Pulmonology

More than one third of patients with cancer visited an emergency department (ED) in the 90 days before their diagnosis, according to a study of medical records from Ontario, Canada.

Researchers examined Institute for Clinical Evaluative Sciences (ICES) data that had been gathered from January 1, 2014, to December 31, 2021. The study focused on patients aged 18 years or older with confirmed primary cancer diagnoses.

Factors associated with an increased likelihood of an ED visit ahead of diagnosis included having certain cancers, living in rural areas, and having less access to primary care, according to study author Keerat Grewal, MD, an emergency physician and clinician scientist at the Schwartz/Reisman Emergency Medicine Institute at Sinai Health in Toronto, Ontario, Canada, and coauthors.

“The ED is a distressing environment for patients to receive a possible cancer diagnosis,” the authors wrote. “Moreover, it is frequently ill equipped to provide ongoing continuity of care, which can lead patients down a poorly defined diagnostic pathway before receiving a confirmed diagnosis based on tissue and a subsequent treatment plan.”

The findings were published online on November 4 in CMAJ).
 

Neurologic Cancers Prominent

In an interview, Grewal said in an interview that the study reflects her desire as an emergency room physician to understand why so many patients with cancer get the initial reports about their disease from clinicians whom they often have just met for the first time.

Among patients with an ED visit before cancer diagnosis, 51.4% were admitted to hospital from the most recent visit.

Compared with patients with a family physician on whom they could rely for routine care, those who had no outpatient visits (odds ratio [OR], 2.09) or fewer than three outpatient visits (OR, 1.41) in the 6-30 months before cancer diagnosis were more likely to have an ED visit before their cancer diagnosis.

Other factors associated with increased odds of ED use before cancer diagnosis included rurality (OR, 1.15), residence in northern Ontario (northeast region: OR, 1.14 and northwest region: OR, 1.27 vs Toronto region), and living in the most marginalized areas (material resource deprivation: OR, 1.37 and housing stability: OR, 1.09 vs least marginalized area).

The researchers also found that patients with certain cancers were more likely to have sought care in the ED. They compared these cancers with breast cancer, which is often detected through screening.

“Patients with neurologic cancers had extremely high odds of ED use before cancer diagnosis,” the authors wrote. “This is likely because of the emergent nature of presentation, with acute neurologic symptoms such as weakness, confusion, or seizures, which require urgent assessment.” On the other hand, pancreatic, liver, or thoracic cancer can trigger nonspecific symptoms that may be ignored until they reach a crisis level that prompts an ED visit.

The limitations of the study included its inability to identify cancer-related ED visits and its narrow focus on patients in Ontario, according to the researchers. But the use of the ICES databases also allowed researchers access to a broader pool of data than are available in many other cases.

The findings in the new paper echo those of previous research, the authors noted. Research in the United Kingdom found that 24%-31% of cancer diagnoses involved the ED. In addition, a study of people enrolled in the US Medicare program, which serves patients aged 65 years or older, found that 23% were seen in the ED in the 30 days before diagnosis.
 

‘Unpacking the Data’

The current findings also are consistent with those of an International Cancer Benchmarking Partnership study that was published in 2022 in The Lancet Oncology, said Erika Nicholson, MHS, vice president of cancer systems and innovation at the Canadian Partnership Against Cancer. The latter study analyzed cancer registration and linked hospital admissions data from 14 jurisdictions in Australia, Canada, Denmark, New Zealand, Norway, and the United Kingdom.

“We see similar trends in terms of people visiting EDs and being diagnosed through EDs internationally,” Nicholson said. “We’re working with partners to put in place different strategies to address the challenges” that this phenomenon presents in terms of improving screening and follow-up care.

“Cancer is not one disease, but many diseases,” she said. “They present differently. We’re focused on really unpacking the data and understanding them.”

All this research highlights the need for more services and personnel to address cancer, including people who are trained to help patients cope after getting concerning news through emergency care, she said.

“That means having a system that fully supports you and helps you navigate through that diagnostic process,” Nicholson said. Addressing the added challenges for patients who don’t have secure housing is a special need, she added.

This study was supported by the Canadian Institutes of Health Research (CIHR). Grewal reported receiving grants from CIHR and the Canadian Association of Emergency Physicians. Nicholson reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

More than one third of patients with cancer visited an emergency department (ED) in the 90 days before their diagnosis, according to a study of medical records from Ontario, Canada.

Researchers examined Institute for Clinical Evaluative Sciences (ICES) data that had been gathered from January 1, 2014, to December 31, 2021. The study focused on patients aged 18 years or older with confirmed primary cancer diagnoses.

Factors associated with an increased likelihood of an ED visit ahead of diagnosis included having certain cancers, living in rural areas, and having less access to primary care, according to study author Keerat Grewal, MD, an emergency physician and clinician scientist at the Schwartz/Reisman Emergency Medicine Institute at Sinai Health in Toronto, Ontario, Canada, and coauthors.

“The ED is a distressing environment for patients to receive a possible cancer diagnosis,” the authors wrote. “Moreover, it is frequently ill equipped to provide ongoing continuity of care, which can lead patients down a poorly defined diagnostic pathway before receiving a confirmed diagnosis based on tissue and a subsequent treatment plan.”

The findings were published online on November 4 in CMAJ).
 

Neurologic Cancers Prominent

In an interview, Grewal said in an interview that the study reflects her desire as an emergency room physician to understand why so many patients with cancer get the initial reports about their disease from clinicians whom they often have just met for the first time.

Among patients with an ED visit before cancer diagnosis, 51.4% were admitted to hospital from the most recent visit.

Compared with patients with a family physician on whom they could rely for routine care, those who had no outpatient visits (odds ratio [OR], 2.09) or fewer than three outpatient visits (OR, 1.41) in the 6-30 months before cancer diagnosis were more likely to have an ED visit before their cancer diagnosis.

Other factors associated with increased odds of ED use before cancer diagnosis included rurality (OR, 1.15), residence in northern Ontario (northeast region: OR, 1.14 and northwest region: OR, 1.27 vs Toronto region), and living in the most marginalized areas (material resource deprivation: OR, 1.37 and housing stability: OR, 1.09 vs least marginalized area).

The researchers also found that patients with certain cancers were more likely to have sought care in the ED. They compared these cancers with breast cancer, which is often detected through screening.

“Patients with neurologic cancers had extremely high odds of ED use before cancer diagnosis,” the authors wrote. “This is likely because of the emergent nature of presentation, with acute neurologic symptoms such as weakness, confusion, or seizures, which require urgent assessment.” On the other hand, pancreatic, liver, or thoracic cancer can trigger nonspecific symptoms that may be ignored until they reach a crisis level that prompts an ED visit.

The limitations of the study included its inability to identify cancer-related ED visits and its narrow focus on patients in Ontario, according to the researchers. But the use of the ICES databases also allowed researchers access to a broader pool of data than are available in many other cases.

The findings in the new paper echo those of previous research, the authors noted. Research in the United Kingdom found that 24%-31% of cancer diagnoses involved the ED. In addition, a study of people enrolled in the US Medicare program, which serves patients aged 65 years or older, found that 23% were seen in the ED in the 30 days before diagnosis.
 

‘Unpacking the Data’

The current findings also are consistent with those of an International Cancer Benchmarking Partnership study that was published in 2022 in The Lancet Oncology, said Erika Nicholson, MHS, vice president of cancer systems and innovation at the Canadian Partnership Against Cancer. The latter study analyzed cancer registration and linked hospital admissions data from 14 jurisdictions in Australia, Canada, Denmark, New Zealand, Norway, and the United Kingdom.

“We see similar trends in terms of people visiting EDs and being diagnosed through EDs internationally,” Nicholson said. “We’re working with partners to put in place different strategies to address the challenges” that this phenomenon presents in terms of improving screening and follow-up care.

“Cancer is not one disease, but many diseases,” she said. “They present differently. We’re focused on really unpacking the data and understanding them.”

All this research highlights the need for more services and personnel to address cancer, including people who are trained to help patients cope after getting concerning news through emergency care, she said.

“That means having a system that fully supports you and helps you navigate through that diagnostic process,” Nicholson said. Addressing the added challenges for patients who don’t have secure housing is a special need, she added.

This study was supported by the Canadian Institutes of Health Research (CIHR). Grewal reported receiving grants from CIHR and the Canadian Association of Emergency Physicians. Nicholson reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

More than one third of patients with cancer visited an emergency department (ED) in the 90 days before their diagnosis, according to a study of medical records from Ontario, Canada.

Researchers examined Institute for Clinical Evaluative Sciences (ICES) data that had been gathered from January 1, 2014, to December 31, 2021. The study focused on patients aged 18 years or older with confirmed primary cancer diagnoses.

Factors associated with an increased likelihood of an ED visit ahead of diagnosis included having certain cancers, living in rural areas, and having less access to primary care, according to study author Keerat Grewal, MD, an emergency physician and clinician scientist at the Schwartz/Reisman Emergency Medicine Institute at Sinai Health in Toronto, Ontario, Canada, and coauthors.

“The ED is a distressing environment for patients to receive a possible cancer diagnosis,” the authors wrote. “Moreover, it is frequently ill equipped to provide ongoing continuity of care, which can lead patients down a poorly defined diagnostic pathway before receiving a confirmed diagnosis based on tissue and a subsequent treatment plan.”

The findings were published online on November 4 in CMAJ).
 

Neurologic Cancers Prominent

In an interview, Grewal said in an interview that the study reflects her desire as an emergency room physician to understand why so many patients with cancer get the initial reports about their disease from clinicians whom they often have just met for the first time.

Among patients with an ED visit before cancer diagnosis, 51.4% were admitted to hospital from the most recent visit.

Compared with patients with a family physician on whom they could rely for routine care, those who had no outpatient visits (odds ratio [OR], 2.09) or fewer than three outpatient visits (OR, 1.41) in the 6-30 months before cancer diagnosis were more likely to have an ED visit before their cancer diagnosis.

Other factors associated with increased odds of ED use before cancer diagnosis included rurality (OR, 1.15), residence in northern Ontario (northeast region: OR, 1.14 and northwest region: OR, 1.27 vs Toronto region), and living in the most marginalized areas (material resource deprivation: OR, 1.37 and housing stability: OR, 1.09 vs least marginalized area).

The researchers also found that patients with certain cancers were more likely to have sought care in the ED. They compared these cancers with breast cancer, which is often detected through screening.

“Patients with neurologic cancers had extremely high odds of ED use before cancer diagnosis,” the authors wrote. “This is likely because of the emergent nature of presentation, with acute neurologic symptoms such as weakness, confusion, or seizures, which require urgent assessment.” On the other hand, pancreatic, liver, or thoracic cancer can trigger nonspecific symptoms that may be ignored until they reach a crisis level that prompts an ED visit.

The limitations of the study included its inability to identify cancer-related ED visits and its narrow focus on patients in Ontario, according to the researchers. But the use of the ICES databases also allowed researchers access to a broader pool of data than are available in many other cases.

The findings in the new paper echo those of previous research, the authors noted. Research in the United Kingdom found that 24%-31% of cancer diagnoses involved the ED. In addition, a study of people enrolled in the US Medicare program, which serves patients aged 65 years or older, found that 23% were seen in the ED in the 30 days before diagnosis.
 

‘Unpacking the Data’

The current findings also are consistent with those of an International Cancer Benchmarking Partnership study that was published in 2022 in The Lancet Oncology, said Erika Nicholson, MHS, vice president of cancer systems and innovation at the Canadian Partnership Against Cancer. The latter study analyzed cancer registration and linked hospital admissions data from 14 jurisdictions in Australia, Canada, Denmark, New Zealand, Norway, and the United Kingdom.

“We see similar trends in terms of people visiting EDs and being diagnosed through EDs internationally,” Nicholson said. “We’re working with partners to put in place different strategies to address the challenges” that this phenomenon presents in terms of improving screening and follow-up care.

“Cancer is not one disease, but many diseases,” she said. “They present differently. We’re focused on really unpacking the data and understanding them.”

All this research highlights the need for more services and personnel to address cancer, including people who are trained to help patients cope after getting concerning news through emergency care, she said.

“That means having a system that fully supports you and helps you navigate through that diagnostic process,” Nicholson said. Addressing the added challenges for patients who don’t have secure housing is a special need, she added.

This study was supported by the Canadian Institutes of Health Research (CIHR). Grewal reported receiving grants from CIHR and the Canadian Association of Emergency Physicians. Nicholson reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

This summer, the US Food and Drug Administration (FDA) fast-tracked approval of the first-in-its-class nasal epinephrine (neffy). It’s a very welcome addition to our anaphylaxis treatment armamentarium. As the FDA announcement notes, patients with anaphylaxis at times “delay or avoid” anaphylaxis “treatment due to fear of injections.” Neffy was approved on the basis of pharmacokinetic studies. In healthy volunteers, neffy achieved similar serum epinephrine levels, rises in blood pressure, and pulse compared with IM epinephrine. 

The Need for Neffy

It was just a few days ago that I saw a new patient with fire ant anaphylaxis. The last time he tried to use an injectable epinephrine pen, he made two mistakes. First, he placed the wrong end against his thigh, and when it did not inject, he depressed it with his thumb — in other words, he injected his thumb with epinephrine. Of course, that cannot happen with neffy. 

I recall a few years ago, a child experienced anaphylaxis but the parent was hesitant to administer the EAI (epinephrine autoinjector). The parent drove to the emergency room but was delayed by traffic, and by the time they reached the ER, the patient had suffered a respiratory arrest and passed away. 

Patients are not the only ones who are hesitant to administer epinephrine. Some clinicians do not treat anaphylaxis appropriately. As an allergist, I see patients after-the-fact for diagnosis and management. Patients often tell me of systemic allergic reactions treated with IV antihistamines/corticosteroids and even sometimes with nebulized beta agonists, but not epinephrine. 

My opinion is that it’s not just needle phobia. As I mentioned, in my Medscape commentary “Injectable Epinephrine: An Epidemic of Misuse,” I believe it’s due to a misunderstanding of the guidelines and a sense that epinephrine is a potent medication to be used sparingly. Clinicians and patients must understand that epinephrine is a naturally occurring hormone and administration leads to serum levels seen under other natural circumstances (eg, stress — the fight-or-flight surge). The aforementioned article also includes a patient handout, “Don’t Fear Epinephrine,” which I encourage you to read and distribute. 

The potential benefits of neffy are clear: 

• It should overcome fear of injection ergo being more likely to be used, and used earlier, by both patient/family member and clinicians.
• It’s easier to carry than many larger devices (though not the AUVI-Q).
• It cannot be injected incorrectly. 
• Expiration is 8 months longer than the EAI.
• There are no pharmacist substitutions (as there is no equivalent device).

