe enough that you needed to be examined in an acute care setting,” she said.
Results were similar by race and for sex. “Even though there were more women with head injuries, the rate of mortality associated with head injury doesn’t differ from the rate among men,” Dr. Elser reported.
However, the association was stronger among those younger than 54 years at baseline (HR, 2.26) compared with older individuals (HR, 2.0) in the model that adjusted for demographics and lifestyle factors.
This may be explained by the reference group (those without a head injury) – the mortality rate was in general higher for the older participants, said Dr. Elser. It could also be that younger adults are more likely to have severe head injuries from, for example, motor vehicle accidents or violence, she added.
These new findings underscore the importance of public health measures, such as seatbelt laws, to reduce head injuries, the investigators note.
They add that clinicians with patients at risk for head injuries may recommend steps to lessen the risk of falls, such as having access to durable medical equipment, and ensuring driver safety.
Shorter life span
Commenting for this news organization, Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology in Port St. Lucie and past president of the Florida Society of Neurology, said the large number of participants “adds validity” to the finding that individuals with head injury are likely to have a shorter life span than those who do not suffer head trauma – and that this “was not purely by chance or from other causes.”
However, patients may not have accurately reported head injuries, in which case the rate of injury in the self-report subgroup would not reflect the actual incidence, noted Dr. Conidi, who was not involved with the research.
“In my practice, most patients have little knowledge as to the signs and symptoms of concussion and traumatic brain injury. Most think there needs to be some form of loss of consciousness to have a head injury, which is of course not true,” he said.
Dr. Conidi added that the finding of a higher incidence of death from neurodegenerative disorders supports the generally accepted consensus view that about 30% of patients with traumatic brain injury experience progression of symptoms and are at risk for early dementia.
The ARIC study is supported by the National Heart, Lung, and Blood Institute. Dr. Elser and Dr. Conidi have reported no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM JAMA NEUROLOGY
Canadian guidance recommends reducing alcohol consumption
“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).
Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:
- Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
- Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
- Three to six drinks raise the risk of developing breast, colon, and other cancers.
- Seven or more increase the risk of heart disease or stroke.
- Each additional drink “radically increases” the risk of these health consequences.
“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”
Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”
“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
Continuum of risk
The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.
That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.
Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).
Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:
- Low for individuals who consume two standard drinks or fewer per week
- Moderate for those who consume from three to six standard drinks per week
- Increasingly high for those who consume seven standard drinks or more per week
The guidance makes the following observations:
- Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
- When pregnant or trying to get pregnant, no amount of alcohol is safe.
- When breastfeeding, not drinking is safest.
- Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
- Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
- Young people should delay alcohol use for as long as possible.
- Individuals should not start to use alcohol or increase their alcohol use for health benefits.
- Any reduction in alcohol use is beneficial.
Other national guidelines
“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”
“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.
“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”
Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”
Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.
Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”
A version of this article originally appeared on Medscape.com.
“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).
Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:
- Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
- Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
- Three to six drinks raise the risk of developing breast, colon, and other cancers.
- Seven or more increase the risk of heart disease or stroke.
- Each additional drink “radically increases” the risk of these health consequences.
“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”
Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”
“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
Continuum of risk
The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.
That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.
Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).
Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:
- Low for individuals who consume two standard drinks or fewer per week
- Moderate for those who consume from three to six standard drinks per week
- Increasingly high for those who consume seven standard drinks or more per week
The guidance makes the following observations:
- Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
- When pregnant or trying to get pregnant, no amount of alcohol is safe.
- When breastfeeding, not drinking is safest.
- Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
- Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
- Young people should delay alcohol use for as long as possible.
- Individuals should not start to use alcohol or increase their alcohol use for health benefits.
- Any reduction in alcohol use is beneficial.
Other national guidelines
“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”
“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.
“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”
Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”
Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.
Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”
A version of this article originally appeared on Medscape.com.
“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).
Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:
- Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
- Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
- Three to six drinks raise the risk of developing breast, colon, and other cancers.
- Seven or more increase the risk of heart disease or stroke.
- Each additional drink “radically increases” the risk of these health consequences.
“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”
Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”
“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
Continuum of risk
The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.
That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.
Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).
Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:
- Low for individuals who consume two standard drinks or fewer per week
- Moderate for those who consume from three to six standard drinks per week
- Increasingly high for those who consume seven standard drinks or more per week
The guidance makes the following observations:
- Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
- When pregnant or trying to get pregnant, no amount of alcohol is safe.
- When breastfeeding, not drinking is safest.
- Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
- Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
- Young people should delay alcohol use for as long as possible.
- Individuals should not start to use alcohol or increase their alcohol use for health benefits.
- Any reduction in alcohol use is beneficial.
Other national guidelines
“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”
“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.
“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”
Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”
Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.
Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”
A version of this article originally appeared on Medscape.com.
A freak impalement by a model rocket has this doctor scrambling
North central Washington state is a lot of nothing other than fields. Every year, the Federal Aviation Administration closes the airspace in a remote part of the area for a model rocket competition, the National Association of Rocketry Annual Meet. It’s a 2-day event and a pretty big deal. People come from all over the country to be there.
When you were a kid, you probably saw those rockets that are 3 feet tall. You launch them up in the air, they have a little parachute that comes out and they come back down to the ground. Well, picture that on ultimate steroids. There are anywhere from 3-foot to almost 20-foot-long rockets at this thing. People show up with horse trailers full of rockets and components. I mean, it’s an obsession.
Some of these rockets are super sophisticated. They have different stages where the first stage burns out and the second takes over. They go up thousands of feet to the edge of the stratosphere. Most of them have GoPro cameras, so you get to see when the rocket reaches the top of its trajectory and the last engine burns out. As it starts to descend, a parachute deploys and it can drift back anywhere from pretty close to where you launched it to a couple miles away. Then you use your little GPS to find it.
Why not? I drove out there and parked my Jeep and was walking over to the competition when I noticed something off. A bigger commotion than there should have been.
Here’s what happened 2 minutes before I got there:
A 5-foot-long rocket, 2½ inches in diameter, had reached the top of its several thousand–foot trajectory and was ready to come back to Earth. But its parachute didn’t deploy. It turned itself point-down and literally shot back to earth like a rocket.
It had gone up pretty darn straight and came down just as straight – right into a circle of people sitting in lawn chairs.
It hit a middle-aged man. But you can’t imagine how. First of all, who knows how fast it was going. The point glanced off his forehead and ... how to describe the rest. The man was pretty heavy. So the rocket impaled him through the abdomen and stuck right into the ground. As in, the point entered the top of his belly just below chest level and came out the bottom of his belly. The rocket pinned him to the ground through his belly.
Well, this was not how I planned on spending my day. But my spectator time was over. There were a lot of people running around in circles where he was pinned, not really knowing what to do.
When I said I was an emergency physician, instantly 15 heads looked right at me for direction like, Oh my gosh, please take over! A lot of people were asking: “What can I do? What can I do?” I said: “Well, we don’t need to do CPR. What we really need to do is get this rocket out of the ground. We need to keep him still while we dig out the rocket and get him flat.”
People gently dug around the nose of the rocket. It was in about 6 or 8 inches, enough that we didn’t want to just yank on it (I still marvel at how fast it must have been traveling to both impale the man the way it did and also jam into the ground like that). We wanted to loosen it up and ease it out of the ground.
We managed to dig the nose out and get the guy on his back. Needless to say, he wasn’t particularly comfortable. He looked pretty ashen, like he was in pretty good trouble.
The festival had an EMS kit with some bandages in it, but not a whole lot else. There’s the old joke in emergency medicine: What can you do with duct tape, a Swiss army knife, and a paper clip? It’s like, what has anybody got that might work here?
What we really needed to do was keep both the rocket and the man from moving. We cut off his shirt and got his pants down so that I could better see where it entered and exited. Then we used a couple of clean T-shirts to stabilize the rocket so it didn’t move while he lay flat. It didn’t bleed all that much. And his belly wasn’t massively expanding like he was bleeding internally. I mean, he looked crappy. But so would I!
We were about an hour away from the closest EMS and only a couple people even had cell service out there. But we managed to get hold of EMS. It was also one of those 92-degree days with no shade for 50 miles in any direction.
There was a volunteer firefighter there to man the fire rig. He helped carry the guy into an air-conditioned trailer without moving him very much.
