Rheumatology News

Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?

This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.

At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.

Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.

“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”

While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.

These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.

However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.

“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.

Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.

She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.

Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.

Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.

“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”

It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.

None of the sources for this story declared having any relevant conflicts of interest.

Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?

This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.

At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.

Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.

“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”

While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.

These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.

However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.

“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.

Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.

She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.

Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.

Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.

“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”

It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.

None of the sources for this story declared having any relevant conflicts of interest.

Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?

This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.

At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.

Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.

“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”

While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.

These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.

However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.

“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.

Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.

She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.

Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.

Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.

“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”

It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.

None of the sources for this story declared having any relevant conflicts of interest.

Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.

Stockbyte/Thinkstock

Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.

“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”

In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.

Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.

Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.

Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.

Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.

“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.

Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.

“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.

Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.

The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.

Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.

Stockbyte/Thinkstock

Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.

“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”

In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.

Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.

Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.

Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.

Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.

“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.

Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.

“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.

Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.

The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.

Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.

Stockbyte/Thinkstock

Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.

“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”

In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.

Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.

Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.

Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.

Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.

“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.

Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.

“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.

Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.

The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.

No matter where an initial fracture occurs in a postmenopausal woman, there is a subsequent increased risk of another fracture, with the risk surprisingly highest in the youngest postmenopausal group and among certain minorities, new data indicate.

“To our knowledge, no previous prospective study has reported detailed patterns of subsequent fracture locations after initial fracture according to age strata among women in the U.S.,” the authors noted in their article, published online May 5, 2021, in EClinicalMedicine.

The results show that a first fracture of the lower arm or wrist; upper arm; or shoulder, upper leg, knee, lower leg, or ankle – as well as those of the hip or pelvis – were associated with an approximately three- to sixfold increased risk for subsequent fractures. The findings have important implications for clinicians, said lead author Carolyn J. Crandall, MD, professor of medicine at the University of California, Los Angeles.

“By not paying attention to which types of fractures increase the risk of future fractures, we are missing the opportunity to identify people at increased risk of future fracture and counsel them regarding risk reduction,” she said in a press statement.

Commenting on the research, Michael R. McClung, MD, stressed this message to clinicians needs to be underscored.

“This paper is one of a series of papers highlighting the fact that having a previous fracture is a risk factor for subsequent fractures,” he said in an interview.

“This has been known for a very long time, but it is a point still not appreciated by patients and primary care doctors, so having another study pointing this out is important,” emphasized Dr. McClung, of the Oregon Osteoporosis Center in Portland.
 

30% of women’s health initiative participants had a fracture

For the study, Dr. Crandall and colleagues evaluated data on 157,282 women between the ages of 50 and 79 who were enrolled in the Women’s Health Initiative between 1993 and 2018.

The women were a mean age of 63.1 years and 47,126 (30%) experienced an incident fracture during the study period.

With a mean follow-up of 15.4 years, each type of fracture was associated with an increased risk of a subsequent fracture after adjusting for age, race/ethnicity, body mass index, hormone therapy use, and other factors.

A wide range of initial risk fractures – including an initial lower arm or wrist fracture (adjusted hazard ratio, 4.80), upper arm or shoulder fracture (aHR, 5.06), upper leg fracture (aHR, 5.11), knee fracture (aHR, 5.03), lower leg/ankle fracture (aHR, 4.10), and spinal fracture (aHR, 6.69) – increased the risk of sustaining a subsequent hip fracture. 

For initial fractures of the lower arm or wrist, there was an increased risk of a subsequent fracture of the upper arm/shoulder, upper leg, knee, lower leg/ankle, hip/pelvis, and spine (aHRs ranged from 2.63 to 5.68). 

“The finding that knee fracture has the same prognostic value for subsequent fracture as hip or wrist fracture is a novel key finding, as knee fracture is generally not considered ‘osteoporotic’,” the authors noted.

The risk of fracture after sustaining an initial hip or pelvis fracture was exceptionally high – with as much as a 27-fold higher risk of a subsequent upper leg (nonhip) fracture (aHR, 27.18).

“Thirty-four percent of women who experienced initial hip or pelvis fracture experienced a subsequent nonhip fracture,” the authors noted.

However, the risks associated with an initial hip fracture are already well established, and the study’s more notable findings are the risks of other bone breaks, Dr. Crandall told this news organization.

“The (increased risk with hip fracture) is a rather substantial result,” she said. “However, the more major point of this study is that no matter where the initial fracture happened, the risk of the future fracture was elevated.”
 

Don’t disregard risks in younger women, racial/ethnic groups

The findings regarding age are also important. The highest risk was observed in the youngest postmenopausal age group of 50-59 years (aHR, 6.45), which decreased slightly in the 60- to 69-year age group (aHR, 6.04) and further decreased in the 70- to 79-year age group (aHR, 4.99).

“This was a surprise, and it highlights that clinicians should not disregard initial fractures among young postmenopausal women,” Dr. Crandall told this news organization.

Even greater increased risks for a subsequent fracture following an initial lower extremity fracture were observed in non-Hispanic Black women, Hispanic or Latina women, and women of Asian Pacific Islander ethnicity, ranging from ninefold to 14-fold, versus a sevenfold risk among non-Hispanic White women.

“This has public health implications because it means that we may have been missing the opportunity to prevent fractures among younger postmenopausal women and underrepresented racial/ethnic groups,” Dr. Crandall noted.

Is risk greatest 1-2 years after the initial fracture?

The findings suggest that current treatment guidelines may need to be revisited in light of inconsistencies regarding when, and for which fracture types, to initiate treatment.

“It will be important to determine whether existing risk calculators can be adapted (or new calculators developed) to help refine decision-making to determine which of the women with fractures other than hip or vertebral fractures should be treated,” the authors wrote.

Dr. McClung said a randomized, controlled trial of osteoporosis treatment in people who present with all types of fractures would help determine whether having a knee or a wrist fracture does indeed warrant such therapy.

He further commented that future studies should evaluate the shorter- versus longer-term risks.

“The most recent research suggests that the risk of having a second fracture is much higher in the first year or 2 after the first or incident fracture,” he observed. “So, the next stage in research with this dataset would be to ask not what happens over a 10-year time frame but what happens over the first year or 2 after the fracture.”

The study was funded by the National Heart, Lung, and Blood Institute. Dr. Crandall reported no relevant financial relationships. Dr. McClung reported being a consultant and on the speakers bureau for Amgen and being a speaker for Alexion.

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

No matter where an initial fracture occurs in a postmenopausal woman, there is a subsequent increased risk of another fracture, with the risk surprisingly highest in the youngest postmenopausal group and among certain minorities, new data indicate.

“To our knowledge, no previous prospective study has reported detailed patterns of subsequent fracture locations after initial fracture according to age strata among women in the U.S.,” the authors noted in their article, published online May 5, 2021, in EClinicalMedicine.

The results show that a first fracture of the lower arm or wrist; upper arm; or shoulder, upper leg, knee, lower leg, or ankle – as well as those of the hip or pelvis – were associated with an approximately three- to sixfold increased risk for subsequent fractures. The findings have important implications for clinicians, said lead author Carolyn J. Crandall, MD, professor of medicine at the University of California, Los Angeles.

“By not paying attention to which types of fractures increase the risk of future fractures, we are missing the opportunity to identify people at increased risk of future fracture and counsel them regarding risk reduction,” she said in a press statement.