Potential Problems With Neffy and Some Suggested Solutions

As promising and beneficial as it is, I wonder about a few training issues. In the office, patients can be trained with a (reusable) injectable epinephrine trainer but not with a nasal spray device trainer in the office (an important alternative is a small model of a nose in the office for patient education). A training device should also be included in the neffy prescription, as with the EAI.
 

Neffy and Patients With Nasal Polyps or Nasal Surgery

It’s more complicated than that neffy cannot be used with patients who have had nasal polyps or nasal surgery. It’s really about how much healthy nasal mucosa is required for absorption. Nasal surgery may be simple or complex. Nasal polyps may be obstructive or resolved with nasal steroid or biologic therapy. Nasal polyps affect 2% of the population, but 35% of pediatric food allergy (FA) patients develop allergic rhinitis (AR), and these AR symptoms present even when not triggered by FA. AR is present at baseline in patients with FA. How does this influence neffy absorption? For FA patients who have anaphylactic reactions with severe nasal reactions, neffy absorption could be further compromised, something that has not been studied. 

Insurance Coverage

As we don’t yet know the comparative efficacy of neffy in anaphylactic episodes, it’s likely that patients, especially with more severe food sensitivities, will be prescribed both the nasal and IM devices. The question remains whether insurance will cover both. 

In “mild cases,” I suspect that doctors might be more inclined to prescribe neffy.
 

Conclusion

Delay in epinephrine use is frequent despite the clear indication during anaphylactic episodes, which in turn increases risk for mortality. Neffy will probably save many lives. 

Dr. Stadtmauer serves on the advisory board of Medscape. He is in private practice in New York City and is affiliated with the Mount Sinai School of Medicine. 

A version of this article first appeared on Medscape.com.

This summer, the US Food and Drug Administration (FDA) fast-tracked approval of the first-in-its-class nasal epinephrine (neffy). It’s a very welcome addition to our anaphylaxis treatment armamentarium. As the FDA announcement notes, patients with anaphylaxis at times “delay or avoid” anaphylaxis “treatment due to fear of injections.” Neffy was approved on the basis of pharmacokinetic studies. In healthy volunteers, neffy achieved similar serum epinephrine levels, rises in blood pressure, and pulse compared with IM epinephrine. 

The Need for Neffy

It was just a few days ago that I saw a new patient with fire ant anaphylaxis. The last time he tried to use an injectable epinephrine pen, he made two mistakes. First, he placed the wrong end against his thigh, and when it did not inject, he depressed it with his thumb — in other words, he injected his thumb with epinephrine. Of course, that cannot happen with neffy. 

I recall a few years ago, a child experienced anaphylaxis but the parent was hesitant to administer the EAI (epinephrine autoinjector). The parent drove to the emergency room but was delayed by traffic, and by the time they reached the ER, the patient had suffered a respiratory arrest and passed away. 

Patients are not the only ones who are hesitant to administer epinephrine. Some clinicians do not treat anaphylaxis appropriately. As an allergist, I see patients after-the-fact for diagnosis and management. Patients often tell me of systemic allergic reactions treated with IV antihistamines/corticosteroids and even sometimes with nebulized beta agonists, but not epinephrine. 

My opinion is that it’s not just needle phobia. As I mentioned, in my Medscape commentary “Injectable Epinephrine: An Epidemic of Misuse,” I believe it’s due to a misunderstanding of the guidelines and a sense that epinephrine is a potent medication to be used sparingly. Clinicians and patients must understand that epinephrine is a naturally occurring hormone and administration leads to serum levels seen under other natural circumstances (eg, stress — the fight-or-flight surge). The aforementioned article also includes a patient handout, “Don’t Fear Epinephrine,” which I encourage you to read and distribute. 

The potential benefits of neffy are clear: 

• It should overcome fear of injection ergo being more likely to be used, and used earlier, by both patient/family member and clinicians.
• It’s easier to carry than many larger devices (though not the AUVI-Q).
• It cannot be injected incorrectly. 
• Expiration is 8 months longer than the EAI.
• There are no pharmacist substitutions (as there is no equivalent device).

Potential Problems With Neffy and Some Suggested Solutions

As promising and beneficial as it is, I wonder about a few training issues. In the office, patients can be trained with a (reusable) injectable epinephrine trainer but not with a nasal spray device trainer in the office (an important alternative is a small model of a nose in the office for patient education). A training device should also be included in the neffy prescription, as with the EAI.
 

Neffy and Patients With Nasal Polyps or Nasal Surgery

It’s more complicated than that neffy cannot be used with patients who have had nasal polyps or nasal surgery. It’s really about how much healthy nasal mucosa is required for absorption. Nasal surgery may be simple or complex. Nasal polyps may be obstructive or resolved with nasal steroid or biologic therapy. Nasal polyps affect 2% of the population, but 35% of pediatric food allergy (FA) patients develop allergic rhinitis (AR), and these AR symptoms present even when not triggered by FA. AR is present at baseline in patients with FA. How does this influence neffy absorption? For FA patients who have anaphylactic reactions with severe nasal reactions, neffy absorption could be further compromised, something that has not been studied. 

Insurance Coverage

As we don’t yet know the comparative efficacy of neffy in anaphylactic episodes, it’s likely that patients, especially with more severe food sensitivities, will be prescribed both the nasal and IM devices. The question remains whether insurance will cover both. 

In “mild cases,” I suspect that doctors might be more inclined to prescribe neffy.
 

Conclusion

Delay in epinephrine use is frequent despite the clear indication during anaphylactic episodes, which in turn increases risk for mortality. Neffy will probably save many lives. 

Dr. Stadtmauer serves on the advisory board of Medscape. He is in private practice in New York City and is affiliated with the Mount Sinai School of Medicine. 

A version of this article first appeared on Medscape.com.

This summer, the US Food and Drug Administration (FDA) fast-tracked approval of the first-in-its-class nasal epinephrine (neffy). It’s a very welcome addition to our anaphylaxis treatment armamentarium. As the FDA announcement notes, patients with anaphylaxis at times “delay or avoid” anaphylaxis “treatment due to fear of injections.” Neffy was approved on the basis of pharmacokinetic studies. In healthy volunteers, neffy achieved similar serum epinephrine levels, rises in blood pressure, and pulse compared with IM epinephrine. 

The Need for Neffy

It was just a few days ago that I saw a new patient with fire ant anaphylaxis. The last time he tried to use an injectable epinephrine pen, he made two mistakes. First, he placed the wrong end against his thigh, and when it did not inject, he depressed it with his thumb — in other words, he injected his thumb with epinephrine. Of course, that cannot happen with neffy. 

I recall a few years ago, a child experienced anaphylaxis but the parent was hesitant to administer the EAI (epinephrine autoinjector). The parent drove to the emergency room but was delayed by traffic, and by the time they reached the ER, the patient had suffered a respiratory arrest and passed away. 

Patients are not the only ones who are hesitant to administer epinephrine. Some clinicians do not treat anaphylaxis appropriately. As an allergist, I see patients after-the-fact for diagnosis and management. Patients often tell me of systemic allergic reactions treated with IV antihistamines/corticosteroids and even sometimes with nebulized beta agonists, but not epinephrine. 

My opinion is that it’s not just needle phobia. As I mentioned, in my Medscape commentary “Injectable Epinephrine: An Epidemic of Misuse,” I believe it’s due to a misunderstanding of the guidelines and a sense that epinephrine is a potent medication to be used sparingly. Clinicians and patients must understand that epinephrine is a naturally occurring hormone and administration leads to serum levels seen under other natural circumstances (eg, stress — the fight-or-flight surge). The aforementioned article also includes a patient handout, “Don’t Fear Epinephrine,” which I encourage you to read and distribute. 

The potential benefits of neffy are clear: 

• It should overcome fear of injection ergo being more likely to be used, and used earlier, by both patient/family member and clinicians.
• It’s easier to carry than many larger devices (though not the AUVI-Q).
• It cannot be injected incorrectly. 
• Expiration is 8 months longer than the EAI.
• There are no pharmacist substitutions (as there is no equivalent device).

Potential Problems With Neffy and Some Suggested Solutions

As promising and beneficial as it is, I wonder about a few training issues. In the office, patients can be trained with a (reusable) injectable epinephrine trainer but not with a nasal spray device trainer in the office (an important alternative is a small model of a nose in the office for patient education). A training device should also be included in the neffy prescription, as with the EAI.
 

Neffy and Patients With Nasal Polyps or Nasal Surgery

It’s more complicated than that neffy cannot be used with patients who have had nasal polyps or nasal surgery. It’s really about how much healthy nasal mucosa is required for absorption. Nasal surgery may be simple or complex. Nasal polyps may be obstructive or resolved with nasal steroid or biologic therapy. Nasal polyps affect 2% of the population, but 35% of pediatric food allergy (FA) patients develop allergic rhinitis (AR), and these AR symptoms present even when not triggered by FA. AR is present at baseline in patients with FA. How does this influence neffy absorption? For FA patients who have anaphylactic reactions with severe nasal reactions, neffy absorption could be further compromised, something that has not been studied. 

Insurance Coverage

As we don’t yet know the comparative efficacy of neffy in anaphylactic episodes, it’s likely that patients, especially with more severe food sensitivities, will be prescribed both the nasal and IM devices. The question remains whether insurance will cover both. 

In “mild cases,” I suspect that doctors might be more inclined to prescribe neffy.
 

Conclusion

Delay in epinephrine use is frequent despite the clear indication during anaphylactic episodes, which in turn increases risk for mortality. Neffy will probably save many lives. 

Dr. Stadtmauer serves on the advisory board of Medscape. He is in private practice in New York City and is affiliated with the Mount Sinai School of Medicine. 

A version of this article first appeared on Medscape.com.

Climate change is intensifying the variability of precipitation caused by extreme daily and overall rainfall events. Awareness of the effects of these events is crucial for understanding the complex health consequences of climate change. The connections between health and climate have been recognized by physicians and patients even when climatology did not have the status of an exact science. Physicians have often advised their patients to move to a better climate, and when they did, the recommendation was rarely based on precise scientific knowledge. However, the benefits of changing environments were often so evident that they were indisputable.

Today, advanced models, satellite imagery, and biological approaches such as environmental epigenetics are enhancing our understanding of health risks related to climate change.
 

Extreme Rainfall and Health

The increase in precipitation variability is linked to climate warming, which leads to higher atmospheric humidity and extreme rainfall events. These manifestations can cause rapid weather changes, increasing interactions with harmful aerosols and raising the risk for various cardiovascular and respiratory conditions. However, a full understanding of the association between rain and health has been hindered by conflicting results and methodological issues (limited geographical locations and short observation durations) in studies.

The association between rainfall intensity and health effects is likely nonlinear. Moderate precipitation can mitigate summer heat and help reduce air pollution, an effect that may lower some environmental health risks. Conversely, intense, low-frequency, short-duration rainfall events can have particularly harmful effects on health, as such events can trigger rapid weather changes, increased proliferation of pathogens, and a rise in the risk of various pollutants, potentially exacerbating health conditions.
 

Rain and Mortality

Using an intensity-duration-frequency model of three rainfall indices (high intensity, low frequency, short duration), a study published in October 2024 combined these with mortality data from 34 countries or regions. Researchers estimated associations between mortality (all cause, cardiovascular, and respiratory) and rainfall events with different return periods (the average time expected before an extreme event of a certain magnitude occurs again) and crucial effect modifiers, including climatic, socioeconomic, and urban environmental conditions.

The analysis included 109,954,744 deaths from all causes; 31,164,161 cardiovascular deaths; and 11,817,278 respiratory deaths. During the study period, from 1980 to 2020, a total of 50,913 rainfall events with a 1-year return period, 8362 events with a 2-year return period, and 3301 events with a 5-year return period were identified.

The most significant finding was a global positive association between all-cause mortality and extreme rainfall events with a 5-year return period. One day of extreme rainfall with a 5-year return period was associated with a cumulative relative risk (RRc) of 1.08 (95% CI, 1.05-1.11) for daily mortality from all causes. Rainfall events with a 2-year return period were associated with increased daily respiratory mortality (RRc, 1.14), while no significant effect was observed for cardiovascular mortality during the same period. Rainfall events with a 5-year return period were associated with an increased risk for both cardiovascular mortality (RRc, 1.05) and respiratory mortality (RRc, 1.29), with the respiratory mortality being significantly higher.
 

Points of Concern

According to the authors, moderate to high rainfall can exert protective effects through two main mechanisms: Improving air quality (rainfall can reduce the concentration of particulate matter 2.5 cm in diameter or less in the atmosphere) and behavioral changes in people (more time spent in enclosed environments, reducing direct exposure to outdoor air pollution and nonoptimal temperatures). As rainfall intensity increases, the initial protective effects may be overshadowed by a cascade of negative impacts including:

• Critical resource disruptions: Intense rainfall can cause severe disruptions to access to healthcare, infrastructure damage including power outages, and compromised water and food quality.
• Physiological effects: Increased humidity levels facilitate the growth of airborne pathogens, potentially triggering allergic reactions and respiratory issues, particularly in vulnerable individuals. Rapid shifts in atmospheric pressure and temperature fluctuations can lead to cardiovascular and respiratory complications.
• Indirect effects: Extreme rainfall can have profound effects on mental health, inducing stress and anxiety that may exacerbate pre-existing mental health conditions and indirectly contribute to increased overall mortality from nonexternal causes.

The intensity-response curves for the health effects of heavy rainfall showed a nonlinear trend, transitioning from a protective effect at moderate levels of rainfall to a risk for severe harm when rainfall intensity became extreme. Additionally, the significant effects of extreme events were modified by various types of climate and were more pronounced in areas characterized by low variability in precipitation or sparse vegetation cover.

The study demonstrated that various local factors, such as climatic conditions, climate type, and vegetation cover, can potentially influence cardiovascular and respiratory mortality and all-cause mortality related to precipitation. The findings may help physicians convey to their patients the impact of climate change on their health.

This story was translated from Univadis Italy using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Climate change is intensifying the variability of precipitation caused by extreme daily and overall rainfall events. Awareness of the effects of these events is crucial for understanding the complex health consequences of climate change. The connections between health and climate have been recognized by physicians and patients even when climatology did not have the status of an exact science. Physicians have often advised their patients to move to a better climate, and when they did, the recommendation was rarely based on precise scientific knowledge. However, the benefits of changing environments were often so evident that they were indisputable.

Today, advanced models, satellite imagery, and biological approaches such as environmental epigenetics are enhancing our understanding of health risks related to climate change.
 