Basically, we stabilized him by keeping him super still and as comfortable as we could until EMS arrived. I rode with him about an hour and a half to the closest trauma center in Central Washington. He was conscious, which was lousy for him but reassuring for me. “You’re still talking to me,” I said. “I think you’re going to be okay.”
One of the take-home points from a medical point of view is never try to remove something sticking out of someone when you’re out in the field. If it’s pushing against something vital, you could do a lot of damage, and if it’s up against a blood vessel, that vessel’s going to bleed uncontrollably.
We got to the trauma center and they took him to the OR. By the grace of friendships, somebody got his wife to the hospital. She was calmer than I think I would have been if my spouse had been hit by a rocket.
The full diagnostic story: The rocket bouncing off his forehead gave him a small skull fracture and slight concussion. That was no big deal. But picture this: The rocket only went through his belly fat. It didn’t hit any of his abdominal organs! I still think this is absolutely amazing. If he had been leaning forward in his lawn chair even a few inches, the rocket would’ve gone through his head and that would’ve been all they wrote.
He stayed in the hospital for a couple of days. I never saw him again, but I received follow-up from the surgeon. And I read the paper the next day. Let me tell you, in Central Washington, this is pretty big news.
It wasn’t the way I’d planned my morning. But you just can’t predict that kind of thing. I don’t know, maybe spiritually or karma wise, I was meant to show up about 90 seconds after he’d been hit. The only emergency physician at the whole event, just by chance. My work blesses me with a certain skill set. I know when to really worry, how to go about keeping somebody safe until you can get them to the ED. It’s something I thank my stars for every single day.
As I said to the guy on the way to the hospital: “Well, it’s not your lucky day, but it sure as heck could have been a whole lot unluckier.”
Stephen Anderson, MD, is an emergency medicine physician in Auburn, Washington and is affiliated with MultiCare Auburn Medical Center.
A version of this article first appeared on Medscape.com.
North central Washington state is a lot of nothing other than fields. Every year, the Federal Aviation Administration closes the airspace in a remote part of the area for a model rocket competition, the National Association of Rocketry Annual Meet. It’s a 2-day event and a pretty big deal. People come from all over the country to be there.
When you were a kid, you probably saw those rockets that are 3 feet tall. You launch them up in the air, they have a little parachute that comes out and they come back down to the ground. Well, picture that on ultimate steroids. There are anywhere from 3-foot to almost 20-foot-long rockets at this thing. People show up with horse trailers full of rockets and components. I mean, it’s an obsession.
Some of these rockets are super sophisticated. They have different stages where the first stage burns out and the second takes over. They go up thousands of feet to the edge of the stratosphere. Most of them have GoPro cameras, so you get to see when the rocket reaches the top of its trajectory and the last engine burns out. As it starts to descend, a parachute deploys and it can drift back anywhere from pretty close to where you launched it to a couple miles away. Then you use your little GPS to find it.
Why not? I drove out there and parked my Jeep and was walking over to the competition when I noticed something off. A bigger commotion than there should have been.
Here’s what happened 2 minutes before I got there:
A 5-foot-long rocket, 2½ inches in diameter, had reached the top of its several thousand–foot trajectory and was ready to come back to Earth. But its parachute didn’t deploy. It turned itself point-down and literally shot back to earth like a rocket.
It had gone up pretty darn straight and came down just as straight – right into a circle of people sitting in lawn chairs.
It hit a middle-aged man. But you can’t imagine how. First of all, who knows how fast it was going. The point glanced off his forehead and ... how to describe the rest. The man was pretty heavy. So the rocket impaled him through the abdomen and stuck right into the ground. As in, the point entered the top of his belly just below chest level and came out the bottom of his belly. The rocket pinned him to the ground through his belly.
Well, this was not how I planned on spending my day. But my spectator time was over. There were a lot of people running around in circles where he was pinned, not really knowing what to do.
When I said I was an emergency physician, instantly 15 heads looked right at me for direction like, Oh my gosh, please take over! A lot of people were asking: “What can I do? What can I do?” I said: “Well, we don’t need to do CPR. What we really need to do is get this rocket out of the ground. We need to keep him still while we dig out the rocket and get him flat.”
People gently dug around the nose of the rocket. It was in about 6 or 8 inches, enough that we didn’t want to just yank on it (I still marvel at how fast it must have been traveling to both impale the man the way it did and also jam into the ground like that). We wanted to loosen it up and ease it out of the ground.