Commenting on the research, Michael R. McClung, MD, stressed this message to clinicians needs to be underscored.

“This paper is one of a series of papers highlighting the fact that having a previous fracture is a risk factor for subsequent fractures,” he said in an interview.

“This has been known for a very long time, but it is a point still not appreciated by patients and primary care doctors, so having another study pointing this out is important,” emphasized Dr. McClung, of the Oregon Osteoporosis Center in Portland.
 

30% of women’s health initiative participants had a fracture

For the study, Dr. Crandall and colleagues evaluated data on 157,282 women between the ages of 50 and 79 who were enrolled in the Women’s Health Initiative between 1993 and 2018.

The women were a mean age of 63.1 years and 47,126 (30%) experienced an incident fracture during the study period.

With a mean follow-up of 15.4 years, each type of fracture was associated with an increased risk of a subsequent fracture after adjusting for age, race/ethnicity, body mass index, hormone therapy use, and other factors.

A wide range of initial risk fractures – including an initial lower arm or wrist fracture (adjusted hazard ratio, 4.80), upper arm or shoulder fracture (aHR, 5.06), upper leg fracture (aHR, 5.11), knee fracture (aHR, 5.03), lower leg/ankle fracture (aHR, 4.10), and spinal fracture (aHR, 6.69) – increased the risk of sustaining a subsequent hip fracture. 

For initial fractures of the lower arm or wrist, there was an increased risk of a subsequent fracture of the upper arm/shoulder, upper leg, knee, lower leg/ankle, hip/pelvis, and spine (aHRs ranged from 2.63 to 5.68). 

“The finding that knee fracture has the same prognostic value for subsequent fracture as hip or wrist fracture is a novel key finding, as knee fracture is generally not considered ‘osteoporotic’,” the authors noted.

The risk of fracture after sustaining an initial hip or pelvis fracture was exceptionally high – with as much as a 27-fold higher risk of a subsequent upper leg (nonhip) fracture (aHR, 27.18).

“Thirty-four percent of women who experienced initial hip or pelvis fracture experienced a subsequent nonhip fracture,” the authors noted.

However, the risks associated with an initial hip fracture are already well established, and the study’s more notable findings are the risks of other bone breaks, Dr. Crandall told this news organization.

“The (increased risk with hip fracture) is a rather substantial result,” she said. “However, the more major point of this study is that no matter where the initial fracture happened, the risk of the future fracture was elevated.”
 

Don’t disregard risks in younger women, racial/ethnic groups

The findings regarding age are also important. The highest risk was observed in the youngest postmenopausal age group of 50-59 years (aHR, 6.45), which decreased slightly in the 60- to 69-year age group (aHR, 6.04) and further decreased in the 70- to 79-year age group (aHR, 4.99).

“This was a surprise, and it highlights that clinicians should not disregard initial fractures among young postmenopausal women,” Dr. Crandall told this news organization.

Even greater increased risks for a subsequent fracture following an initial lower extremity fracture were observed in non-Hispanic Black women, Hispanic or Latina women, and women of Asian Pacific Islander ethnicity, ranging from ninefold to 14-fold, versus a sevenfold risk among non-Hispanic White women.

“This has public health implications because it means that we may have been missing the opportunity to prevent fractures among younger postmenopausal women and underrepresented racial/ethnic groups,” Dr. Crandall noted.

Is risk greatest 1-2 years after the initial fracture?

The findings suggest that current treatment guidelines may need to be revisited in light of inconsistencies regarding when, and for which fracture types, to initiate treatment.

“It will be important to determine whether existing risk calculators can be adapted (or new calculators developed) to help refine decision-making to determine which of the women with fractures other than hip or vertebral fractures should be treated,” the authors wrote.

Dr. McClung said a randomized, controlled trial of osteoporosis treatment in people who present with all types of fractures would help determine whether having a knee or a wrist fracture does indeed warrant such therapy.

He further commented that future studies should evaluate the shorter- versus longer-term risks.

“The most recent research suggests that the risk of having a second fracture is much higher in the first year or 2 after the first or incident fracture,” he observed. “So, the next stage in research with this dataset would be to ask not what happens over a 10-year time frame but what happens over the first year or 2 after the fracture.”

The study was funded by the National Heart, Lung, and Blood Institute. Dr. Crandall reported no relevant financial relationships. Dr. McClung reported being a consultant and on the speakers bureau for Amgen and being a speaker for Alexion.

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

No matter where an initial fracture occurs in a postmenopausal woman, there is a subsequent increased risk of another fracture, with the risk surprisingly highest in the youngest postmenopausal group and among certain minorities, new data indicate.

“To our knowledge, no previous prospective study has reported detailed patterns of subsequent fracture locations after initial fracture according to age strata among women in the U.S.,” the authors noted in their article, published online May 5, 2021, in EClinicalMedicine.

The results show that a first fracture of the lower arm or wrist; upper arm; or shoulder, upper leg, knee, lower leg, or ankle – as well as those of the hip or pelvis – were associated with an approximately three- to sixfold increased risk for subsequent fractures. The findings have important implications for clinicians, said lead author Carolyn J. Crandall, MD, professor of medicine at the University of California, Los Angeles.

“By not paying attention to which types of fractures increase the risk of future fractures, we are missing the opportunity to identify people at increased risk of future fracture and counsel them regarding risk reduction,” she said in a press statement.

Commenting on the research, Michael R. McClung, MD, stressed this message to clinicians needs to be underscored.

“This paper is one of a series of papers highlighting the fact that having a previous fracture is a risk factor for subsequent fractures,” he said in an interview.

“This has been known for a very long time, but it is a point still not appreciated by patients and primary care doctors, so having another study pointing this out is important,” emphasized Dr. McClung, of the Oregon Osteoporosis Center in Portland.
 

30% of women’s health initiative participants had a fracture

For the study, Dr. Crandall and colleagues evaluated data on 157,282 women between the ages of 50 and 79 who were enrolled in the Women’s Health Initiative between 1993 and 2018.

The women were a mean age of 63.1 years and 47,126 (30%) experienced an incident fracture during the study period.

With a mean follow-up of 15.4 years, each type of fracture was associated with an increased risk of a subsequent fracture after adjusting for age, race/ethnicity, body mass index, hormone therapy use, and other factors.

A wide range of initial risk fractures – including an initial lower arm or wrist fracture (adjusted hazard ratio, 4.80), upper arm or shoulder fracture (aHR, 5.06), upper leg fracture (aHR, 5.11), knee fracture (aHR, 5.03), lower leg/ankle fracture (aHR, 4.10), and spinal fracture (aHR, 6.69) – increased the risk of sustaining a subsequent hip fracture. 

For initial fractures of the lower arm or wrist, there was an increased risk of a subsequent fracture of the upper arm/shoulder, upper leg, knee, lower leg/ankle, hip/pelvis, and spine (aHRs ranged from 2.63 to 5.68). 

“The finding that knee fracture has the same prognostic value for subsequent fracture as hip or wrist fracture is a novel key finding, as knee fracture is generally not considered ‘osteoporotic’,” the authors noted.

The risk of fracture after sustaining an initial hip or pelvis fracture was exceptionally high – with as much as a 27-fold higher risk of a subsequent upper leg (nonhip) fracture (aHR, 27.18).