Extreme Rainfall and Health

The increase in precipitation variability is linked to climate warming, which leads to higher atmospheric humidity and extreme rainfall events. These manifestations can cause rapid weather changes, increasing interactions with harmful aerosols and raising the risk for various cardiovascular and respiratory conditions. However, a full understanding of the association between rain and health has been hindered by conflicting results and methodological issues (limited geographical locations and short observation durations) in studies.

The association between rainfall intensity and health effects is likely nonlinear. Moderate precipitation can mitigate summer heat and help reduce air pollution, an effect that may lower some environmental health risks. Conversely, intense, low-frequency, short-duration rainfall events can have particularly harmful effects on health, as such events can trigger rapid weather changes, increased proliferation of pathogens, and a rise in the risk of various pollutants, potentially exacerbating health conditions.
 

Rain and Mortality

Using an intensity-duration-frequency model of three rainfall indices (high intensity, low frequency, short duration), a study published in October 2024 combined these with mortality data from 34 countries or regions. Researchers estimated associations between mortality (all cause, cardiovascular, and respiratory) and rainfall events with different return periods (the average time expected before an extreme event of a certain magnitude occurs again) and crucial effect modifiers, including climatic, socioeconomic, and urban environmental conditions.

The analysis included 109,954,744 deaths from all causes; 31,164,161 cardiovascular deaths; and 11,817,278 respiratory deaths. During the study period, from 1980 to 2020, a total of 50,913 rainfall events with a 1-year return period, 8362 events with a 2-year return period, and 3301 events with a 5-year return period were identified.

The most significant finding was a global positive association between all-cause mortality and extreme rainfall events with a 5-year return period. One day of extreme rainfall with a 5-year return period was associated with a cumulative relative risk (RRc) of 1.08 (95% CI, 1.05-1.11) for daily mortality from all causes. Rainfall events with a 2-year return period were associated with increased daily respiratory mortality (RRc, 1.14), while no significant effect was observed for cardiovascular mortality during the same period. Rainfall events with a 5-year return period were associated with an increased risk for both cardiovascular mortality (RRc, 1.05) and respiratory mortality (RRc, 1.29), with the respiratory mortality being significantly higher.
 

Points of Concern

According to the authors, moderate to high rainfall can exert protective effects through two main mechanisms: Improving air quality (rainfall can reduce the concentration of particulate matter 2.5 cm in diameter or less in the atmosphere) and behavioral changes in people (more time spent in enclosed environments, reducing direct exposure to outdoor air pollution and nonoptimal temperatures). As rainfall intensity increases, the initial protective effects may be overshadowed by a cascade of negative impacts including:

• Critical resource disruptions: Intense rainfall can cause severe disruptions to access to healthcare, infrastructure damage including power outages, and compromised water and food quality.
• Physiological effects: Increased humidity levels facilitate the growth of airborne pathogens, potentially triggering allergic reactions and respiratory issues, particularly in vulnerable individuals. Rapid shifts in atmospheric pressure and temperature fluctuations can lead to cardiovascular and respiratory complications.
• Indirect effects: Extreme rainfall can have profound effects on mental health, inducing stress and anxiety that may exacerbate pre-existing mental health conditions and indirectly contribute to increased overall mortality from nonexternal causes.

The intensity-response curves for the health effects of heavy rainfall showed a nonlinear trend, transitioning from a protective effect at moderate levels of rainfall to a risk for severe harm when rainfall intensity became extreme. Additionally, the significant effects of extreme events were modified by various types of climate and were more pronounced in areas characterized by low variability in precipitation or sparse vegetation cover.

The study demonstrated that various local factors, such as climatic conditions, climate type, and vegetation cover, can potentially influence cardiovascular and respiratory mortality and all-cause mortality related to precipitation. The findings may help physicians convey to their patients the impact of climate change on their health.

This story was translated from Univadis Italy using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Climate change is intensifying the variability of precipitation caused by extreme daily and overall rainfall events. Awareness of the effects of these events is crucial for understanding the complex health consequences of climate change. The connections between health and climate have been recognized by physicians and patients even when climatology did not have the status of an exact science. Physicians have often advised their patients to move to a better climate, and when they did, the recommendation was rarely based on precise scientific knowledge. However, the benefits of changing environments were often so evident that they were indisputable.

Today, advanced models, satellite imagery, and biological approaches such as environmental epigenetics are enhancing our understanding of health risks related to climate change.
 

Extreme Rainfall and Health

The increase in precipitation variability is linked to climate warming, which leads to higher atmospheric humidity and extreme rainfall events. These manifestations can cause rapid weather changes, increasing interactions with harmful aerosols and raising the risk for various cardiovascular and respiratory conditions. However, a full understanding of the association between rain and health has been hindered by conflicting results and methodological issues (limited geographical locations and short observation durations) in studies.

The association between rainfall intensity and health effects is likely nonlinear. Moderate precipitation can mitigate summer heat and help reduce air pollution, an effect that may lower some environmental health risks. Conversely, intense, low-frequency, short-duration rainfall events can have particularly harmful effects on health, as such events can trigger rapid weather changes, increased proliferation of pathogens, and a rise in the risk of various pollutants, potentially exacerbating health conditions.
 

Rain and Mortality

Using an intensity-duration-frequency model of three rainfall indices (high intensity, low frequency, short duration), a study published in October 2024 combined these with mortality data from 34 countries or regions. Researchers estimated associations between mortality (all cause, cardiovascular, and respiratory) and rainfall events with different return periods (the average time expected before an extreme event of a certain magnitude occurs again) and crucial effect modifiers, including climatic, socioeconomic, and urban environmental conditions.

The analysis included 109,954,744 deaths from all causes; 31,164,161 cardiovascular deaths; and 11,817,278 respiratory deaths. During the study period, from 1980 to 2020, a total of 50,913 rainfall events with a 1-year return period, 8362 events with a 2-year return period, and 3301 events with a 5-year return period were identified.

The most significant finding was a global positive association between all-cause mortality and extreme rainfall events with a 5-year return period. One day of extreme rainfall with a 5-year return period was associated with a cumulative relative risk (RRc) of 1.08 (95% CI, 1.05-1.11) for daily mortality from all causes. Rainfall events with a 2-year return period were associated with increased daily respiratory mortality (RRc, 1.14), while no significant effect was observed for cardiovascular mortality during the same period. Rainfall events with a 5-year return period were associated with an increased risk for both cardiovascular mortality (RRc, 1.05) and respiratory mortality (RRc, 1.29), with the respiratory mortality being significantly higher.
 

Points of Concern

According to the authors, moderate to high rainfall can exert protective effects through two main mechanisms: Improving air quality (rainfall can reduce the concentration of particulate matter 2.5 cm in diameter or less in the atmosphere) and behavioral changes in people (more time spent in enclosed environments, reducing direct exposure to outdoor air pollution and nonoptimal temperatures). As rainfall intensity increases, the initial protective effects may be overshadowed by a cascade of negative impacts including:

• Critical resource disruptions: Intense rainfall can cause severe disruptions to access to healthcare, infrastructure damage including power outages, and compromised water and food quality.
• Physiological effects: Increased humidity levels facilitate the growth of airborne pathogens, potentially triggering allergic reactions and respiratory issues, particularly in vulnerable individuals. Rapid shifts in atmospheric pressure and temperature fluctuations can lead to cardiovascular and respiratory complications.
• Indirect effects: Extreme rainfall can have profound effects on mental health, inducing stress and anxiety that may exacerbate pre-existing mental health conditions and indirectly contribute to increased overall mortality from nonexternal causes.

The intensity-response curves for the health effects of heavy rainfall showed a nonlinear trend, transitioning from a protective effect at moderate levels of rainfall to a risk for severe harm when rainfall intensity became extreme. Additionally, the significant effects of extreme events were modified by various types of climate and were more pronounced in areas characterized by low variability in precipitation or sparse vegetation cover.

The study demonstrated that various local factors, such as climatic conditions, climate type, and vegetation cover, can potentially influence cardiovascular and respiratory mortality and all-cause mortality related to precipitation. The findings may help physicians convey to their patients the impact of climate change on their health.

This story was translated from Univadis Italy using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Misinformation and outdated protocols contribute to the suboptimal management of anaphylaxis by patients and healthcare professionals, based on data from two new studies presented at the American College of Allergy, Asthma and Immunology Annual Scientific Meeting.

Anaphylaxis can strike suddenly, and many patients and caregivers at risk do not know which symptoms to treat with epinephrine, said Joni Chow, DO, of Baylor College of Medicine, San Antonio, Texas, in her presentation at the meeting.

“Early identification of anaphylaxis and early intervention with epinephrine are critical for improving patient outcomes,” Chow said in an interview.

“Many allergic reactions occur in community settings, where written action plans serve to instruct patients and caregivers on how to recognize and respond to these emergencies,” she said. “Currently, anaphylaxis action plans are developed based on the consensus of healthcare professionals, with limited information available on the preferences of patients and caregivers,” she noted. However, even with action plans, many patients and families struggle to recognize and manage severe allergic reactions effectively, she added.

In response to this issue, Chow and colleagues created a survey designed to assess the understanding of anaphylaxis recognition and management by patients and caregivers and to identify their preferences regarding the elements included in the action plans.

In the study, Chow and colleagues surveyed 96 patients and caregivers in an allergy clinic waiting room. The majority (95%) of the patients were prescribed epinephrine. Although 73% said they were comfortable identifying signs of anaphylaxis, only 14% said they were likely to use epinephrine as a first-line treatment.

The most common reason given for avoiding epinephrine was uncertainty over which symptoms to treat (40.6%), followed by hesitancy to visit an emergency department (24%), hesitancy to call 911 (17.7%), uncertainty about how to use epinephrine auto-injectors (11.5%), and fear of needles (5.2%).

Although 85% of the respondents understood that antihistamine use does not prevent the need for epinephrine in cases of anaphylactic reactions, 23.7% said they would use an antihistamine as the first treatment in these cases.

For patients with rash and wheezing after a suspected allergen exposure, approximately two thirds (64.5%) of the respondents said they would inject epinephrine and 10.8% would drive to the emergency room before taking any action, Chow said in her presentation.

The relatively low impact of fear of needles was unexpected, as fear of needles is considered a significant deterrent to epinephrine use, Chow told this news organization. “However, our respondents were more inclined to acknowledge a reluctance to escalate to emergency response as the major barrier to treatment,” she said.

The survey also asked patients what features of an anaphylaxis action plan would be most helpful. A majority of respondents (93%) rated a section for the management of mild (non-anaphylactic) allergic reaction symptoms as somewhat or very important. Visual aids for injection of epinephrine and visuals of anaphylaxis symptoms also ranked as somewhat or very important for 87.6% and 81% of respondents, respectively.

The study highlights the importance of educating allergy patients on recognizing and treating anaphylaxis and demonstrates that visuals were preferred in this survey population, Chow said. “Most patients and caregivers from our surveyed population report knowing how to treat anaphylaxis, but many would not use epinephrine as the first treatment,” she noted.

“The study focused on a single community clinic, and it would be beneficial to gather feedback from patients and caregivers representing a wider variety of educational, cultural, social, and socioeconomic backgrounds,” Chow told this news organization. “Additionally, input from other stakeholders, such as school nurses, would enhance knowledge,” she said.
 

Clinical Anaphylaxis Protocols Fall Short

A second study presented at the meeting showed the need to improve anaphylaxis education for clinicians.

Discrepancies in anaphylaxis management include variations in the definition and treatment of the condition, according to Carly Gunderson, DO, of Memorial Healthcare System, Pembroke Pines, Florida, who presented the study at the meeting.

“So often, we see patients in our office with a history of symptoms that meet criteria for anaphylaxis, yet when they call 911 and emergency medical services (EMS) arrive, they never receive epinephrine,” Gunderson said in an interview. “They receive antihistamines, steroids, everything except epinephrine, which is incredibly concerning given that epinephrine is always the first-line treatment for anaphylaxis,” she said.

“Because EMS providers are often the first healthcare professionals to assess patients experiencing anaphylaxis, their ability to recognize and appropriately treat anaphylaxis is essential,” Gunderson emphasized.

Gunderson and colleagues analyzed data from 30 states with mandatory Advanced Cardiac Life Support protocols to identify gaps in recognizing anaphylaxis and areas for improvement in prehospital management.

Only 15 states (50%) included gastrointestinal symptoms in the definition of anaphylaxis, 40% included neurologic manifestations, and 47% used a two-organ system definition, Gunderson noted in her presentation.

All 30 state protocols recommended diphenhydramine and epinephrine for anaphylactic reactions, 90% recommended albuterol if respiratory symptoms were present, 73% recommended intravenous fluids, and 60% recommended steroids. All but one of the state protocols listed epinephrine as the first-line recommendation for anaphylaxis; 25 states allowed epinephrine autoinjectors and 17 provided autoinjectors.

“We were shocked by how many protocols didn’t include gastrointestinal (abdominal pain, vomiting) or neurologic (lethargy, altered mental status) manifestations, when these are common presenting symptoms of anaphylaxis,” Gunderson told this news organization.

“We were also disappointed by how many protocols continue to recommend outdated interventions such as first-generation antihistamines and corticosteroids in the treatment of anaphylaxis,” she said.

Although anaphylaxis management has come a long way, the current study suggests that there is clearly room for improvement in the education of healthcare providers on how to identify and treat anaphylaxis, said Gunderson. “Most people think of anaphylaxis as the typical ‘face swelling up, throat closing’ type of reaction, which it can be, but in reality, there are so many other ways that it can present,” she said. “Healthcare providers must be aware of all of these possible manifestations so that we can treat in a timely manner to improve outcomes,” she added.

Limitations of the study included the focus only on states with mandatory or model EMS protocols, Gunderson told this news organization. As for additional research, the most important next steps are practical ones, namely, identifying ways to realistically implement necessary protocol changes, she said.
 

Real-World Data Support Need for Education

Real-world studies are important to identify current practice and opportunities for improvement, S. Shahzad Mustafa, MD, lead physician in allergy, immunology, and rheumatology at Rochester Regional Health and clinical associate professor of medicine at the University of Rochester School of Medicine and Dentistry, Rochester, New York, said in an interview.

“Management of anaphylaxis continues to evolve, and studies like these can help standardize evidence-based care across different medical settings, such as emergency medical services, urgent care, and emergency departments,” said Mustafa, who was not involved in either study.

The findings of the two studies were not unexpected, Mustafa said. “Heterogeneity in medical care is well recognized in numerous conditions, and anaphylaxis is no different. Patients and healthcare providers continue to have hesitation to use epinephrine and continue to overly rely on antihistamines and/or systemic steroids,” he noted.