We managed to dig the nose out and get the guy on his back. Needless to say, he wasn’t particularly comfortable. He looked pretty ashen, like he was in pretty good trouble.
The festival had an EMS kit with some bandages in it, but not a whole lot else. There’s the old joke in emergency medicine: What can you do with duct tape, a Swiss army knife, and a paper clip? It’s like, what has anybody got that might work here?
What we really needed to do was keep both the rocket and the man from moving. We cut off his shirt and got his pants down so that I could better see where it entered and exited. Then we used a couple of clean T-shirts to stabilize the rocket so it didn’t move while he lay flat. It didn’t bleed all that much. And his belly wasn’t massively expanding like he was bleeding internally. I mean, he looked crappy. But so would I!
We were about an hour away from the closest EMS and only a couple people even had cell service out there. But we managed to get hold of EMS. It was also one of those 92-degree days with no shade for 50 miles in any direction.
There was a volunteer firefighter there to man the fire rig. He helped carry the guy into an air-conditioned trailer without moving him very much.
Basically, we stabilized him by keeping him super still and as comfortable as we could until EMS arrived. I rode with him about an hour and a half to the closest trauma center in Central Washington. He was conscious, which was lousy for him but reassuring for me. “You’re still talking to me,” I said. “I think you’re going to be okay.”
One of the take-home points from a medical point of view is never try to remove something sticking out of someone when you’re out in the field. If it’s pushing against something vital, you could do a lot of damage, and if it’s up against a blood vessel, that vessel’s going to bleed uncontrollably.
We got to the trauma center and they took him to the OR. By the grace of friendships, somebody got his wife to the hospital. She was calmer than I think I would have been if my spouse had been hit by a rocket.
The full diagnostic story: The rocket bouncing off his forehead gave him a small skull fracture and slight concussion. That was no big deal. But picture this: The rocket only went through his belly fat. It didn’t hit any of his abdominal organs! I still think this is absolutely amazing. If he had been leaning forward in his lawn chair even a few inches, the rocket would’ve gone through his head and that would’ve been all they wrote.
He stayed in the hospital for a couple of days. I never saw him again, but I received follow-up from the surgeon. And I read the paper the next day. Let me tell you, in Central Washington, this is pretty big news.
It wasn’t the way I’d planned my morning. But you just can’t predict that kind of thing. I don’t know, maybe spiritually or karma wise, I was meant to show up about 90 seconds after he’d been hit. The only emergency physician at the whole event, just by chance. My work blesses me with a certain skill set. I know when to really worry, how to go about keeping somebody safe until you can get them to the ED. It’s something I thank my stars for every single day.
As I said to the guy on the way to the hospital: “Well, it’s not your lucky day, but it sure as heck could have been a whole lot unluckier.”
Stephen Anderson, MD, is an emergency medicine physician in Auburn, Washington and is affiliated with MultiCare Auburn Medical Center.
A version of this article first appeared on Medscape.com.
North central Washington state is a lot of nothing other than fields. Every year, the Federal Aviation Administration closes the airspace in a remote part of the area for a model rocket competition, the National Association of Rocketry Annual Meet. It’s a 2-day event and a pretty big deal. People come from all over the country to be there.
When you were a kid, you probably saw those rockets that are 3 feet tall. You launch them up in the air, they have a little parachute that comes out and they come back down to the ground. Well, picture that on ultimate steroids. There are anywhere from 3-foot to almost 20-foot-long rockets at this thing. People show up with horse trailers full of rockets and components. I mean, it’s an obsession.
Some of these rockets are super sophisticated. They have different stages where the first stage burns out and the second takes over. They go up thousands of feet to the edge of the stratosphere. Most of them have GoPro cameras, so you get to see when the rocket reaches the top of its trajectory and the last engine burns out. As it starts to descend, a parachute deploys and it can drift back anywhere from pretty close to where you launched it to a couple miles away. Then you use your little GPS to find it.
Why not? I drove out there and parked my Jeep and was walking over to the competition when I noticed something off. A bigger commotion than there should have been.