“Thirty-four percent of women who experienced initial hip or pelvis fracture experienced a subsequent nonhip fracture,” the authors noted.

However, the risks associated with an initial hip fracture are already well established, and the study’s more notable findings are the risks of other bone breaks, Dr. Crandall told this news organization.

“The (increased risk with hip fracture) is a rather substantial result,” she said. “However, the more major point of this study is that no matter where the initial fracture happened, the risk of the future fracture was elevated.”
 

Don’t disregard risks in younger women, racial/ethnic groups

The findings regarding age are also important. The highest risk was observed in the youngest postmenopausal age group of 50-59 years (aHR, 6.45), which decreased slightly in the 60- to 69-year age group (aHR, 6.04) and further decreased in the 70- to 79-year age group (aHR, 4.99).

“This was a surprise, and it highlights that clinicians should not disregard initial fractures among young postmenopausal women,” Dr. Crandall told this news organization.

Even greater increased risks for a subsequent fracture following an initial lower extremity fracture were observed in non-Hispanic Black women, Hispanic or Latina women, and women of Asian Pacific Islander ethnicity, ranging from ninefold to 14-fold, versus a sevenfold risk among non-Hispanic White women.

“This has public health implications because it means that we may have been missing the opportunity to prevent fractures among younger postmenopausal women and underrepresented racial/ethnic groups,” Dr. Crandall noted.

Is risk greatest 1-2 years after the initial fracture?

The findings suggest that current treatment guidelines may need to be revisited in light of inconsistencies regarding when, and for which fracture types, to initiate treatment.

“It will be important to determine whether existing risk calculators can be adapted (or new calculators developed) to help refine decision-making to determine which of the women with fractures other than hip or vertebral fractures should be treated,” the authors wrote.

Dr. McClung said a randomized, controlled trial of osteoporosis treatment in people who present with all types of fractures would help determine whether having a knee or a wrist fracture does indeed warrant such therapy.

He further commented that future studies should evaluate the shorter- versus longer-term risks.

“The most recent research suggests that the risk of having a second fracture is much higher in the first year or 2 after the first or incident fracture,” he observed. “So, the next stage in research with this dataset would be to ask not what happens over a 10-year time frame but what happens over the first year or 2 after the fracture.”

The study was funded by the National Heart, Lung, and Blood Institute. Dr. Crandall reported no relevant financial relationships. Dr. McClung reported being a consultant and on the speakers bureau for Amgen and being a speaker for Alexion.

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

The Centers for Disease Control and Prevention’s director Rochelle Walensky, MD, signed off on an advisory panel’s recommendation May 12 endorsing the use of the Pfizer-BioNTech COVID-19 vaccine in adolescents aged 12-15 years.

Earlier in the day the CDC’s Advisory Committee on Immunization Practices voted 14-0 in favor of the safety and effectiveness of the vaccine in younger teens.

“CDC now recommends that this vaccine be used among this population, and providers may begin vaccinating them right away,” Dr. Walensky said in an official statement.

The Food and Drug Administration on May 10 issued an emergency use authorization (EUA) for the Pfizer-BioNTech COVID-19 vaccine for the prevention of COVID-19 in individuals 12-15 years old. The FDA first cleared the Pfizer-BioNTech vaccine through an EUA in December 2020 for those ages 16 and older. Pfizer this month also initiated steps with the FDA toward a full approval of its vaccine.

Dr. Walenksy urged parents to seriously consider vaccinating their children.

“Understandably, some parents want more information before their children receive a vaccine,” she said. “I encourage parents with questions to talk to your child’s healthcare provider or your family doctor to learn more about the vaccine.”
 

Vaccine “safe and effective”

Separately, the American Academy of Pediatrics issued a statement May 12 in support of vaccinating all children ages 12 and older who are eligible for the federally authorized COVID-19 vaccine.

“As a pediatrician and a parent, I have looked forward to getting my own children and patients vaccinated, and I am thrilled that those ages 12 and older can now be protected,” said AAP President Lee Savio Beers, MD, in a statement. “The data continue to show that this vaccine is safe and effective. I urge all parents to call their pediatrician to learn more about how to get their children and teens vaccinated.”

The expanded clearance for the Pfizer vaccine is seen as a critical step for allowing teens to resume activities on which they missed out during the pandemic.

“We’ve seen the harm done to children’s mental and emotional health as they’ve missed out on so many experiences during the pandemic,” Dr. Beers said. “Vaccinating children will protect them and allow them to fully engage in all of the activities – school, sports, socializing with friends and family – that are so important to their health and development.”

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

The Centers for Disease Control and Prevention’s director Rochelle Walensky, MD, signed off on an advisory panel’s recommendation May 12 endorsing the use of the Pfizer-BioNTech COVID-19 vaccine in adolescents aged 12-15 years.

Earlier in the day the CDC’s Advisory Committee on Immunization Practices voted 14-0 in favor of the safety and effectiveness of the vaccine in younger teens.

“CDC now recommends that this vaccine be used among this population, and providers may begin vaccinating them right away,” Dr. Walensky said in an official statement.

The Food and Drug Administration on May 10 issued an emergency use authorization (EUA) for the Pfizer-BioNTech COVID-19 vaccine for the prevention of COVID-19 in individuals 12-15 years old. The FDA first cleared the Pfizer-BioNTech vaccine through an EUA in December 2020 for those ages 16 and older. Pfizer this month also initiated steps with the FDA toward a full approval of its vaccine.

Dr. Walenksy urged parents to seriously consider vaccinating their children.

“Understandably, some parents want more information before their children receive a vaccine,” she said. “I encourage parents with questions to talk to your child’s healthcare provider or your family doctor to learn more about the vaccine.”
 

Vaccine “safe and effective”

Separately, the American Academy of Pediatrics issued a statement May 12 in support of vaccinating all children ages 12 and older who are eligible for the federally authorized COVID-19 vaccine.

“As a pediatrician and a parent, I have looked forward to getting my own children and patients vaccinated, and I am thrilled that those ages 12 and older can now be protected,” said AAP President Lee Savio Beers, MD, in a statement. “The data continue to show that this vaccine is safe and effective. I urge all parents to call their pediatrician to learn more about how to get their children and teens vaccinated.”

The expanded clearance for the Pfizer vaccine is seen as a critical step for allowing teens to resume activities on which they missed out during the pandemic.

“We’ve seen the harm done to children’s mental and emotional health as they’ve missed out on so many experiences during the pandemic,” Dr. Beers said. “Vaccinating children will protect them and allow them to fully engage in all of the activities – school, sports, socializing with friends and family – that are so important to their health and development.”

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

The Centers for Disease Control and Prevention’s director Rochelle Walensky, MD, signed off on an advisory panel’s recommendation May 12 endorsing the use of the Pfizer-BioNTech COVID-19 vaccine in adolescents aged 12-15 years.

Earlier in the day the CDC’s Advisory Committee on Immunization Practices voted 14-0 in favor of the safety and effectiveness of the vaccine in younger teens.

“CDC now recommends that this vaccine be used among this population, and providers may begin vaccinating them right away,” Dr. Walensky said in an official statement.