For both studies, the takeaway message is that education is paramount to optimize anaphylaxis management, Mustafa told this news organization. “Education needs to focus on timely recognition of anaphylaxis, including atypical features such as gastrointestinal symptoms, and appropriate therapy with epinephrine,” he said.

Looking ahead, “research demonstrating differences in clinical outcomes with differing approaches to anaphylaxis may highlight the importance of early recognition and treatment with epinephrine,” said Mustafa. Management of anaphylaxis also lends itself to quality improvement studies, he added.

Neither of the studies received any outside funding. The researchers had no financial conflicts to disclose. Mustafa had no disclosures related to anaphylaxis but disclosed serving on the speakers’ bureau for Genentech, GSK, AstraZeneca, Regeneron/Sanofi, and CSL Behring and received grants from Takeda.
 

A version of this article first appeared on Medscape.com.

Misinformation and outdated protocols contribute to the suboptimal management of anaphylaxis by patients and healthcare professionals, based on data from two new studies presented at the American College of Allergy, Asthma and Immunology Annual Scientific Meeting.

Anaphylaxis can strike suddenly, and many patients and caregivers at risk do not know which symptoms to treat with epinephrine, said Joni Chow, DO, of Baylor College of Medicine, San Antonio, Texas, in her presentation at the meeting.

“Early identification of anaphylaxis and early intervention with epinephrine are critical for improving patient outcomes,” Chow said in an interview.

“Many allergic reactions occur in community settings, where written action plans serve to instruct patients and caregivers on how to recognize and respond to these emergencies,” she said. “Currently, anaphylaxis action plans are developed based on the consensus of healthcare professionals, with limited information available on the preferences of patients and caregivers,” she noted. However, even with action plans, many patients and families struggle to recognize and manage severe allergic reactions effectively, she added.

In response to this issue, Chow and colleagues created a survey designed to assess the understanding of anaphylaxis recognition and management by patients and caregivers and to identify their preferences regarding the elements included in the action plans.

In the study, Chow and colleagues surveyed 96 patients and caregivers in an allergy clinic waiting room. The majority (95%) of the patients were prescribed epinephrine. Although 73% said they were comfortable identifying signs of anaphylaxis, only 14% said they were likely to use epinephrine as a first-line treatment.

The most common reason given for avoiding epinephrine was uncertainty over which symptoms to treat (40.6%), followed by hesitancy to visit an emergency department (24%), hesitancy to call 911 (17.7%), uncertainty about how to use epinephrine auto-injectors (11.5%), and fear of needles (5.2%).

Although 85% of the respondents understood that antihistamine use does not prevent the need for epinephrine in cases of anaphylactic reactions, 23.7% said they would use an antihistamine as the first treatment in these cases.

For patients with rash and wheezing after a suspected allergen exposure, approximately two thirds (64.5%) of the respondents said they would inject epinephrine and 10.8% would drive to the emergency room before taking any action, Chow said in her presentation.

The relatively low impact of fear of needles was unexpected, as fear of needles is considered a significant deterrent to epinephrine use, Chow told this news organization. “However, our respondents were more inclined to acknowledge a reluctance to escalate to emergency response as the major barrier to treatment,” she said.

The survey also asked patients what features of an anaphylaxis action plan would be most helpful. A majority of respondents (93%) rated a section for the management of mild (non-anaphylactic) allergic reaction symptoms as somewhat or very important. Visual aids for injection of epinephrine and visuals of anaphylaxis symptoms also ranked as somewhat or very important for 87.6% and 81% of respondents, respectively.

The study highlights the importance of educating allergy patients on recognizing and treating anaphylaxis and demonstrates that visuals were preferred in this survey population, Chow said. “Most patients and caregivers from our surveyed population report knowing how to treat anaphylaxis, but many would not use epinephrine as the first treatment,” she noted.

“The study focused on a single community clinic, and it would be beneficial to gather feedback from patients and caregivers representing a wider variety of educational, cultural, social, and socioeconomic backgrounds,” Chow told this news organization. “Additionally, input from other stakeholders, such as school nurses, would enhance knowledge,” she said.
 

Clinical Anaphylaxis Protocols Fall Short

A second study presented at the meeting showed the need to improve anaphylaxis education for clinicians.

Discrepancies in anaphylaxis management include variations in the definition and treatment of the condition, according to Carly Gunderson, DO, of Memorial Healthcare System, Pembroke Pines, Florida, who presented the study at the meeting.

“So often, we see patients in our office with a history of symptoms that meet criteria for anaphylaxis, yet when they call 911 and emergency medical services (EMS) arrive, they never receive epinephrine,” Gunderson said in an interview. “They receive antihistamines, steroids, everything except epinephrine, which is incredibly concerning given that epinephrine is always the first-line treatment for anaphylaxis,” she said.

“Because EMS providers are often the first healthcare professionals to assess patients experiencing anaphylaxis, their ability to recognize and appropriately treat anaphylaxis is essential,” Gunderson emphasized.

Gunderson and colleagues analyzed data from 30 states with mandatory Advanced Cardiac Life Support protocols to identify gaps in recognizing anaphylaxis and areas for improvement in prehospital management.

Only 15 states (50%) included gastrointestinal symptoms in the definition of anaphylaxis, 40% included neurologic manifestations, and 47% used a two-organ system definition, Gunderson noted in her presentation.

All 30 state protocols recommended diphenhydramine and epinephrine for anaphylactic reactions, 90% recommended albuterol if respiratory symptoms were present, 73% recommended intravenous fluids, and 60% recommended steroids. All but one of the state protocols listed epinephrine as the first-line recommendation for anaphylaxis; 25 states allowed epinephrine autoinjectors and 17 provided autoinjectors.

“We were shocked by how many protocols didn’t include gastrointestinal (abdominal pain, vomiting) or neurologic (lethargy, altered mental status) manifestations, when these are common presenting symptoms of anaphylaxis,” Gunderson told this news organization.

“We were also disappointed by how many protocols continue to recommend outdated interventions such as first-generation antihistamines and corticosteroids in the treatment of anaphylaxis,” she said.

Although anaphylaxis management has come a long way, the current study suggests that there is clearly room for improvement in the education of healthcare providers on how to identify and treat anaphylaxis, said Gunderson. “Most people think of anaphylaxis as the typical ‘face swelling up, throat closing’ type of reaction, which it can be, but in reality, there are so many other ways that it can present,” she said. “Healthcare providers must be aware of all of these possible manifestations so that we can treat in a timely manner to improve outcomes,” she added.

Limitations of the study included the focus only on states with mandatory or model EMS protocols, Gunderson told this news organization. As for additional research, the most important next steps are practical ones, namely, identifying ways to realistically implement necessary protocol changes, she said.
 

Real-World Data Support Need for Education

Real-world studies are important to identify current practice and opportunities for improvement, S. Shahzad Mustafa, MD, lead physician in allergy, immunology, and rheumatology at Rochester Regional Health and clinical associate professor of medicine at the University of Rochester School of Medicine and Dentistry, Rochester, New York, said in an interview.

“Management of anaphylaxis continues to evolve, and studies like these can help standardize evidence-based care across different medical settings, such as emergency medical services, urgent care, and emergency departments,” said Mustafa, who was not involved in either study.

The findings of the two studies were not unexpected, Mustafa said. “Heterogeneity in medical care is well recognized in numerous conditions, and anaphylaxis is no different. Patients and healthcare providers continue to have hesitation to use epinephrine and continue to overly rely on antihistamines and/or systemic steroids,” he noted.

For both studies, the takeaway message is that education is paramount to optimize anaphylaxis management, Mustafa told this news organization. “Education needs to focus on timely recognition of anaphylaxis, including atypical features such as gastrointestinal symptoms, and appropriate therapy with epinephrine,” he said.

Looking ahead, “research demonstrating differences in clinical outcomes with differing approaches to anaphylaxis may highlight the importance of early recognition and treatment with epinephrine,” said Mustafa. Management of anaphylaxis also lends itself to quality improvement studies, he added.

Neither of the studies received any outside funding. The researchers had no financial conflicts to disclose. Mustafa had no disclosures related to anaphylaxis but disclosed serving on the speakers’ bureau for Genentech, GSK, AstraZeneca, Regeneron/Sanofi, and CSL Behring and received grants from Takeda.
 

A version of this article first appeared on Medscape.com.

Misinformation and outdated protocols contribute to the suboptimal management of anaphylaxis by patients and healthcare professionals, based on data from two new studies presented at the American College of Allergy, Asthma and Immunology Annual Scientific Meeting.

Anaphylaxis can strike suddenly, and many patients and caregivers at risk do not know which symptoms to treat with epinephrine, said Joni Chow, DO, of Baylor College of Medicine, San Antonio, Texas, in her presentation at the meeting.

“Early identification of anaphylaxis and early intervention with epinephrine are critical for improving patient outcomes,” Chow said in an interview.

“Many allergic reactions occur in community settings, where written action plans serve to instruct patients and caregivers on how to recognize and respond to these emergencies,” she said. “Currently, anaphylaxis action plans are developed based on the consensus of healthcare professionals, with limited information available on the preferences of patients and caregivers,” she noted. However, even with action plans, many patients and families struggle to recognize and manage severe allergic reactions effectively, she added.

In response to this issue, Chow and colleagues created a survey designed to assess the understanding of anaphylaxis recognition and management by patients and caregivers and to identify their preferences regarding the elements included in the action plans.

In the study, Chow and colleagues surveyed 96 patients and caregivers in an allergy clinic waiting room. The majority (95%) of the patients were prescribed epinephrine. Although 73% said they were comfortable identifying signs of anaphylaxis, only 14% said they were likely to use epinephrine as a first-line treatment.

The most common reason given for avoiding epinephrine was uncertainty over which symptoms to treat (40.6%), followed by hesitancy to visit an emergency department (24%), hesitancy to call 911 (17.7%), uncertainty about how to use epinephrine auto-injectors (11.5%), and fear of needles (5.2%).

Although 85% of the respondents understood that antihistamine use does not prevent the need for epinephrine in cases of anaphylactic reactions, 23.7% said they would use an antihistamine as the first treatment in these cases.

For patients with rash and wheezing after a suspected allergen exposure, approximately two thirds (64.5%) of the respondents said they would inject epinephrine and 10.8% would drive to the emergency room before taking any action, Chow said in her presentation.

The relatively low impact of fear of needles was unexpected, as fear of needles is considered a significant deterrent to epinephrine use, Chow told this news organization. “However, our respondents were more inclined to acknowledge a reluctance to escalate to emergency response as the major barrier to treatment,” she said.

The survey also asked patients what features of an anaphylaxis action plan would be most helpful. A majority of respondents (93%) rated a section for the management of mild (non-anaphylactic) allergic reaction symptoms as somewhat or very important. Visual aids for injection of epinephrine and visuals of anaphylaxis symptoms also ranked as somewhat or very important for 87.6% and 81% of respondents, respectively.

The study highlights the importance of educating allergy patients on recognizing and treating anaphylaxis and demonstrates that visuals were preferred in this survey population, Chow said. “Most patients and caregivers from our surveyed population report knowing how to treat anaphylaxis, but many would not use epinephrine as the first treatment,” she noted.

“The study focused on a single community clinic, and it would be beneficial to gather feedback from patients and caregivers representing a wider variety of educational, cultural, social, and socioeconomic backgrounds,” Chow told this news organization. “Additionally, input from other stakeholders, such as school nurses, would enhance knowledge,” she said.
 

Clinical Anaphylaxis Protocols Fall Short

A second study presented at the meeting showed the need to improve anaphylaxis education for clinicians.

Discrepancies in anaphylaxis management include variations in the definition and treatment of the condition, according to Carly Gunderson, DO, of Memorial Healthcare System, Pembroke Pines, Florida, who presented the study at the meeting.

“So often, we see patients in our office with a history of symptoms that meet criteria for anaphylaxis, yet when they call 911 and emergency medical services (EMS) arrive, they never receive epinephrine,” Gunderson said in an interview. “They receive antihistamines, steroids, everything except epinephrine, which is incredibly concerning given that epinephrine is always the first-line treatment for anaphylaxis,” she said.

“Because EMS providers are often the first healthcare professionals to assess patients experiencing anaphylaxis, their ability to recognize and appropriately treat anaphylaxis is essential,” Gunderson emphasized.

Gunderson and colleagues analyzed data from 30 states with mandatory Advanced Cardiac Life Support protocols to identify gaps in recognizing anaphylaxis and areas for improvement in prehospital management.

Only 15 states (50%) included gastrointestinal symptoms in the definition of anaphylaxis, 40% included neurologic manifestations, and 47% used a two-organ system definition, Gunderson noted in her presentation.

All 30 state protocols recommended diphenhydramine and epinephrine for anaphylactic reactions, 90% recommended albuterol if respiratory symptoms were present, 73% recommended intravenous fluids, and 60% recommended steroids. All but one of the state protocols listed epinephrine as the first-line recommendation for anaphylaxis; 25 states allowed epinephrine autoinjectors and 17 provided autoinjectors.

“We were shocked by how many protocols didn’t include gastrointestinal (abdominal pain, vomiting) or neurologic (lethargy, altered mental status) manifestations, when these are common presenting symptoms of anaphylaxis,” Gunderson told this news organization.

“We were also disappointed by how many protocols continue to recommend outdated interventions such as first-generation antihistamines and corticosteroids in the treatment of anaphylaxis,” she said.

Although anaphylaxis management has come a long way, the current study suggests that there is clearly room for improvement in the education of healthcare providers on how to identify and treat anaphylaxis, said Gunderson. “Most people think of anaphylaxis as the typical ‘face swelling up, throat closing’ type of reaction, which it can be, but in reality, there are so many other ways that it can present,” she said. “Healthcare providers must be aware of all of these possible manifestations so that we can treat in a timely manner to improve outcomes,” she added.

Limitations of the study included the focus only on states with mandatory or model EMS protocols, Gunderson told this news organization. As for additional research, the most important next steps are practical ones, namely, identifying ways to realistically implement necessary protocol changes, she said.
 

Real-World Data Support Need for Education

Real-world studies are important to identify current practice and opportunities for improvement, S. Shahzad Mustafa, MD, lead physician in allergy, immunology, and rheumatology at Rochester Regional Health and clinical associate professor of medicine at the University of Rochester School of Medicine and Dentistry, Rochester, New York, said in an interview.

“Management of anaphylaxis continues to evolve, and studies like these can help standardize evidence-based care across different medical settings, such as emergency medical services, urgent care, and emergency departments,” said Mustafa, who was not involved in either study.

The findings of the two studies were not unexpected, Mustafa said. “Heterogeneity in medical care is well recognized in numerous conditions, and anaphylaxis is no different. Patients and healthcare providers continue to have hesitation to use epinephrine and continue to overly rely on antihistamines and/or systemic steroids,” he noted.