Here’s what happened 2 minutes before I got there:
A 5-foot-long rocket, 2½ inches in diameter, had reached the top of its several thousand–foot trajectory and was ready to come back to Earth. But its parachute didn’t deploy. It turned itself point-down and literally shot back to earth like a rocket.
It had gone up pretty darn straight and came down just as straight – right into a circle of people sitting in lawn chairs.
It hit a middle-aged man. But you can’t imagine how. First of all, who knows how fast it was going. The point glanced off his forehead and ... how to describe the rest. The man was pretty heavy. So the rocket impaled him through the abdomen and stuck right into the ground. As in, the point entered the top of his belly just below chest level and came out the bottom of his belly. The rocket pinned him to the ground through his belly.
Well, this was not how I planned on spending my day. But my spectator time was over. There were a lot of people running around in circles where he was pinned, not really knowing what to do.
When I said I was an emergency physician, instantly 15 heads looked right at me for direction like, Oh my gosh, please take over! A lot of people were asking: “What can I do? What can I do?” I said: “Well, we don’t need to do CPR. What we really need to do is get this rocket out of the ground. We need to keep him still while we dig out the rocket and get him flat.”
People gently dug around the nose of the rocket. It was in about 6 or 8 inches, enough that we didn’t want to just yank on it (I still marvel at how fast it must have been traveling to both impale the man the way it did and also jam into the ground like that). We wanted to loosen it up and ease it out of the ground.
We managed to dig the nose out and get the guy on his back. Needless to say, he wasn’t particularly comfortable. He looked pretty ashen, like he was in pretty good trouble.
The festival had an EMS kit with some bandages in it, but not a whole lot else. There’s the old joke in emergency medicine: What can you do with duct tape, a Swiss army knife, and a paper clip? It’s like, what has anybody got that might work here?
What we really needed to do was keep both the rocket and the man from moving. We cut off his shirt and got his pants down so that I could better see where it entered and exited. Then we used a couple of clean T-shirts to stabilize the rocket so it didn’t move while he lay flat. It didn’t bleed all that much. And his belly wasn’t massively expanding like he was bleeding internally. I mean, he looked crappy. But so would I!
We were about an hour away from the closest EMS and only a couple people even had cell service out there. But we managed to get hold of EMS. It was also one of those 92-degree days with no shade for 50 miles in any direction.
There was a volunteer firefighter there to man the fire rig. He helped carry the guy into an air-conditioned trailer without moving him very much.
Basically, we stabilized him by keeping him super still and as comfortable as we could until EMS arrived. I rode with him about an hour and a half to the closest trauma center in Central Washington. He was conscious, which was lousy for him but reassuring for me. “You’re still talking to me,” I said. “I think you’re going to be okay.”
One of the take-home points from a medical point of view is never try to remove something sticking out of someone when you’re out in the field. If it’s pushing against something vital, you could do a lot of damage, and if it’s up against a blood vessel, that vessel’s going to bleed uncontrollably.
We got to the trauma center and they took him to the OR. By the grace of friendships, somebody got his wife to the hospital. She was calmer than I think I would have been if my spouse had been hit by a rocket.
The full diagnostic story: The rocket bouncing off his forehead gave him a small skull fracture and slight concussion. That was no big deal. But picture this: The rocket only went through his belly fat. It didn’t hit any of his abdominal organs! I still think this is absolutely amazing. If he had been leaning forward in his lawn chair even a few inches, the rocket would’ve gone through his head and that would’ve been all they wrote.
He stayed in the hospital for a couple of days. I never saw him again, but I received follow-up from the surgeon. And I read the paper the next day. Let me tell you, in Central Washington, this is pretty big news.
It wasn’t the way I’d planned my morning. But you just can’t predict that kind of thing. I don’t know, maybe spiritually or karma wise, I was meant to show up about 90 seconds after he’d been hit. The only emergency physician at the whole event, just by chance. My work blesses me with a certain skill set. I know when to really worry, how to go about keeping somebody safe until you can get them to the ED. It’s something I thank my stars for every single day.
As I said to the guy on the way to the hospital: “Well, it’s not your lucky day, but it sure as heck could have been a whole lot unluckier.”
Stephen Anderson, MD, is an emergency medicine physician in Auburn, Washington and is affiliated with MultiCare Auburn Medical Center.
A version of this article first appeared on Medscape.com.