The Food and Drug Administration on May 10 issued an emergency use authorization (EUA) for the Pfizer-BioNTech COVID-19 vaccine for the prevention of COVID-19 in individuals 12-15 years old. The FDA first cleared the Pfizer-BioNTech vaccine through an EUA in December 2020 for those ages 16 and older. Pfizer this month also initiated steps with the FDA toward a full approval of its vaccine.

Dr. Walenksy urged parents to seriously consider vaccinating their children.

“Understandably, some parents want more information before their children receive a vaccine,” she said. “I encourage parents with questions to talk to your child’s healthcare provider or your family doctor to learn more about the vaccine.”
 

Vaccine “safe and effective”

Separately, the American Academy of Pediatrics issued a statement May 12 in support of vaccinating all children ages 12 and older who are eligible for the federally authorized COVID-19 vaccine.

“As a pediatrician and a parent, I have looked forward to getting my own children and patients vaccinated, and I am thrilled that those ages 12 and older can now be protected,” said AAP President Lee Savio Beers, MD, in a statement. “The data continue to show that this vaccine is safe and effective. I urge all parents to call their pediatrician to learn more about how to get their children and teens vaccinated.”

The expanded clearance for the Pfizer vaccine is seen as a critical step for allowing teens to resume activities on which they missed out during the pandemic.

“We’ve seen the harm done to children’s mental and emotional health as they’ve missed out on so many experiences during the pandemic,” Dr. Beers said. “Vaccinating children will protect them and allow them to fully engage in all of the activities – school, sports, socializing with friends and family – that are so important to their health and development.”

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

Rheumatology News and the Coalition of State Rheumatology Organizations have partnered together to keep rheumatologists regularly informed on the advocacy issues of the day and perhaps inspire those who may be on the fence about finding “room” in their lives for action. This inaugural piece tells how CSRO President Dr. Madelaine (Mattie) A. Feldman views advocacy and how she found her way to action.

As a rheumatologist in private practice for 30 years, with husband and kids (and now grandkids), an active social life, and an exercise regimen, I realized if I were to become active in advocacy I would have to make room for it in my busy schedule. We all come up against the question of where will we find the time for a new hobby, exercise, joining a new organization, or even just eating right? Next comes the priority list discussion. How important is advocacy for my patients, my specialty, and my profession? Ultimately, how important is it for me? Where did that desire to get involved even come from? Why have I become so passionate about the issues?

For me, the answer to these questions goes back to the 1960s when I was growing up in New Orleans. My mom participated in civil rights protests, which did not make our family popular in the neighborhood, back when the KKK put flyers on everyone’s screen door. My mother didn’t care and told me that, no matter what people said, it was our duty to stand up for what was right. That was a long time ago and sadly my mom passed away just a year after I was old enough to vote. Her words have stayed with me and are more important now than ever.

Striving for justice despite how formidable the foe is requires an inner knowing that what you are doing is meaningful and will make a difference maybe not now, maybe not next year. At some point you must believe that your efforts will create a change for the better, small as it may be. My “saying” on Twitter (@MattieRheumMD) is “I’ll keep doing what I’m doing until my cynicism catches up to my passion.”

The story about my mom is just one of the many stories in my life taking me to where I am today. We all have them. I think the reason many of us go into rheumatology may be similar to the reasoning that leads one to advocacy efforts. At this point in time we can’t yet offer a cure, but we can point to a path that leads to improvements in the lives of our patients. I have to remind myself of that, every time there is an advocacy battle ahead, whether with insurance companies or the government ... increments are important.
 

The four Ps of advocacy

Living with compromise is hard, particularly when working within a system that needs a complete overhaul. Still, compromise is the key to getting anything done. Compromise is one of the four Ps of advocacy. I realize that compromise doesn’t start with a P, but it is such an integral part of advocacy, I am making allowances for it. The other Ps include patience, persistence/perseverance, and passion. I’m sure there are many others that could be part of the P family, like planning and performance, but let’s stick with these.

You don’t need to have all of these qualities when you start on the road to action in advocacy. For example, my passion came first. It developed when my patients could not get access to the treatments they needed. For many reasons, the medications were either unavailable (i.e., not on formulary, tiered very high) or unaffordable (i.e., copay too high, deductible too high). My passion deepened when I saw the hypocrisy within the drug-supply channel and the mistruths being told by those who profit from this channel. It wasn’t the “profit” part that bothered me, as I’m a believer in the free market. But this was not free market, and the companies were actually profiteering on the backs of my patients and justifying it by claiming they were saving the health care system billions of dollars. The fallacy of that claim and the players in this broken system are stories for another day.

Persistence came next for me. If you let up on the message, things might not only stay the same but could get worse. Perseverance is part of persistence because you need it to keep knocking on the same door even after that door is metaphorically (hopefully not literally) slammed in your face. Often, I will feel like a broken record and think that everyone has already heard the issues, not only from me but also from my fellow advocates. But never underestimate how many times a message, particularly on a difficult issue to understand, needs to be heard before it is fully comprehended.

Patience is one of the more difficult attributes to practice when you want action. I want things to happen yesterday – not tomorrow and definitely not next year. I have learned that the wheels of change turn quite slowly in this arena, sometimes pausing for inordinately long periods of time. I realize now that during the long wait, new facts can arise, allowing me to shape a different advocacy approach, one that ultimately bolsters my case. It still is very difficult to hear that a piece of legislation that seemed to be moving forward suddenly died and won’t be heard again until the next session. With patience you move forward with a smile, maybe a half-hearted one, but a smile nonetheless. This just makes life better.

Then there is compromise. This took me the longest to understand, particularly on the issues where my passion ran the deepest. Here is where passion could potentially get in the way of action. Feeling very strongly about an issue makes it difficult to let any piece of your ideal end result fall by the wayside. Here is where the saying “the perfect is the enemy of the good” comes into play. Just because you can’t have it all, doesn’t mean you can’t do good by achieving just part of what you have been striving for. Remember if you seek perfection, without compromise, you may lose the entire battle. Is there such a thing as compromising too much? I think so, but that may just be my passion speaking.

Rheumatology News and the Coalition of State Rheumatology Organizations started this column to keep you informed about current advocacy issues in rheumatology and perhaps inspire those who may be on the fence about finding “room” in their lives for action.

Advocacy doesn’t have to take up much room in your life. It can be as simple as clicking on CSRO.info/map, finding your state, and taking action by writing a letter to your representative on an important piece of legislation, like an accumulator adjustment ban (lots more on that in future columns). Or maybe just finding the time to read this column is all the action you have room for. We all have different amounts of space for any particular activity in our busy lives. It seems one of my stories from childhood created that space for advocacy in my life. I guess you could say it created a “Rheum” for Action.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is President of the CSRO, chair of the Alliance for Safe Biologic Medicines, and a past member of the American College of Rheumatology insurance subcommittee. You can reach her at rhnews@mdedge.com.

Rheumatology News and the Coalition of State Rheumatology Organizations have partnered together to keep rheumatologists regularly informed on the advocacy issues of the day and perhaps inspire those who may be on the fence about finding “room” in their lives for action. This inaugural piece tells how CSRO President Dr. Madelaine (Mattie) A. Feldman views advocacy and how she found her way to action.