For both studies, the takeaway message is that education is paramount to optimize anaphylaxis management, Mustafa told this news organization. “Education needs to focus on timely recognition of anaphylaxis, including atypical features such as gastrointestinal symptoms, and appropriate therapy with epinephrine,” he said.

Looking ahead, “research demonstrating differences in clinical outcomes with differing approaches to anaphylaxis may highlight the importance of early recognition and treatment with epinephrine,” said Mustafa. Management of anaphylaxis also lends itself to quality improvement studies, he added.

Neither of the studies received any outside funding. The researchers had no financial conflicts to disclose. Mustafa had no disclosures related to anaphylaxis but disclosed serving on the speakers’ bureau for Genentech, GSK, AstraZeneca, Regeneron/Sanofi, and CSL Behring and received grants from Takeda.
 

A version of this article first appeared on Medscape.com.

BOSTON — Social adversity is associated with worse survival among patients with pulmonary hypertension (PH), according to a new retrospective study of a New York City population. Among HIV+ patients with heart failure, PH was associated with about a threefold increase in all-cause mortality, but that risk increased to about sevenfold when social adversity, identified by a licensed social worker, was also present.

A sub-analysis of both HIV+ and HIV– patients showed worse mortality outcomes with social adversity in both groups.

“Almost the majority of patients that we treat have either some social adversity or no insurance or are undocumented, so as a group of residents, we decided to study the impact of these factors on their health and the care that can be provided. We started using the two cohorts and now we keep it going with every new resident,” said Luca Biavati, MD, who presented the study at the CHEST Annual Meeting.

“The presence of any form of socioeconomic disadvantage is negatively impacting care and for a large part of the population, there are some factors that could probably be addressed by either an institutional or hospital policy,” said Dr. Biavati, who is an internal medicine resident at Jacobi Medical Center, New York.

Other factors are more difficult to address, such as lack of education. “[Some patients] don’t understand the gravity of their issue and medical condition until it’s too late, and then they’re not fit enough for the treatment, or just because of the social situation, they cannot qualify for advanced therapies,” said Dr. Biavati.

The researchers established two cohorts: One consisting of patients with HIV and heart failure who may or may not have had PH and one comprising patients with PH with or without HIV and heart failure. In the HIV/heart failure group, PH without social adversity was associated with a nearly threefold increase in all-cause mortality (hazard ratio [HR], 2.83; P = .004), whereas PH with social adversity was linked to a more than sevenfold increase in all-cause mortality (HR, 7.14; P < .001). Social adversity without PA was associated with a more than fourfold increase (HR, 4.47; P < .001).

Within the PH cohort, social adversity was associated with lower survival (P < .001). When the researchers broke down the results by types of social adversity, they found statistically significant relationships between greater mortality risk and economic instability within the HIV+ population (HR, 2.59; P = .040), transportation issues within the HIV– population (HR, 12.8; P < .001), and lack of social or family support within both the HIV– (HR, 5.49; P < .001) and the HIV+ population (HR, 2.03; P = .028). 

The research has prompted interventions, which are now being studied at the institution, according to Dr. Biavati. “We have a policy of giving medications in bags when we discharge a patient with a social adversity. We literally go to the pharmacy, bring up the bag of medication, and we [put it] in their hands before they leave the hospital. They get a 1- or 3-month supply, depending on the medication, and then we usually discharge them with a clinical appointment already scheduled with either a pulmonary or primary care provider, and we usually call them before every appointment to confirm that they’re coming. That increases the chances of some success, but there’s still a very long way to go,” said Dr. Biavati.

Dr. Biavati was blinded to the results of the intervention, so he could not report on whether it was working. “But I can tell you that I’ve had busier clinics, so hopefully that means that they’re showing up more,” he said.

The problem is complex, according to Sandeep Jain, MD, who moderated the session. “Social adversity means lack of education. Lack of education means lack of compliance. Lack of compliance means what can you do if people are not taking medications? So it’s all matched together. It’s all lack of education and lack of money, lack of family support. And these drugs they have to take every single day. It’s not that easy. It’s very easy for us to say I had antiretroviral treatment for 6 months. It is almost impossible to continue regular treatment for that long [for a patient with social adversity]. You can’t blame them if they aren’t taking treatments. It’s very difficult for them,” said Dr. Jain.

That underscores the need for interventions that can address the needs of patients with social adversity. “We have to [practice] medicine considering the social situation of the patient and not just the medicine that we study in books. That’s kind of what we are faced with every day. We have therapies, and then life happens. It’s much harder to care for those patients,” said Dr. Biavati.

Dr. Biavati and Dr. Jain reported no relevant financial relationships.
 

A version of this article first appeared on Medscape.com.

BOSTON — Social adversity is associated with worse survival among patients with pulmonary hypertension (PH), according to a new retrospective study of a New York City population. Among HIV+ patients with heart failure, PH was associated with about a threefold increase in all-cause mortality, but that risk increased to about sevenfold when social adversity, identified by a licensed social worker, was also present.

A sub-analysis of both HIV+ and HIV– patients showed worse mortality outcomes with social adversity in both groups.

“Almost the majority of patients that we treat have either some social adversity or no insurance or are undocumented, so as a group of residents, we decided to study the impact of these factors on their health and the care that can be provided. We started using the two cohorts and now we keep it going with every new resident,” said Luca Biavati, MD, who presented the study at the CHEST Annual Meeting.

“The presence of any form of socioeconomic disadvantage is negatively impacting care and for a large part of the population, there are some factors that could probably be addressed by either an institutional or hospital policy,” said Dr. Biavati, who is an internal medicine resident at Jacobi Medical Center, New York.

Other factors are more difficult to address, such as lack of education. “[Some patients] don’t understand the gravity of their issue and medical condition until it’s too late, and then they’re not fit enough for the treatment, or just because of the social situation, they cannot qualify for advanced therapies,” said Dr. Biavati.

The researchers established two cohorts: One consisting of patients with HIV and heart failure who may or may not have had PH and one comprising patients with PH with or without HIV and heart failure. In the HIV/heart failure group, PH without social adversity was associated with a nearly threefold increase in all-cause mortality (hazard ratio [HR], 2.83; P = .004), whereas PH with social adversity was linked to a more than sevenfold increase in all-cause mortality (HR, 7.14; P < .001). Social adversity without PA was associated with a more than fourfold increase (HR, 4.47; P < .001).

Within the PH cohort, social adversity was associated with lower survival (P < .001). When the researchers broke down the results by types of social adversity, they found statistically significant relationships between greater mortality risk and economic instability within the HIV+ population (HR, 2.59; P = .040), transportation issues within the HIV– population (HR, 12.8; P < .001), and lack of social or family support within both the HIV– (HR, 5.49; P < .001) and the HIV+ population (HR, 2.03; P = .028). 

The research has prompted interventions, which are now being studied at the institution, according to Dr. Biavati. “We have a policy of giving medications in bags when we discharge a patient with a social adversity. We literally go to the pharmacy, bring up the bag of medication, and we [put it] in their hands before they leave the hospital. They get a 1- or 3-month supply, depending on the medication, and then we usually discharge them with a clinical appointment already scheduled with either a pulmonary or primary care provider, and we usually call them before every appointment to confirm that they’re coming. That increases the chances of some success, but there’s still a very long way to go,” said Dr. Biavati.

Dr. Biavati was blinded to the results of the intervention, so he could not report on whether it was working. “But I can tell you that I’ve had busier clinics, so hopefully that means that they’re showing up more,” he said.

The problem is complex, according to Sandeep Jain, MD, who moderated the session. “Social adversity means lack of education. Lack of education means lack of compliance. Lack of compliance means what can you do if people are not taking medications? So it’s all matched together. It’s all lack of education and lack of money, lack of family support. And these drugs they have to take every single day. It’s not that easy. It’s very easy for us to say I had antiretroviral treatment for 6 months. It is almost impossible to continue regular treatment for that long [for a patient with social adversity]. You can’t blame them if they aren’t taking treatments. It’s very difficult for them,” said Dr. Jain.

That underscores the need for interventions that can address the needs of patients with social adversity. “We have to [practice] medicine considering the social situation of the patient and not just the medicine that we study in books. That’s kind of what we are faced with every day. We have therapies, and then life happens. It’s much harder to care for those patients,” said Dr. Biavati.

Dr. Biavati and Dr. Jain reported no relevant financial relationships.
 

A version of this article first appeared on Medscape.com.

BOSTON — Social adversity is associated with worse survival among patients with pulmonary hypertension (PH), according to a new retrospective study of a New York City population. Among HIV+ patients with heart failure, PH was associated with about a threefold increase in all-cause mortality, but that risk increased to about sevenfold when social adversity, identified by a licensed social worker, was also present.

A sub-analysis of both HIV+ and HIV– patients showed worse mortality outcomes with social adversity in both groups.

“Almost the majority of patients that we treat have either some social adversity or no insurance or are undocumented, so as a group of residents, we decided to study the impact of these factors on their health and the care that can be provided. We started using the two cohorts and now we keep it going with every new resident,” said Luca Biavati, MD, who presented the study at the CHEST Annual Meeting.

“The presence of any form of socioeconomic disadvantage is negatively impacting care and for a large part of the population, there are some factors that could probably be addressed by either an institutional or hospital policy,” said Dr. Biavati, who is an internal medicine resident at Jacobi Medical Center, New York.

Other factors are more difficult to address, such as lack of education. “[Some patients] don’t understand the gravity of their issue and medical condition until it’s too late, and then they’re not fit enough for the treatment, or just because of the social situation, they cannot qualify for advanced therapies,” said Dr. Biavati.

The researchers established two cohorts: One consisting of patients with HIV and heart failure who may or may not have had PH and one comprising patients with PH with or without HIV and heart failure. In the HIV/heart failure group, PH without social adversity was associated with a nearly threefold increase in all-cause mortality (hazard ratio [HR], 2.83; P = .004), whereas PH with social adversity was linked to a more than sevenfold increase in all-cause mortality (HR, 7.14; P < .001). Social adversity without PA was associated with a more than fourfold increase (HR, 4.47; P < .001).

Within the PH cohort, social adversity was associated with lower survival (P < .001). When the researchers broke down the results by types of social adversity, they found statistically significant relationships between greater mortality risk and economic instability within the HIV+ population (HR, 2.59; P = .040), transportation issues within the HIV– population (HR, 12.8; P < .001), and lack of social or family support within both the HIV– (HR, 5.49; P < .001) and the HIV+ population (HR, 2.03; P = .028). 

The research has prompted interventions, which are now being studied at the institution, according to Dr. Biavati. “We have a policy of giving medications in bags when we discharge a patient with a social adversity. We literally go to the pharmacy, bring up the bag of medication, and we [put it] in their hands before they leave the hospital. They get a 1- or 3-month supply, depending on the medication, and then we usually discharge them with a clinical appointment already scheduled with either a pulmonary or primary care provider, and we usually call them before every appointment to confirm that they’re coming. That increases the chances of some success, but there’s still a very long way to go,” said Dr. Biavati.

Dr. Biavati was blinded to the results of the intervention, so he could not report on whether it was working. “But I can tell you that I’ve had busier clinics, so hopefully that means that they’re showing up more,” he said.

The problem is complex, according to Sandeep Jain, MD, who moderated the session. “Social adversity means lack of education. Lack of education means lack of compliance. Lack of compliance means what can you do if people are not taking medications? So it’s all matched together. It’s all lack of education and lack of money, lack of family support. And these drugs they have to take every single day. It’s not that easy. It’s very easy for us to say I had antiretroviral treatment for 6 months. It is almost impossible to continue regular treatment for that long [for a patient with social adversity]. You can’t blame them if they aren’t taking treatments. It’s very difficult for them,” said Dr. Jain.

That underscores the need for interventions that can address the needs of patients with social adversity. “We have to [practice] medicine considering the social situation of the patient and not just the medicine that we study in books. That’s kind of what we are faced with every day. We have therapies, and then life happens. It’s much harder to care for those patients,” said Dr. Biavati.

Dr. Biavati and Dr. Jain reported no relevant financial relationships.
 

A version of this article first appeared on Medscape.com.

BOSTON — Patients with COPD are at an increased risk for fatal pulmonary embolism (PE) and may require personalized, targeted thromboprophylaxis. Those are the conclusions of investigators who analyzed public health data and found that patients with COPD have a markedly increased risk for PE-related death, particularly among those aged 65-85 years.

The data suggest that “maybe we should start thinking about if we are admitting a patient with COPD in that specific age group, higher thromboprophylaxis for PE,” said Marwa Oudah, MD, a pulmonary hypertension fellow at the University of Pennsylvania, Philadelphia. She presented her group’s findings in a rapid-fire oral abstract session at the CHEST Annual Meeting.
 

Known Risk Factor

COPD is a known risk factor for PE. To estimate how the obstructive lung disease may contribute to PE-related deaths among patients of varying ages, Oudah and colleagues drew data on deaths due to an underlying cause of PE from 1999 to 2020 from the Centers for Disease Control and Prevention’s WONDER database.

They stratified the patients into two groups — those with or without COPD — whose data were included in the Multiple Causes of Death dataset, according to age groups ranging from 35 years to over 100 years. The investigators calculated proportional mortality ratios in the non-COPD group and applied these to the COPD-positive group among different age ranges to estimate the observed vs expected number of deaths.

A total of 10,434 persons who died from PE and had COPD listed among causes of death were identified. The sample was evenly divided by sex. The peak range of deaths was among those aged 75-84 years.

The authors saw an increase in PE-related mortality among patients with COPD aged 65-85 years (P < .001).

The ratios of observed-to-expected deaths among patients in this age range were “substantially greater than 1” said Oudah, with patients aged 75-79 years at highest risk for PE-related death, with an observed-to-expected ratio of 1.443.

In contrast, the rate of observed deaths among patients aged 85-89 years was similar to the expected rate, suggesting that the COPD-PE interaction may wane among older patients, she said.

Among patients aged 35-64 years, the risk for death from PE was not significantly higher for any of the 5-year age categories.

The investigators emphasized that “given the observed trend, individualized patient assessments are imperative to optimize preventable measures against PE in the aging COPD population.”
 

Confounding Comorbidities

In an interview, a pulmonary specialist who was not involved in the study commented that older persons with COPD tend to have multiple comorbidities that may contribute to the risk for PE.

“Older patients have so many comorbidities, and their risk for pulmonary embolism and thromboembolic disease is pretty high, so I’m not surprised that 75 to 79 years olds are having a higher mortality from PE, but it’s a little difficult to say whether that’s due to COPD,” said Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, who moderated the session.