As a rheumatologist in private practice for 30 years, with husband and kids (and now grandkids), an active social life, and an exercise regimen, I realized if I were to become active in advocacy I would have to make room for it in my busy schedule. We all come up against the question of where will we find the time for a new hobby, exercise, joining a new organization, or even just eating right? Next comes the priority list discussion. How important is advocacy for my patients, my specialty, and my profession? Ultimately, how important is it for me? Where did that desire to get involved even come from? Why have I become so passionate about the issues?

For me, the answer to these questions goes back to the 1960s when I was growing up in New Orleans. My mom participated in civil rights protests, which did not make our family popular in the neighborhood, back when the KKK put flyers on everyone’s screen door. My mother didn’t care and told me that, no matter what people said, it was our duty to stand up for what was right. That was a long time ago and sadly my mom passed away just a year after I was old enough to vote. Her words have stayed with me and are more important now than ever.

Striving for justice despite how formidable the foe is requires an inner knowing that what you are doing is meaningful and will make a difference maybe not now, maybe not next year. At some point you must believe that your efforts will create a change for the better, small as it may be. My “saying” on Twitter (@MattieRheumMD) is “I’ll keep doing what I’m doing until my cynicism catches up to my passion.”

The story about my mom is just one of the many stories in my life taking me to where I am today. We all have them. I think the reason many of us go into rheumatology may be similar to the reasoning that leads one to advocacy efforts. At this point in time we can’t yet offer a cure, but we can point to a path that leads to improvements in the lives of our patients. I have to remind myself of that, every time there is an advocacy battle ahead, whether with insurance companies or the government ... increments are important.
 

The four Ps of advocacy

Living with compromise is hard, particularly when working within a system that needs a complete overhaul. Still, compromise is the key to getting anything done. Compromise is one of the four Ps of advocacy. I realize that compromise doesn’t start with a P, but it is such an integral part of advocacy, I am making allowances for it. The other Ps include patience, persistence/perseverance, and passion. I’m sure there are many others that could be part of the P family, like planning and performance, but let’s stick with these.

You don’t need to have all of these qualities when you start on the road to action in advocacy. For example, my passion came first. It developed when my patients could not get access to the treatments they needed. For many reasons, the medications were either unavailable (i.e., not on formulary, tiered very high) or unaffordable (i.e., copay too high, deductible too high). My passion deepened when I saw the hypocrisy within the drug-supply channel and the mistruths being told by those who profit from this channel. It wasn’t the “profit” part that bothered me, as I’m a believer in the free market. But this was not free market, and the companies were actually profiteering on the backs of my patients and justifying it by claiming they were saving the health care system billions of dollars. The fallacy of that claim and the players in this broken system are stories for another day.

Persistence came next for me. If you let up on the message, things might not only stay the same but could get worse. Perseverance is part of persistence because you need it to keep knocking on the same door even after that door is metaphorically (hopefully not literally) slammed in your face. Often, I will feel like a broken record and think that everyone has already heard the issues, not only from me but also from my fellow advocates. But never underestimate how many times a message, particularly on a difficult issue to understand, needs to be heard before it is fully comprehended.

Patience is one of the more difficult attributes to practice when you want action. I want things to happen yesterday – not tomorrow and definitely not next year. I have learned that the wheels of change turn quite slowly in this arena, sometimes pausing for inordinately long periods of time. I realize now that during the long wait, new facts can arise, allowing me to shape a different advocacy approach, one that ultimately bolsters my case. It still is very difficult to hear that a piece of legislation that seemed to be moving forward suddenly died and won’t be heard again until the next session. With patience you move forward with a smile, maybe a half-hearted one, but a smile nonetheless. This just makes life better.

Then there is compromise. This took me the longest to understand, particularly on the issues where my passion ran the deepest. Here is where passion could potentially get in the way of action. Feeling very strongly about an issue makes it difficult to let any piece of your ideal end result fall by the wayside. Here is where the saying “the perfect is the enemy of the good” comes into play. Just because you can’t have it all, doesn’t mean you can’t do good by achieving just part of what you have been striving for. Remember if you seek perfection, without compromise, you may lose the entire battle. Is there such a thing as compromising too much? I think so, but that may just be my passion speaking.

Rheumatology News and the Coalition of State Rheumatology Organizations started this column to keep you informed about current advocacy issues in rheumatology and perhaps inspire those who may be on the fence about finding “room” in their lives for action.

Advocacy doesn’t have to take up much room in your life. It can be as simple as clicking on CSRO.info/map, finding your state, and taking action by writing a letter to your representative on an important piece of legislation, like an accumulator adjustment ban (lots more on that in future columns). Or maybe just finding the time to read this column is all the action you have room for. We all have different amounts of space for any particular activity in our busy lives. It seems one of my stories from childhood created that space for advocacy in my life. I guess you could say it created a “Rheum” for Action.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is President of the CSRO, chair of the Alliance for Safe Biologic Medicines, and a past member of the American College of Rheumatology insurance subcommittee. You can reach her at rhnews@mdedge.com.

Rheumatology News and the Coalition of State Rheumatology Organizations have partnered together to keep rheumatologists regularly informed on the advocacy issues of the day and perhaps inspire those who may be on the fence about finding “room” in their lives for action. This inaugural piece tells how CSRO President Dr. Madelaine (Mattie) A. Feldman views advocacy and how she found her way to action.

As a rheumatologist in private practice for 30 years, with husband and kids (and now grandkids), an active social life, and an exercise regimen, I realized if I were to become active in advocacy I would have to make room for it in my busy schedule. We all come up against the question of where will we find the time for a new hobby, exercise, joining a new organization, or even just eating right? Next comes the priority list discussion. How important is advocacy for my patients, my specialty, and my profession? Ultimately, how important is it for me? Where did that desire to get involved even come from? Why have I become so passionate about the issues?

For me, the answer to these questions goes back to the 1960s when I was growing up in New Orleans. My mom participated in civil rights protests, which did not make our family popular in the neighborhood, back when the KKK put flyers on everyone’s screen door. My mother didn’t care and told me that, no matter what people said, it was our duty to stand up for what was right. That was a long time ago and sadly my mom passed away just a year after I was old enough to vote. Her words have stayed with me and are more important now than ever.

Striving for justice despite how formidable the foe is requires an inner knowing that what you are doing is meaningful and will make a difference maybe not now, maybe not next year. At some point you must believe that your efforts will create a change for the better, small as it may be. My “saying” on Twitter (@MattieRheumMD) is “I’ll keep doing what I’m doing until my cynicism catches up to my passion.”

The story about my mom is just one of the many stories in my life taking me to where I am today. We all have them. I think the reason many of us go into rheumatology may be similar to the reasoning that leads one to advocacy efforts. At this point in time we can’t yet offer a cure, but we can point to a path that leads to improvements in the lives of our patients. I have to remind myself of that, every time there is an advocacy battle ahead, whether with insurance companies or the government ... increments are important.
 

The four Ps of advocacy

Living with compromise is hard, particularly when working within a system that needs a complete overhaul. Still, compromise is the key to getting anything done. Compromise is one of the four Ps of advocacy. I realize that compromise doesn’t start with a P, but it is such an integral part of advocacy, I am making allowances for it. The other Ps include patience, persistence/perseverance, and passion. I’m sure there are many others that could be part of the P family, like planning and performance, but let’s stick with these.

You don’t need to have all of these qualities when you start on the road to action in advocacy. For example, my passion came first. It developed when my patients could not get access to the treatments they needed. For many reasons, the medications were either unavailable (i.e., not on formulary, tiered very high) or unaffordable (i.e., copay too high, deductible too high). My passion deepened when I saw the hypocrisy within the drug-supply channel and the mistruths being told by those who profit from this channel. It wasn’t the “profit” part that bothered me, as I’m a believer in the free market. But this was not free market, and the companies were actually profiteering on the backs of my patients and justifying it by claiming they were saving the health care system billions of dollars. The fallacy of that claim and the players in this broken system are stories for another day.

Persistence came next for me. If you let up on the message, things might not only stay the same but could get worse. Perseverance is part of persistence because you need it to keep knocking on the same door even after that door is metaphorically (hopefully not literally) slammed in your face. Often, I will feel like a broken record and think that everyone has already heard the issues, not only from me but also from my fellow advocates. But never underestimate how many times a message, particularly on a difficult issue to understand, needs to be heard before it is fully comprehended.

Patience is one of the more difficult attributes to practice when you want action. I want things to happen yesterday – not tomorrow and definitely not next year. I have learned that the wheels of change turn quite slowly in this arena, sometimes pausing for inordinately long periods of time. I realize now that during the long wait, new facts can arise, allowing me to shape a different advocacy approach, one that ultimately bolsters my case. It still is very difficult to hear that a piece of legislation that seemed to be moving forward suddenly died and won’t be heard again until the next session. With patience you move forward with a smile, maybe a half-hearted one, but a smile nonetheless. This just makes life better.

Then there is compromise. This took me the longest to understand, particularly on the issues where my passion ran the deepest. Here is where passion could potentially get in the way of action. Feeling very strongly about an issue makes it difficult to let any piece of your ideal end result fall by the wayside. Here is where the saying “the perfect is the enemy of the good” comes into play. Just because you can’t have it all, doesn’t mean you can’t do good by achieving just part of what you have been striving for. Remember if you seek perfection, without compromise, you may lose the entire battle. Is there such a thing as compromising too much? I think so, but that may just be my passion speaking.

Rheumatology News and the Coalition of State Rheumatology Organizations started this column to keep you informed about current advocacy issues in rheumatology and perhaps inspire those who may be on the fence about finding “room” in their lives for action.

Advocacy doesn’t have to take up much room in your life. It can be as simple as clicking on CSRO.info/map, finding your state, and taking action by writing a letter to your representative on an important piece of legislation, like an accumulator adjustment ban (lots more on that in future columns). Or maybe just finding the time to read this column is all the action you have room for. We all have different amounts of space for any particular activity in our busy lives. It seems one of my stories from childhood created that space for advocacy in my life. I guess you could say it created a “Rheum” for Action.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is President of the CSRO, chair of the Alliance for Safe Biologic Medicines, and a past member of the American College of Rheumatology insurance subcommittee. You can reach her at rhnews@mdedge.com.

Six months after mild SARS-CoV-2 infection in a representative health care workforce, no long-term cardiovascular sequelae were detected, compared with a matched SARS-CoV-2 seronegative group.

“Mild COVID-19 left no measurable cardiovascular impact on LV structure, function, scar burden, aortic stiffness, or serum biomarkers,” the researchers reported in an article published online May 8 in JACC: Cardiovascular Imaging.

“We provide societal reassurance and support for the position that screening in asymptomatic individuals following mild disease is not indicated,” first author George Joy, MBBS, University College London, said in presenting the results at EuroCMR, the annual CMR congress of the European Association of Cardiovascular Imaging (EACVI).

Briefing comoderator Leyla Elif Sade, MD, University of Baskent, Ankara, Turkey, said, “This is the hot topic of our time because of obvious reasons and I think [this] study is quite important to avoid unnecessary further testing, surveillance testing, and to avoid a significant burden of health care costs.”
 

‘Alarming’ early data

Early cardiac magnetic resonance (CMR) studies in patients recovered from mild COVID-19 were “alarming,” Dr. Joy said.

As previously reported, one study showed cardiac abnormalities after mild COVID-19 in up to 78% of patients, with evidence of ongoing myocardial inflammation in 60%. The CMR findings correlated with elevations in troponin T by high-sensitivity assay (hs-TnT).

To investigate further, Dr. Joy and colleagues did a nested case-control study within the COVIDsortium, a prospective study of 731 health care workers from three London hospitals who underwent weekly symptom, polymerase chain reaction, and serology assessment over 4 months during the first wave of the pandemic.

A total of 157 (21.5%) participants seroconverted during the study period.

Six months after infection, 74 seropositive (median age, 39; 62% women) and 75 age-, sex-, and ethnicity-matched seronegative controls underwent cardiovascular phenotyping (comprehensive phantom-calibrated CMR and blood biomarkers). The analysis was blinded, using objective artificial intelligence analytics when available.

The results showed no statistically significant differences between seropositive and seronegative participants in cardiac structure (left ventricular volumes, mass, atrial area), function (ejection fraction, global longitudinal shortening, aortic distensibility), tissue characterization (T1, T2, extracellular volume fraction mapping, late gadolinium enhancement) or biomarkers (troponin, N-terminal pro–B-type natriuretic peptide).

Cardiovascular abnormalities were no more common in seropositive than seronegative otherwise healthy health care workers 6 months post mild SARS-CoV-2 infection. Measured abnormalities were “evenly distributed between both groups,” Dr. Joy said.

Therefore, it’s “important to reassure patients with mild SARS-CoV-2 infection regarding its cardiovascular effects,” Dr. Joy and colleagues concluded.
 

Limitations and caveats

They caution, however, that the study provides insight only into the short- to medium-term sequelae of patients aged 18-69 with mild COVID-19 who did not require hospitalization and had low numbers of comorbidities.

The study does not address the cardiovascular effects after severe COVID-19 infection requiring hospitalization or in those with multiple comorbid conditions, they noted. It also does not prove that apparently mild SARS-CoV-2 never causes chronic myocarditis.

“The study design would not distinguish between people who had sustained completely healed myocarditis and pericarditis and those in whom the heart had never been affected,” the researchers noted.

They pointed to a recent cross-sectional study of athletes 1-month post mild COVID-19 that found significant pericardial involvement (late enhancement and/or pericardial effusion), although no baseline pre-COVID-19 imaging was performed. In the current study at 6 months post infection the pericardium was normal.

The coauthors of a linked editorial say this study provides “welcome, reassuring information that in healthy individuals who experience mild infection with COVID-19, persisting evidence of cardiovascular complications is very uncommon. The results do not support cardiovascular screening in individuals with mild or asymptomatic infection with COVID-19.”  

Colin Berry, PhD, and Kenneth Mangion, PhD, both from University of Glasgow, cautioned that the population is restricted to health care workers; therefore, the findings may not necessarily be generalized to a community population .

“Healthcare workers do not reflect the population of individuals most clinically affected by COVID-19 illness. The severity of acute COVID-19 infection is greatest in older individuals and those with preexisting health problems. Healthcare workers are not representative of the wider, unselected, at-risk, community population,” they pointed out.

Cardiovascular risk factors and concomitant health problems (heart and respiratory disease) may be more common in the community than in health care workers, and prior studies have highlighted their potential impact for disease pathogenesis in COVID-19.