The authors did not report a study funding source. Oudah and Sundar reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

BOSTON — Patients with COPD are at an increased risk for fatal pulmonary embolism (PE) and may require personalized, targeted thromboprophylaxis. Those are the conclusions of investigators who analyzed public health data and found that patients with COPD have a markedly increased risk for PE-related death, particularly among those aged 65-85 years.

The data suggest that “maybe we should start thinking about if we are admitting a patient with COPD in that specific age group, higher thromboprophylaxis for PE,” said Marwa Oudah, MD, a pulmonary hypertension fellow at the University of Pennsylvania, Philadelphia. She presented her group’s findings in a rapid-fire oral abstract session at the CHEST Annual Meeting.
 

Known Risk Factor

COPD is a known risk factor for PE. To estimate how the obstructive lung disease may contribute to PE-related deaths among patients of varying ages, Oudah and colleagues drew data on deaths due to an underlying cause of PE from 1999 to 2020 from the Centers for Disease Control and Prevention’s WONDER database.

They stratified the patients into two groups — those with or without COPD — whose data were included in the Multiple Causes of Death dataset, according to age groups ranging from 35 years to over 100 years. The investigators calculated proportional mortality ratios in the non-COPD group and applied these to the COPD-positive group among different age ranges to estimate the observed vs expected number of deaths.

A total of 10,434 persons who died from PE and had COPD listed among causes of death were identified. The sample was evenly divided by sex. The peak range of deaths was among those aged 75-84 years.

The authors saw an increase in PE-related mortality among patients with COPD aged 65-85 years (P < .001).

The ratios of observed-to-expected deaths among patients in this age range were “substantially greater than 1” said Oudah, with patients aged 75-79 years at highest risk for PE-related death, with an observed-to-expected ratio of 1.443.

In contrast, the rate of observed deaths among patients aged 85-89 years was similar to the expected rate, suggesting that the COPD-PE interaction may wane among older patients, she said.

Among patients aged 35-64 years, the risk for death from PE was not significantly higher for any of the 5-year age categories.

The investigators emphasized that “given the observed trend, individualized patient assessments are imperative to optimize preventable measures against PE in the aging COPD population.”
 

Confounding Comorbidities

In an interview, a pulmonary specialist who was not involved in the study commented that older persons with COPD tend to have multiple comorbidities that may contribute to the risk for PE.

“Older patients have so many comorbidities, and their risk for pulmonary embolism and thromboembolic disease is pretty high, so I’m not surprised that 75 to 79 years olds are having a higher mortality from PE, but it’s a little difficult to say whether that’s due to COPD,” said Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, who moderated the session.

The authors did not report a study funding source. Oudah and Sundar reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

BOSTON — Patients with COPD are at an increased risk for fatal pulmonary embolism (PE) and may require personalized, targeted thromboprophylaxis. Those are the conclusions of investigators who analyzed public health data and found that patients with COPD have a markedly increased risk for PE-related death, particularly among those aged 65-85 years.

The data suggest that “maybe we should start thinking about if we are admitting a patient with COPD in that specific age group, higher thromboprophylaxis for PE,” said Marwa Oudah, MD, a pulmonary hypertension fellow at the University of Pennsylvania, Philadelphia. She presented her group’s findings in a rapid-fire oral abstract session at the CHEST Annual Meeting.
 

Known Risk Factor

COPD is a known risk factor for PE. To estimate how the obstructive lung disease may contribute to PE-related deaths among patients of varying ages, Oudah and colleagues drew data on deaths due to an underlying cause of PE from 1999 to 2020 from the Centers for Disease Control and Prevention’s WONDER database.

They stratified the patients into two groups — those with or without COPD — whose data were included in the Multiple Causes of Death dataset, according to age groups ranging from 35 years to over 100 years. The investigators calculated proportional mortality ratios in the non-COPD group and applied these to the COPD-positive group among different age ranges to estimate the observed vs expected number of deaths.

A total of 10,434 persons who died from PE and had COPD listed among causes of death were identified. The sample was evenly divided by sex. The peak range of deaths was among those aged 75-84 years.

The authors saw an increase in PE-related mortality among patients with COPD aged 65-85 years (P < .001).

The ratios of observed-to-expected deaths among patients in this age range were “substantially greater than 1” said Oudah, with patients aged 75-79 years at highest risk for PE-related death, with an observed-to-expected ratio of 1.443.

In contrast, the rate of observed deaths among patients aged 85-89 years was similar to the expected rate, suggesting that the COPD-PE interaction may wane among older patients, she said.

Among patients aged 35-64 years, the risk for death from PE was not significantly higher for any of the 5-year age categories.

The investigators emphasized that “given the observed trend, individualized patient assessments are imperative to optimize preventable measures against PE in the aging COPD population.”
 

Confounding Comorbidities

In an interview, a pulmonary specialist who was not involved in the study commented that older persons with COPD tend to have multiple comorbidities that may contribute to the risk for PE.

“Older patients have so many comorbidities, and their risk for pulmonary embolism and thromboembolic disease is pretty high, so I’m not surprised that 75 to 79 years olds are having a higher mortality from PE, but it’s a little difficult to say whether that’s due to COPD,” said Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, who moderated the session.

The authors did not report a study funding source. Oudah and Sundar reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

BOSTON — Patients with COPD who have exacerbations requiring hospitalization should be monitored for cardiac arrhythmias, investigators said.

This recommendation is based on results of a study of medical records showing that among more than 20,000 hospitalizations for patients with COPD without concurrent heart failure (HF), 40% patients had at least 6 minutes of daily atrial fibrillation (AF) burden, and nearly half of these patients had at least an hour of daily AF burden; patients with COPD and concurrent HF had similar daily AF burdens, reported Trent Fischer, MD, MS, senior principal scientist at Medtronic in Minneapolis.

“We can conclude that AF burden increases in the weeks after a hospitalization for COPD if they don’t have a concurrent diagnosis of heart failure. Also, having concurrent heart failure increases the risk of atrial fibrillation and increases the atrial fibrillation burden around the time of COPD hospitalization,” he said in a rapid-fire oral abstract session at the CHEST Annual Meeting.

The findings indicated a need for increased vigilance for AF around the time of a serious COPD exacerbation and may explain at least some of the increased risks for stroke observed in patients who are hospitalized for COPD exacerbations, he said.
 

Retrospective Study

Dr. Fischer and colleagues conducted the study to characterize the AF burden among patients both with and without HF who were hospitalized for acute COPD exacerbation and to determine the temporal relationship between AF and hospitalization.

They drew data from 2007 through 2021 on patients with implantable cardioverter defibrillators, cardiac resynchronization therapy devices, pacemakers, and implantable cardiac monitors, using the Optum de-identified electronic health record dataset linked with Medtronic’s CareLink database to conduct a retrospective analysis.

They looked at admissions for COPD linked to available device diagnostic parameters between 30 days prior to and 60 days after admission for COPD.

They identified a total of 20,056 COPD hospitalizations for patients with concurrent HF and 3877 for those without HF.

Among patients with HF, 43% had a daily AF burden of at least 6 minutes, and 22% had at least 1 hour of irregular rhythms. Among patients without HF, 40% had at least 6 minutes of irregular rhythms daily, and 18% had at least 1 hour.

Among patients with HF, the daily average AF burden increased from a baseline of 158 min/d 30 days before an admission to 170 min/d at admission, returning to baseline by 20 days after hospitalization.

For patients without HF, the AF burden increased from 107 min/d at baseline to 113 min/d during hospitalization and returned to baseline by 20 days after hospitalization.
 

Confounding Factor?

In the Q&A, session moderator Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, said that when patients with HF get admitted for COPD exacerbations, their HF typically worsens and asked Dr. Fischer how he could tell the difference.

“I know there’s a lot of interaction between heart failure and COPD. They’re well-know comorbidities, and the exacerbation of one can bring on worsening of the other. At least with this database, we can’t really tease out any sort of differences,” Dr. Fischer replied.

“I think that a diagnosis of COPD exacerbation is pretty well laid out, but it’s sometimes difficult to separate worsening of heart failure in these patients, and often these patients get treated for both problems. It’s clear that it’s the heart failure patients who are having more atrial fibrillation episodes, which is not surprising, but the question is how much is the COPD exacerbation contributing to the atrial fibrillation?” said Dr. Sundar.

The study was supported by Medtronic. Dr. Fischer is employed by the company. Dr. Sundar reported no relevant financial relationships.



A version of this article appeared on Medscape.com.

BOSTON — Patients with COPD who have exacerbations requiring hospitalization should be monitored for cardiac arrhythmias, investigators said.

This recommendation is based on results of a study of medical records showing that among more than 20,000 hospitalizations for patients with COPD without concurrent heart failure (HF), 40% patients had at least 6 minutes of daily atrial fibrillation (AF) burden, and nearly half of these patients had at least an hour of daily AF burden; patients with COPD and concurrent HF had similar daily AF burdens, reported Trent Fischer, MD, MS, senior principal scientist at Medtronic in Minneapolis.

“We can conclude that AF burden increases in the weeks after a hospitalization for COPD if they don’t have a concurrent diagnosis of heart failure. Also, having concurrent heart failure increases the risk of atrial fibrillation and increases the atrial fibrillation burden around the time of COPD hospitalization,” he said in a rapid-fire oral abstract session at the CHEST Annual Meeting.

The findings indicated a need for increased vigilance for AF around the time of a serious COPD exacerbation and may explain at least some of the increased risks for stroke observed in patients who are hospitalized for COPD exacerbations, he said.
 

Retrospective Study

Dr. Fischer and colleagues conducted the study to characterize the AF burden among patients both with and without HF who were hospitalized for acute COPD exacerbation and to determine the temporal relationship between AF and hospitalization.

They drew data from 2007 through 2021 on patients with implantable cardioverter defibrillators, cardiac resynchronization therapy devices, pacemakers, and implantable cardiac monitors, using the Optum de-identified electronic health record dataset linked with Medtronic’s CareLink database to conduct a retrospective analysis.

They looked at admissions for COPD linked to available device diagnostic parameters between 30 days prior to and 60 days after admission for COPD.

They identified a total of 20,056 COPD hospitalizations for patients with concurrent HF and 3877 for those without HF.

Among patients with HF, 43% had a daily AF burden of at least 6 minutes, and 22% had at least 1 hour of irregular rhythms. Among patients without HF, 40% had at least 6 minutes of irregular rhythms daily, and 18% had at least 1 hour.

Among patients with HF, the daily average AF burden increased from a baseline of 158 min/d 30 days before an admission to 170 min/d at admission, returning to baseline by 20 days after hospitalization.

For patients without HF, the AF burden increased from 107 min/d at baseline to 113 min/d during hospitalization and returned to baseline by 20 days after hospitalization.
 

Confounding Factor?

In the Q&A, session moderator Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, said that when patients with HF get admitted for COPD exacerbations, their HF typically worsens and asked Dr. Fischer how he could tell the difference.

“I know there’s a lot of interaction between heart failure and COPD. They’re well-know comorbidities, and the exacerbation of one can bring on worsening of the other. At least with this database, we can’t really tease out any sort of differences,” Dr. Fischer replied.

“I think that a diagnosis of COPD exacerbation is pretty well laid out, but it’s sometimes difficult to separate worsening of heart failure in these patients, and often these patients get treated for both problems. It’s clear that it’s the heart failure patients who are having more atrial fibrillation episodes, which is not surprising, but the question is how much is the COPD exacerbation contributing to the atrial fibrillation?” said Dr. Sundar.

The study was supported by Medtronic. Dr. Fischer is employed by the company. Dr. Sundar reported no relevant financial relationships.



A version of this article appeared on Medscape.com.

BOSTON — Patients with COPD who have exacerbations requiring hospitalization should be monitored for cardiac arrhythmias, investigators said.

This recommendation is based on results of a study of medical records showing that among more than 20,000 hospitalizations for patients with COPD without concurrent heart failure (HF), 40% patients had at least 6 minutes of daily atrial fibrillation (AF) burden, and nearly half of these patients had at least an hour of daily AF burden; patients with COPD and concurrent HF had similar daily AF burdens, reported Trent Fischer, MD, MS, senior principal scientist at Medtronic in Minneapolis.

“We can conclude that AF burden increases in the weeks after a hospitalization for COPD if they don’t have a concurrent diagnosis of heart failure. Also, having concurrent heart failure increases the risk of atrial fibrillation and increases the atrial fibrillation burden around the time of COPD hospitalization,” he said in a rapid-fire oral abstract session at the CHEST Annual Meeting.

The findings indicated a need for increased vigilance for AF around the time of a serious COPD exacerbation and may explain at least some of the increased risks for stroke observed in patients who are hospitalized for COPD exacerbations, he said.
 

Retrospective Study

Dr. Fischer and colleagues conducted the study to characterize the AF burden among patients both with and without HF who were hospitalized for acute COPD exacerbation and to determine the temporal relationship between AF and hospitalization.

They drew data from 2007 through 2021 on patients with implantable cardioverter defibrillators, cardiac resynchronization therapy devices, pacemakers, and implantable cardiac monitors, using the Optum de-identified electronic health record dataset linked with Medtronic’s CareLink database to conduct a retrospective analysis.

They looked at admissions for COPD linked to available device diagnostic parameters between 30 days prior to and 60 days after admission for COPD.

They identified a total of 20,056 COPD hospitalizations for patients with concurrent HF and 3877 for those without HF.

Among patients with HF, 43% had a daily AF burden of at least 6 minutes, and 22% had at least 1 hour of irregular rhythms. Among patients without HF, 40% had at least 6 minutes of irregular rhythms daily, and 18% had at least 1 hour.

Among patients with HF, the daily average AF burden increased from a baseline of 158 min/d 30 days before an admission to 170 min/d at admission, returning to baseline by 20 days after hospitalization.

For patients without HF, the AF burden increased from 107 min/d at baseline to 113 min/d during hospitalization and returned to baseline by 20 days after hospitalization.
 

Confounding Factor?

In the Q&A, session moderator Krishna Sundar, MBBS, MD, FCCP, a pulmonary, sleep medicine, and critical care medicine specialist at St. John’s Medical Center in Jackson, Wyoming, said that when patients with HF get admitted for COPD exacerbations, their HF typically worsens and asked Dr. Fischer how he could tell the difference.

“I know there’s a lot of interaction between heart failure and COPD. They’re well-know comorbidities, and the exacerbation of one can bring on worsening of the other. At least with this database, we can’t really tease out any sort of differences,” Dr. Fischer replied.

“I think that a diagnosis of COPD exacerbation is pretty well laid out, but it’s sometimes difficult to separate worsening of heart failure in these patients, and often these patients get treated for both problems. It’s clear that it’s the heart failure patients who are having more atrial fibrillation episodes, which is not surprising, but the question is how much is the COPD exacerbation contributing to the atrial fibrillation?” said Dr. Sundar.

The study was supported by Medtronic. Dr. Fischer is employed by the company. Dr. Sundar reported no relevant financial relationships.



A version of this article appeared on Medscape.com.

If standard therapies don’t give relief to patients with refractory cough associated with interstitial lung disease, maybe a little poison could do the trick.

Among 41 patients with idiopathic interstitial pneumonia with autoimmune features (IPAFs) who had intractable cough, treatment with the traditional Chinese medicine semen strychni was associated with a significant improvement in patient-reported outcomes, reported Mingwan Su, MD, from Guang’anmen Hospital and the China Academy of Chinese Medical Sciences in Beijing, China.

“Semen strychni is associated with reduction in cough and can be an effective drug therapy for refractory cough in association with IPAFs,” she said in an oral abstract session at the American College of Chest Physicians (CHEST) 2024 Annual Meeting.

Semen strychni is derived from the dried seeds of the plant Strychnos nux-vomica L. Its main toxic component is strychnine, the poison said to be favored by legendary mystery writer Agatha Christie.

Semen strychni is a central nervous system agonist that has reported efficacy in the treatment of musculoskeletal and autoimmune conditions, including rheumatoid arthritis, myasthenia gravis, and amyotrophic lateral sclerosis.

The medication also has immunomodulatory properties, Su said, and is thought to have beneficial effects against cough associated with IPAFs by reducing hypersensitivity.
 

Case-Control Study

To test this, Su and colleagues conducted a single-center retrospective study of the effects of semen strychni on 41 patients with IPAF-associated cough who were treated with low-dose oral semen strychni 300 mg/d for 2 weeks. These patients were paired with 41 control individuals matched for age, sex, and disease course. Control individuals received standard of care therapies.

The investigators found that for the primary endpoint of a change in the visual analog scale (VAS) at 2 weeks, there was a significantly greater reduction from baseline among patients treated with semen strychni compared with control individuals, with a baseline mean VAS score of 4.9 reduced to 2.1 at the end of treatment, vs 4.6 pre- to 3.3 post-treatment for control individuals. This difference translated to an odds ratio (OR) favoring semen strychni of 0.75 (P < .001).

In addition, the toxic compound was also associated with greater patient-reported improvement in the quality of life, as measured using the Leicester Cough Questionnaire, a 19-item scale that measures quality of life for people with chronic cough. Patients in the experimental arm had mean scores of 11.9 before treatment and 19 at the end of therapy compared with 12 and 15.1 points, respectively, among individuals in the control arm. This translated to an OR of 3.8 (P < .001) for patients on semen strychni.

The toxin appeared to be generally safe. There were no reported cases of pain, fainting, or bleeding in either study group, although there was one case of muscle twitching in the semen strychni group, Su reported.

There is evidence to suggest that semen strychni may have a calming effect on cough through action in the STAT3 pathway, considered to be a promising therapeutic target for musculoskeletal conditions, Su noted.
 

Not Ready for Prime Time

“My feeling is that these kinds of abstracts are welcome, but this is far from reality at this point,” said Vijay Balasubramanian, MD, clinical professor of medicine and director of the Pulmonary Hypertension Program at the University of California San Francisco.

“We need some kind of a regulated way of understanding dose characteristics and pharmacokinetics, and so it should be followed by more systematic studies,” he said in an interview.

Both Balasubramanian and his co-moderator Andrew R. Berman, MD, director of the Division of Pulmonary and Critical Care Medicine and Allergy and Rheumatology at Rutgers Health New Jersey Medical School in Newark, New Jersey, said that they sympathize with clinicians and their patients who seek out unusual therapies such as semen strychni.

“It’s very frustrating to treat chronic cough, especially associated with fibrotic lung disease, and the extent to which researchers will go to find that one product that perhaps can make a difference is understandable,” Berman told this news organization.

Su did not report a study funding source. Su, Balasubramanian, and Berman reported no relevant financial relationships.

 

A version of this article first appeared on Medscape.com.

If standard therapies don’t give relief to patients with refractory cough associated with interstitial lung disease, maybe a little poison could do the trick.

Among 41 patients with idiopathic interstitial pneumonia with autoimmune features (IPAFs) who had intractable cough, treatment with the traditional Chinese medicine semen strychni was associated with a significant improvement in patient-reported outcomes, reported Mingwan Su, MD, from Guang’anmen Hospital and the China Academy of Chinese Medical Sciences in Beijing, China.

“Semen strychni is associated with reduction in cough and can be an effective drug therapy for refractory cough in association with IPAFs,” she said in an oral abstract session at the American College of Chest Physicians (CHEST) 2024 Annual Meeting.

Semen strychni is derived from the dried seeds of the plant Strychnos nux-vomica L. Its main toxic component is strychnine, the poison said to be favored by legendary mystery writer Agatha Christie.

Semen strychni is a central nervous system agonist that has reported efficacy in the treatment of musculoskeletal and autoimmune conditions, including rheumatoid arthritis, myasthenia gravis, and amyotrophic lateral sclerosis.

The medication also has immunomodulatory properties, Su said, and is thought to have beneficial effects against cough associated with IPAFs by reducing hypersensitivity.
 

Case-Control Study

To test this, Su and colleagues conducted a single-center retrospective study of the effects of semen strychni on 41 patients with IPAF-associated cough who were treated with low-dose oral semen strychni 300 mg/d for 2 weeks. These patients were paired with 41 control individuals matched for age, sex, and disease course. Control individuals received standard of care therapies.

The investigators found that for the primary endpoint of a change in the visual analog scale (VAS) at 2 weeks, there was a significantly greater reduction from baseline among patients treated with semen strychni compared with control individuals, with a baseline mean VAS score of 4.9 reduced to 2.1 at the end of treatment, vs 4.6 pre- to 3.3 post-treatment for control individuals. This difference translated to an odds ratio (OR) favoring semen strychni of 0.75 (P < .001).

In addition, the toxic compound was also associated with greater patient-reported improvement in the quality of life, as measured using the Leicester Cough Questionnaire, a 19-item scale that measures quality of life for people with chronic cough. Patients in the experimental arm had mean scores of 11.9 before treatment and 19 at the end of therapy compared with 12 and 15.1 points, respectively, among individuals in the control arm. This translated to an OR of 3.8 (P < .001) for patients on semen strychni.

The toxin appeared to be generally safe. There were no reported cases of pain, fainting, or bleeding in either study group, although there was one case of muscle twitching in the semen strychni group, Su reported.

There is evidence to suggest that semen strychni may have a calming effect on cough through action in the STAT3 pathway, considered to be a promising therapeutic target for musculoskeletal conditions, Su noted.
 

Not Ready for Prime Time

“My feeling is that these kinds of abstracts are welcome, but this is far from reality at this point,” said Vijay Balasubramanian, MD, clinical professor of medicine and director of the Pulmonary Hypertension Program at the University of California San Francisco.

“We need some kind of a regulated way of understanding dose characteristics and pharmacokinetics, and so it should be followed by more systematic studies,” he said in an interview.

Both Balasubramanian and his co-moderator Andrew R. Berman, MD, director of the Division of Pulmonary and Critical Care Medicine and Allergy and Rheumatology at Rutgers Health New Jersey Medical School in Newark, New Jersey, said that they sympathize with clinicians and their patients who seek out unusual therapies such as semen strychni.

“It’s very frustrating to treat chronic cough, especially associated with fibrotic lung disease, and the extent to which researchers will go to find that one product that perhaps can make a difference is understandable,” Berman told this news organization.

Su did not report a study funding source. Su, Balasubramanian, and Berman reported no relevant financial relationships.

 

A version of this article first appeared on Medscape.com.

If standard therapies don’t give relief to patients with refractory cough associated with interstitial lung disease, maybe a little poison could do the trick.

Among 41 patients with idiopathic interstitial pneumonia with autoimmune features (IPAFs) who had intractable cough, treatment with the traditional Chinese medicine semen strychni was associated with a significant improvement in patient-reported outcomes, reported Mingwan Su, MD, from Guang’anmen Hospital and the China Academy of Chinese Medical Sciences in Beijing, China.

“Semen strychni is associated with reduction in cough and can be an effective drug therapy for refractory cough in association with IPAFs,” she said in an oral abstract session at the American College of Chest Physicians (CHEST) 2024 Annual Meeting.

Semen strychni is derived from the dried seeds of the plant Strychnos nux-vomica L. Its main toxic component is strychnine, the poison said to be favored by legendary mystery writer Agatha Christie.

Semen strychni is a central nervous system agonist that has reported efficacy in the treatment of musculoskeletal and autoimmune conditions, including rheumatoid arthritis, myasthenia gravis, and amyotrophic lateral sclerosis.

The medication also has immunomodulatory properties, Su said, and is thought to have beneficial effects against cough associated with IPAFs by reducing hypersensitivity.
 

Case-Control Study

To test this, Su and colleagues conducted a single-center retrospective study of the effects of semen strychni on 41 patients with IPAF-associated cough who were treated with low-dose oral semen strychni 300 mg/d for 2 weeks. These patients were paired with 41 control individuals matched for age, sex, and disease course. Control individuals received standard of care therapies.

The investigators found that for the primary endpoint of a change in the visual analog scale (VAS) at 2 weeks, there was a significantly greater reduction from baseline among patients treated with semen strychni compared with control individuals, with a baseline mean VAS score of 4.9 reduced to 2.1 at the end of treatment, vs 4.6 pre- to 3.3 post-treatment for control individuals. This difference translated to an odds ratio (OR) favoring semen strychni of 0.75 (P < .001).

In addition, the toxic compound was also associated with greater patient-reported improvement in the quality of life, as measured using the Leicester Cough Questionnaire, a 19-item scale that measures quality of life for people with chronic cough. Patients in the experimental arm had mean scores of 11.9 before treatment and 19 at the end of therapy compared with 12 and 15.1 points, respectively, among individuals in the control arm. This translated to an OR of 3.8 (P < .001) for patients on semen strychni.

The toxin appeared to be generally safe. There were no reported cases of pain, fainting, or bleeding in either study group, although there was one case of muscle twitching in the semen strychni group, Su reported.

There is evidence to suggest that semen strychni may have a calming effect on cough through action in the STAT3 pathway, considered to be a promising therapeutic target for musculoskeletal conditions, Su noted.
 

Not Ready for Prime Time

“My feeling is that these kinds of abstracts are welcome, but this is far from reality at this point,” said Vijay Balasubramanian, MD, clinical professor of medicine and director of the Pulmonary Hypertension Program at the University of California San Francisco.

“We need some kind of a regulated way of understanding dose characteristics and pharmacokinetics, and so it should be followed by more systematic studies,” he said in an interview.

Both Balasubramanian and his co-moderator Andrew R. Berman, MD, director of the Division of Pulmonary and Critical Care Medicine and Allergy and Rheumatology at Rutgers Health New Jersey Medical School in Newark, New Jersey, said that they sympathize with clinicians and their patients who seek out unusual therapies such as semen strychni.

“It’s very frustrating to treat chronic cough, especially associated with fibrotic lung disease, and the extent to which researchers will go to find that one product that perhaps can make a difference is understandable,” Berman told this news organization.

Su did not report a study funding source. Su, Balasubramanian, and Berman reported no relevant financial relationships.

 

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Matthew F. Watto, MD: I’m here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about rhinitis?

Paul N. Williams, MD: I’m excited. It’s always the season to talk about rhinitis.

Watto: We had a great guest for this podcast, Rhinitis and Environmental Allergies with Dr. Olajumoke Fadugba from Penn Medicine. She’s an allergist and immunologist. One of her pet peeves is when people just call everything “allergic rhinitis” because we should be calling it “chronic rhinitis,” if it’s chronic. That’s an umbrella term, and there are many buckets underneath it that people could fall into.

When you’re taking a history, you have to figure out whether it’s perennial (meaning it happens year round) because certain things can cause that. Cat dander is around all the time, so people with cats might have sinus symptoms all year. Dust mites are another one, and it’s pretty hard to avoid those. Those are some perennial allergens. 

Then there is allergic vs nonallergic rhinitis, which is something I hadn’t really put too much thought into.

Williams: I didn’t realize exactly how nuanced it got. Nonallergic rhinitis can still be seasonal because changes in temperature and humidity can trigger the rhinitis. And it matters what medications you use for what.

Watto: Here are some ways you can try to figure out if rhinitis is allergic or nonallergic. Ask the patient if they have itchy eyes and are sneezing a lot. That can be more of an allergic rhinitis, but both allergic and nonallergic rhinitis have the congestion, the rhinorrhea, so you can’t figure it out based on that alone.

Dr. Fadugba said that one clue that it might be nonallergic rhinitis is the age of onset. If the symptoms are later in onset (older age), then 30%-40% of rhinitis is nonallergic. If the patient has never had allergies and now all of a sudden they have new chronic sinus symptoms, it’s probably nonallergic rhinitis. It’s a diagnosis of exclusion.

I guess they need allergy testing?

Williams: If you want to make a definitive diagnosis, you need to rule it out. I suspect that you might be able to get away with some empirical treatment. If they get better, you can feel like a winner because getting booked in for allergy testing can be a little bit of a challenge.

Watto: The main treatment difference is that the oral antihistamines do not really seem to work for nonallergic rhinitis, but they can help with allergic rhinitis. Weirdly, the nasal antihistamines and nasal steroids do seem to work for both allergic and nonallergic rhinitis.

I don’t understand the mechanism there, but if you think someone might have nonallergic rhinitis, I wouldn’t go with the oral antihistamines as your first-line treatment. I would go with a nasal spray; you pretty much can’t go wrong with either an antihistamine or a steroid nasal spray.

Williams: We typically start with the nasal sprays. That’s kind of first-line for almost everybody, allergic or nonallergic. You’re probably going to start with an intranasal steroid, and then it’s kind of dealer’s choice what the patient can tolerate and afford. Sometimes you can get them covered by insurance, at least in my experience. 

I will say that this is one of the medications — like nicotine patches and other things — where we as doctors don’t really counsel patients on how to use it appropriately. So with our expert, we revisited the idea of the patient pointing the nasal spray laterally, toward their ear basically, and not spraying toward their brain. There should not be a slurping sound afterward, because “if you taste it, you waste it,” as the allergists and immunologists say. It’s supposed to sit up there and not be swallowed immediately. 

If your patient is sensitive to the floral flavor of some of the fluticasones (which I don’t mind so much as a user myself), then you can try mometasone or the other formulations. They are all roughly equivalent. 

Speaking of medications, which medications can cause rhinitis? Any meds we commonly use in primary care?