Dr. Berry and Dr. Mangion also noted that women made up nearly two-thirds of the seropositive group. This may reflect a selection bias or may naturally reflect the fact that proportionately more women are asymptomatic or have milder forms of illness, whereas severe SARS-CoV-2 infection requiring hospitalization affects men to a greater degree.

COVIDsortium funding was donated by individuals, charitable trusts, and corporations including Goldman Sachs, Citadel and Citadel Securities, The Guy Foundation, GW Pharmaceuticals, Kusuma Trust, and Jagclif Charitable Trust, and enabled by Barts Charity with support from UCLH Charity. The authors have disclosed no relevant financial relationships.

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

Six months after mild SARS-CoV-2 infection in a representative health care workforce, no long-term cardiovascular sequelae were detected, compared with a matched SARS-CoV-2 seronegative group.

“Mild COVID-19 left no measurable cardiovascular impact on LV structure, function, scar burden, aortic stiffness, or serum biomarkers,” the researchers reported in an article published online May 8 in JACC: Cardiovascular Imaging.

“We provide societal reassurance and support for the position that screening in asymptomatic individuals following mild disease is not indicated,” first author George Joy, MBBS, University College London, said in presenting the results at EuroCMR, the annual CMR congress of the European Association of Cardiovascular Imaging (EACVI).

Briefing comoderator Leyla Elif Sade, MD, University of Baskent, Ankara, Turkey, said, “This is the hot topic of our time because of obvious reasons and I think [this] study is quite important to avoid unnecessary further testing, surveillance testing, and to avoid a significant burden of health care costs.”
 

‘Alarming’ early data

Early cardiac magnetic resonance (CMR) studies in patients recovered from mild COVID-19 were “alarming,” Dr. Joy said.

As previously reported, one study showed cardiac abnormalities after mild COVID-19 in up to 78% of patients, with evidence of ongoing myocardial inflammation in 60%. The CMR findings correlated with elevations in troponin T by high-sensitivity assay (hs-TnT).

To investigate further, Dr. Joy and colleagues did a nested case-control study within the COVIDsortium, a prospective study of 731 health care workers from three London hospitals who underwent weekly symptom, polymerase chain reaction, and serology assessment over 4 months during the first wave of the pandemic.

A total of 157 (21.5%) participants seroconverted during the study period.

Six months after infection, 74 seropositive (median age, 39; 62% women) and 75 age-, sex-, and ethnicity-matched seronegative controls underwent cardiovascular phenotyping (comprehensive phantom-calibrated CMR and blood biomarkers). The analysis was blinded, using objective artificial intelligence analytics when available.

The results showed no statistically significant differences between seropositive and seronegative participants in cardiac structure (left ventricular volumes, mass, atrial area), function (ejection fraction, global longitudinal shortening, aortic distensibility), tissue characterization (T1, T2, extracellular volume fraction mapping, late gadolinium enhancement) or biomarkers (troponin, N-terminal pro–B-type natriuretic peptide).

Cardiovascular abnormalities were no more common in seropositive than seronegative otherwise healthy health care workers 6 months post mild SARS-CoV-2 infection. Measured abnormalities were “evenly distributed between both groups,” Dr. Joy said.

Therefore, it’s “important to reassure patients with mild SARS-CoV-2 infection regarding its cardiovascular effects,” Dr. Joy and colleagues concluded.
 

Limitations and caveats

They caution, however, that the study provides insight only into the short- to medium-term sequelae of patients aged 18-69 with mild COVID-19 who did not require hospitalization and had low numbers of comorbidities.

The study does not address the cardiovascular effects after severe COVID-19 infection requiring hospitalization or in those with multiple comorbid conditions, they noted. It also does not prove that apparently mild SARS-CoV-2 never causes chronic myocarditis.

“The study design would not distinguish between people who had sustained completely healed myocarditis and pericarditis and those in whom the heart had never been affected,” the researchers noted.

They pointed to a recent cross-sectional study of athletes 1-month post mild COVID-19 that found significant pericardial involvement (late enhancement and/or pericardial effusion), although no baseline pre-COVID-19 imaging was performed. In the current study at 6 months post infection the pericardium was normal.

The coauthors of a linked editorial say this study provides “welcome, reassuring information that in healthy individuals who experience mild infection with COVID-19, persisting evidence of cardiovascular complications is very uncommon. The results do not support cardiovascular screening in individuals with mild or asymptomatic infection with COVID-19.”  

Colin Berry, PhD, and Kenneth Mangion, PhD, both from University of Glasgow, cautioned that the population is restricted to health care workers; therefore, the findings may not necessarily be generalized to a community population .

“Healthcare workers do not reflect the population of individuals most clinically affected by COVID-19 illness. The severity of acute COVID-19 infection is greatest in older individuals and those with preexisting health problems. Healthcare workers are not representative of the wider, unselected, at-risk, community population,” they pointed out.

Cardiovascular risk factors and concomitant health problems (heart and respiratory disease) may be more common in the community than in health care workers, and prior studies have highlighted their potential impact for disease pathogenesis in COVID-19.

Dr. Berry and Dr. Mangion also noted that women made up nearly two-thirds of the seropositive group. This may reflect a selection bias or may naturally reflect the fact that proportionately more women are asymptomatic or have milder forms of illness, whereas severe SARS-CoV-2 infection requiring hospitalization affects men to a greater degree.

COVIDsortium funding was donated by individuals, charitable trusts, and corporations including Goldman Sachs, Citadel and Citadel Securities, The Guy Foundation, GW Pharmaceuticals, Kusuma Trust, and Jagclif Charitable Trust, and enabled by Barts Charity with support from UCLH Charity. The authors have disclosed no relevant financial relationships.

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

Six months after mild SARS-CoV-2 infection in a representative health care workforce, no long-term cardiovascular sequelae were detected, compared with a matched SARS-CoV-2 seronegative group.

“Mild COVID-19 left no measurable cardiovascular impact on LV structure, function, scar burden, aortic stiffness, or serum biomarkers,” the researchers reported in an article published online May 8 in JACC: Cardiovascular Imaging.

“We provide societal reassurance and support for the position that screening in asymptomatic individuals following mild disease is not indicated,” first author George Joy, MBBS, University College London, said in presenting the results at EuroCMR, the annual CMR congress of the European Association of Cardiovascular Imaging (EACVI).

Briefing comoderator Leyla Elif Sade, MD, University of Baskent, Ankara, Turkey, said, “This is the hot topic of our time because of obvious reasons and I think [this] study is quite important to avoid unnecessary further testing, surveillance testing, and to avoid a significant burden of health care costs.”
 

‘Alarming’ early data

Early cardiac magnetic resonance (CMR) studies in patients recovered from mild COVID-19 were “alarming,” Dr. Joy said.

As previously reported, one study showed cardiac abnormalities after mild COVID-19 in up to 78% of patients, with evidence of ongoing myocardial inflammation in 60%. The CMR findings correlated with elevations in troponin T by high-sensitivity assay (hs-TnT).

To investigate further, Dr. Joy and colleagues did a nested case-control study within the COVIDsortium, a prospective study of 731 health care workers from three London hospitals who underwent weekly symptom, polymerase chain reaction, and serology assessment over 4 months during the first wave of the pandemic.