Williams: Apparently the combined hormonal oral contraceptives can do it. Also the phosphodiesterase 5 (PDE-5) inhibitors. Drugs that cause vasodilation can also do it. Some of the antihypertensives. I’ve seen beta-blockers and angiotensin-converting enzyme (ACE) inhibitors listed specifically, and some of the medications for benign prostatic hyperplasia (BPH). So there are a couple of medications that you can think about as a potential cause of rhinitis, although my suspicion is not going to be as high as for some of the other causes.

Watto: We mentioned medication treatments for patients who are really bothered by rhinorrhea, and maybe they are already on a steroid or an antihistamine.

You can try nasal ipratropium for people that have really prominent rhinorrhea. Dr. Fadugba said that can work well, and it’s usually taken three or four times a day. I’ve had good success prescribing it for my patients. Another one that I have never prescribed, but that Dr. Fadugba said is available over the counter, is intranasal cromolyn — a mast cell stabilizer. She said it can be beneficial.

Let’s say I had a cat allergy and I was going to visit Paul. I could use the intranasal cromolyn ahead of time to reduce rhinitis when I’m around the cats.

Paul, what about montelukast? I never know what to do with that one.

Williams: I’ve seen it prescribed as a last-ditch attempt to fix chronic rhinitis. Dr. Fadugba said she only ever prescribes it for patients who have rhinitis symptoms and asthma and never just for chronic rhinitis because it doesn’t work. And also, there have been some new black-box warnings from the US Food and Drug Administration (FDA). So unless there’s a solid indication for it, montelukast is not something you should just prescribe to try to see if it will work. That’s probably not the right approach for this.

But if the patient has challenging control asthma, and as a component, challenging nasal symptoms as well, it might be a reasonable medication to try. 

Watto: And finally, Paul, how does climate change possibly have anything to do with rhinitis?

Williams: I feel like I’m just seeing more and more of the stuff every year. I don’t know if I’m more sensitive to it or because I’m having more symptoms myself, but it turns out the prevalence actually is going up.

We’re seeing more of it in part because it’s getting hotter outside, which is in turn worsening the production of allergens and increasing the allergen exposure and the severity of the symptoms that go along with it. More people are having more severe disease because the world is changing as a result of the stuff that we do. So fix that. But also be mindful and expect to see even more of these problems as you move forward in your careers. 

Watto: Dr. Fadugba gave us so many great tips. You can listen to the full podcast episode here.

Dr. Watto, Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, has disclosed no relevant financial relationships. Dr. Williams, Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, disclosed ties with The Curbsiders.

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Matthew F. Watto, MD: I’m here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about rhinitis?

Paul N. Williams, MD: I’m excited. It’s always the season to talk about rhinitis.

Watto: We had a great guest for this podcast, Rhinitis and Environmental Allergies with Dr. Olajumoke Fadugba from Penn Medicine. She’s an allergist and immunologist. One of her pet peeves is when people just call everything “allergic rhinitis” because we should be calling it “chronic rhinitis,” if it’s chronic. That’s an umbrella term, and there are many buckets underneath it that people could fall into.

When you’re taking a history, you have to figure out whether it’s perennial (meaning it happens year round) because certain things can cause that. Cat dander is around all the time, so people with cats might have sinus symptoms all year. Dust mites are another one, and it’s pretty hard to avoid those. Those are some perennial allergens. 

Then there is allergic vs nonallergic rhinitis, which is something I hadn’t really put too much thought into.

Williams: I didn’t realize exactly how nuanced it got. Nonallergic rhinitis can still be seasonal because changes in temperature and humidity can trigger the rhinitis. And it matters what medications you use for what.

Watto: Here are some ways you can try to figure out if rhinitis is allergic or nonallergic. Ask the patient if they have itchy eyes and are sneezing a lot. That can be more of an allergic rhinitis, but both allergic and nonallergic rhinitis have the congestion, the rhinorrhea, so you can’t figure it out based on that alone.

Dr. Fadugba said that one clue that it might be nonallergic rhinitis is the age of onset. If the symptoms are later in onset (older age), then 30%-40% of rhinitis is nonallergic. If the patient has never had allergies and now all of a sudden they have new chronic sinus symptoms, it’s probably nonallergic rhinitis. It’s a diagnosis of exclusion.

I guess they need allergy testing?

Williams: If you want to make a definitive diagnosis, you need to rule it out. I suspect that you might be able to get away with some empirical treatment. If they get better, you can feel like a winner because getting booked in for allergy testing can be a little bit of a challenge.

Watto: The main treatment difference is that the oral antihistamines do not really seem to work for nonallergic rhinitis, but they can help with allergic rhinitis. Weirdly, the nasal antihistamines and nasal steroids do seem to work for both allergic and nonallergic rhinitis.

I don’t understand the mechanism there, but if you think someone might have nonallergic rhinitis, I wouldn’t go with the oral antihistamines as your first-line treatment. I would go with a nasal spray; you pretty much can’t go wrong with either an antihistamine or a steroid nasal spray.

Williams: We typically start with the nasal sprays. That’s kind of first-line for almost everybody, allergic or nonallergic. You’re probably going to start with an intranasal steroid, and then it’s kind of dealer’s choice what the patient can tolerate and afford. Sometimes you can get them covered by insurance, at least in my experience. 

I will say that this is one of the medications — like nicotine patches and other things — where we as doctors don’t really counsel patients on how to use it appropriately. So with our expert, we revisited the idea of the patient pointing the nasal spray laterally, toward their ear basically, and not spraying toward their brain. There should not be a slurping sound afterward, because “if you taste it, you waste it,” as the allergists and immunologists say. It’s supposed to sit up there and not be swallowed immediately. 

If your patient is sensitive to the floral flavor of some of the fluticasones (which I don’t mind so much as a user myself), then you can try mometasone or the other formulations. They are all roughly equivalent. 

Speaking of medications, which medications can cause rhinitis? Any meds we commonly use in primary care?

Williams: Apparently the combined hormonal oral contraceptives can do it. Also the phosphodiesterase 5 (PDE-5) inhibitors. Drugs that cause vasodilation can also do it. Some of the antihypertensives. I’ve seen beta-blockers and angiotensin-converting enzyme (ACE) inhibitors listed specifically, and some of the medications for benign prostatic hyperplasia (BPH). So there are a couple of medications that you can think about as a potential cause of rhinitis, although my suspicion is not going to be as high as for some of the other causes.

Watto: We mentioned medication treatments for patients who are really bothered by rhinorrhea, and maybe they are already on a steroid or an antihistamine.

You can try nasal ipratropium for people that have really prominent rhinorrhea. Dr. Fadugba said that can work well, and it’s usually taken three or four times a day. I’ve had good success prescribing it for my patients. Another one that I have never prescribed, but that Dr. Fadugba said is available over the counter, is intranasal cromolyn — a mast cell stabilizer. She said it can be beneficial.

Let’s say I had a cat allergy and I was going to visit Paul. I could use the intranasal cromolyn ahead of time to reduce rhinitis when I’m around the cats.

Paul, what about montelukast? I never know what to do with that one.

Williams: I’ve seen it prescribed as a last-ditch attempt to fix chronic rhinitis. Dr. Fadugba said she only ever prescribes it for patients who have rhinitis symptoms and asthma and never just for chronic rhinitis because it doesn’t work. And also, there have been some new black-box warnings from the US Food and Drug Administration (FDA). So unless there’s a solid indication for it, montelukast is not something you should just prescribe to try to see if it will work. That’s probably not the right approach for this.

But if the patient has challenging control asthma, and as a component, challenging nasal symptoms as well, it might be a reasonable medication to try. 

Watto: And finally, Paul, how does climate change possibly have anything to do with rhinitis?

Williams: I feel like I’m just seeing more and more of the stuff every year. I don’t know if I’m more sensitive to it or because I’m having more symptoms myself, but it turns out the prevalence actually is going up.

We’re seeing more of it in part because it’s getting hotter outside, which is in turn worsening the production of allergens and increasing the allergen exposure and the severity of the symptoms that go along with it. More people are having more severe disease because the world is changing as a result of the stuff that we do. So fix that. But also be mindful and expect to see even more of these problems as you move forward in your careers. 

Watto: Dr. Fadugba gave us so many great tips. You can listen to the full podcast episode here.

Dr. Watto, Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, has disclosed no relevant financial relationships. Dr. Williams, Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, disclosed ties with The Curbsiders.

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Matthew F. Watto, MD: I’m here with my great friend and America’s primary care physician, Dr. Paul Nelson Williams. Paul, are you ready to talk about rhinitis?

Paul N. Williams, MD: I’m excited. It’s always the season to talk about rhinitis.

Watto: We had a great guest for this podcast, Rhinitis and Environmental Allergies with Dr. Olajumoke Fadugba from Penn Medicine. She’s an allergist and immunologist. One of her pet peeves is when people just call everything “allergic rhinitis” because we should be calling it “chronic rhinitis,” if it’s chronic. That’s an umbrella term, and there are many buckets underneath it that people could fall into.

When you’re taking a history, you have to figure out whether it’s perennial (meaning it happens year round) because certain things can cause that. Cat dander is around all the time, so people with cats might have sinus symptoms all year. Dust mites are another one, and it’s pretty hard to avoid those. Those are some perennial allergens. 

Then there is allergic vs nonallergic rhinitis, which is something I hadn’t really put too much thought into.

Williams: I didn’t realize exactly how nuanced it got. Nonallergic rhinitis can still be seasonal because changes in temperature and humidity can trigger the rhinitis. And it matters what medications you use for what.

Watto: Here are some ways you can try to figure out if rhinitis is allergic or nonallergic. Ask the patient if they have itchy eyes and are sneezing a lot. That can be more of an allergic rhinitis, but both allergic and nonallergic rhinitis have the congestion, the rhinorrhea, so you can’t figure it out based on that alone.

Dr. Fadugba said that one clue that it might be nonallergic rhinitis is the age of onset. If the symptoms are later in onset (older age), then 30%-40% of rhinitis is nonallergic. If the patient has never had allergies and now all of a sudden they have new chronic sinus symptoms, it’s probably nonallergic rhinitis. It’s a diagnosis of exclusion.

I guess they need allergy testing?

Williams: If you want to make a definitive diagnosis, you need to rule it out. I suspect that you might be able to get away with some empirical treatment. If they get better, you can feel like a winner because getting booked in for allergy testing can be a little bit of a challenge.

Watto: The main treatment difference is that the oral antihistamines do not really seem to work for nonallergic rhinitis, but they can help with allergic rhinitis. Weirdly, the nasal antihistamines and nasal steroids do seem to work for both allergic and nonallergic rhinitis.

I don’t understand the mechanism there, but if you think someone might have nonallergic rhinitis, I wouldn’t go with the oral antihistamines as your first-line treatment. I would go with a nasal spray; you pretty much can’t go wrong with either an antihistamine or a steroid nasal spray.

Williams: We typically start with the nasal sprays. That’s kind of first-line for almost everybody, allergic or nonallergic. You’re probably going to start with an intranasal steroid, and then it’s kind of dealer’s choice what the patient can tolerate and afford. Sometimes you can get them covered by insurance, at least in my experience. 

I will say that this is one of the medications — like nicotine patches and other things — where we as doctors don’t really counsel patients on how to use it appropriately. So with our expert, we revisited the idea of the patient pointing the nasal spray laterally, toward their ear basically, and not spraying toward their brain. There should not be a slurping sound afterward, because “if you taste it, you waste it,” as the allergists and immunologists say. It’s supposed to sit up there and not be swallowed immediately. 

If your patient is sensitive to the floral flavor of some of the fluticasones (which I don’t mind so much as a user myself), then you can try mometasone or the other formulations. They are all roughly equivalent. 

Speaking of medications, which medications can cause rhinitis? Any meds we commonly use in primary care?

Williams: Apparently the combined hormonal oral contraceptives can do it. Also the phosphodiesterase 5 (PDE-5) inhibitors. Drugs that cause vasodilation can also do it. Some of the antihypertensives. I’ve seen beta-blockers and angiotensin-converting enzyme (ACE) inhibitors listed specifically, and some of the medications for benign prostatic hyperplasia (BPH). So there are a couple of medications that you can think about as a potential cause of rhinitis, although my suspicion is not going to be as high as for some of the other causes.

Watto: We mentioned medication treatments for patients who are really bothered by rhinorrhea, and maybe they are already on a steroid or an antihistamine.

You can try nasal ipratropium for people that have really prominent rhinorrhea. Dr. Fadugba said that can work well, and it’s usually taken three or four times a day. I’ve had good success prescribing it for my patients. Another one that I have never prescribed, but that Dr. Fadugba said is available over the counter, is intranasal cromolyn — a mast cell stabilizer. She said it can be beneficial.

Let’s say I had a cat allergy and I was going to visit Paul. I could use the intranasal cromolyn ahead of time to reduce rhinitis when I’m around the cats.

Paul, what about montelukast? I never know what to do with that one.

Williams: I’ve seen it prescribed as a last-ditch attempt to fix chronic rhinitis. Dr. Fadugba said she only ever prescribes it for patients who have rhinitis symptoms and asthma and never just for chronic rhinitis because it doesn’t work. And also, there have been some new black-box warnings from the US Food and Drug Administration (FDA). So unless there’s a solid indication for it, montelukast is not something you should just prescribe to try to see if it will work. That’s probably not the right approach for this.

But if the patient has challenging control asthma, and as a component, challenging nasal symptoms as well, it might be a reasonable medication to try. 

Watto: And finally, Paul, how does climate change possibly have anything to do with rhinitis?

Williams: I feel like I’m just seeing more and more of the stuff every year. I don’t know if I’m more sensitive to it or because I’m having more symptoms myself, but it turns out the prevalence actually is going up.

We’re seeing more of it in part because it’s getting hotter outside, which is in turn worsening the production of allergens and increasing the allergen exposure and the severity of the symptoms that go along with it. More people are having more severe disease because the world is changing as a result of the stuff that we do. So fix that. But also be mindful and expect to see even more of these problems as you move forward in your careers. 

Watto: Dr. Fadugba gave us so many great tips. You can listen to the full podcast episode here.

Dr. Watto, Clinical Assistant Professor, Department of Medicine, Perelman School of Medicine at University of Pennsylvania; Internist, Department of Medicine, Hospital Medicine Section, Pennsylvania Hospital, Philadelphia, has disclosed no relevant financial relationships. Dr. Williams, Associate Professor of Clinical Medicine, Department of General Internal Medicine, Lewis Katz School of Medicine; Staff Physician, Department of General Internal Medicine, Temple Internal Medicine Associates, Philadelphia, disclosed ties with The Curbsiders.

A version of this article first appeared on Medscape.com.