A total of 157 (21.5%) participants seroconverted during the study period.

Six months after infection, 74 seropositive (median age, 39; 62% women) and 75 age-, sex-, and ethnicity-matched seronegative controls underwent cardiovascular phenotyping (comprehensive phantom-calibrated CMR and blood biomarkers). The analysis was blinded, using objective artificial intelligence analytics when available.

The results showed no statistically significant differences between seropositive and seronegative participants in cardiac structure (left ventricular volumes, mass, atrial area), function (ejection fraction, global longitudinal shortening, aortic distensibility), tissue characterization (T1, T2, extracellular volume fraction mapping, late gadolinium enhancement) or biomarkers (troponin, N-terminal pro–B-type natriuretic peptide).

Cardiovascular abnormalities were no more common in seropositive than seronegative otherwise healthy health care workers 6 months post mild SARS-CoV-2 infection. Measured abnormalities were “evenly distributed between both groups,” Dr. Joy said.

Therefore, it’s “important to reassure patients with mild SARS-CoV-2 infection regarding its cardiovascular effects,” Dr. Joy and colleagues concluded.
 

Limitations and caveats

They caution, however, that the study provides insight only into the short- to medium-term sequelae of patients aged 18-69 with mild COVID-19 who did not require hospitalization and had low numbers of comorbidities.

The study does not address the cardiovascular effects after severe COVID-19 infection requiring hospitalization or in those with multiple comorbid conditions, they noted. It also does not prove that apparently mild SARS-CoV-2 never causes chronic myocarditis.

“The study design would not distinguish between people who had sustained completely healed myocarditis and pericarditis and those in whom the heart had never been affected,” the researchers noted.

They pointed to a recent cross-sectional study of athletes 1-month post mild COVID-19 that found significant pericardial involvement (late enhancement and/or pericardial effusion), although no baseline pre-COVID-19 imaging was performed. In the current study at 6 months post infection the pericardium was normal.

The coauthors of a linked editorial say this study provides “welcome, reassuring information that in healthy individuals who experience mild infection with COVID-19, persisting evidence of cardiovascular complications is very uncommon. The results do not support cardiovascular screening in individuals with mild or asymptomatic infection with COVID-19.”  

Colin Berry, PhD, and Kenneth Mangion, PhD, both from University of Glasgow, cautioned that the population is restricted to health care workers; therefore, the findings may not necessarily be generalized to a community population .

“Healthcare workers do not reflect the population of individuals most clinically affected by COVID-19 illness. The severity of acute COVID-19 infection is greatest in older individuals and those with preexisting health problems. Healthcare workers are not representative of the wider, unselected, at-risk, community population,” they pointed out.

Cardiovascular risk factors and concomitant health problems (heart and respiratory disease) may be more common in the community than in health care workers, and prior studies have highlighted their potential impact for disease pathogenesis in COVID-19.

Dr. Berry and Dr. Mangion also noted that women made up nearly two-thirds of the seropositive group. This may reflect a selection bias or may naturally reflect the fact that proportionately more women are asymptomatic or have milder forms of illness, whereas severe SARS-CoV-2 infection requiring hospitalization affects men to a greater degree.

COVIDsortium funding was donated by individuals, charitable trusts, and corporations including Goldman Sachs, Citadel and Citadel Securities, The Guy Foundation, GW Pharmaceuticals, Kusuma Trust, and Jagclif Charitable Trust, and enabled by Barts Charity with support from UCLH Charity. The authors have disclosed no relevant financial relationships.

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

Patients who receive the mRNA COVID-19 vaccines are experiencing a variety of skin rashes, a dermatologist told colleagues, and some lesions don’t appear until several days after an injection. The good news is that these side effects tend to be minor and vanish within a few days, Esther Freeman, MD, PhD, said in a presentation at the American Academy of Dermatology Virtual Meeting Experience.

“The reality is actually very reassuring,” Dr. Freeman said, especially in light of what is currently known about when the rashes occur and how anaphylaxis is extremely uncommon. Now, she added, dermatologists can tell patients who had reactions to their initial vaccination that “we know you had this big reaction, and we know that it was upsetting and uncomfortable. But it may not happen the second time around. And if it does, [the reaction is] probably going to be smaller.”

Dr. Freeman, associate professor of dermatology at Harvard Medical School, Boston, highlighted a study published in the Journal of the American Academy of Dermatology that she coauthored with dermatologists across the United States. The researchers tracked 414 cutaneous reactions to the Moderna (83%) and Pfizer (17%) COVID-19 vaccines in a group of patients, which was 90% female, 78% White, and mostly from the United States. Their average age was 44 years. The cases were reported to the AAD–International League of Dermatological Societies registry of COVID-19 cutaneous manifestations.

While most were women, “it’s a little hard to know if this is really going to end up being a true finding,” said Dr. Freeman, the registry’s principal investigator and a member of the AAD’s COVID-19 Ad Hoc Task Force. “If you think about who got vaccinated early, it was health care providers, and the American health care workforce is over 70% female. So I think there’s a little bit of bias here. There may also be a bias because women may be slightly more likely to report or go to their health care provider for a rash.”

Delayed large local reactions were the most common, accounting for 66% (175 cases) of the 267 skin reactions reported after the first Moderna vaccine dose and 30% (31 cases) of the 102 reactions reported after the second dose. These reactions represented 15% (5 cases) of the 34 skin reactions reported after the first Pfizer vaccine dose and 18% (7 cases) of the 40 reactions after the second dose.

There are two peaks with that first dose, Dr. Freeman said. “There’s a peak around day 2 or 3. And there’s another peak around day 7 or 8 with some of these reactions. Only 27% who had a reaction with the first dose had the same reaction with the second.” She added that these reactions “are not cellulitis and don’t require antibiotics.”

Other more common reactions included local injection-site reactions (swelling, erythema, and pain), urticaria (after 24 hours in almost all cases, occurring at a higher rate in patients who received the Pfizer vaccine), and morbilliform eruptions.

Dr. Freeman said that patients may experience redness and swelling in the hands and feet that can be “very uncomfortable.” She described one patient “who was having a hard time actually closing his fist, just because of the amount of swelling and redness in his hand. It did resolve, and it’s important to reassure your patients it will go away.”

According to this study, less common reports of other cutaneous findings with both vaccines included 9 reports of swelling at the site of cosmetic fillers, 8 reports of pernio/chilblains, 10 reports of varicella zoster, 4 reports of herpes simplex flares, 4 pityriasis rosea–like reactions, and 4 rashes in infants of vaccinated breastfeeding mothers.

The study noted that “patients responded well to topical corticosteroids, oral antihistamines, and/or pain-relieving medications. These reactions resolved after a median of 3-4 days.”

It’s important to understand that none of the patients developed anaphylaxis after the second dose even if they’d had a reaction to the first dose, Dr. Freeman said. “But I should point out that we’re talking about reactions that have started more than 4 hours after the vaccine. If a rash such as a urticaria specifically starts within 4 hours of vaccination, that’s in a different category. Those are considered more immediate allergic reactions, and those patients need to be seen by allergy before a second dose.”

Dr. Freeman added that “it’s really interesting to think about how our bodies are really reacting to the vaccine in a way that’s mimicking our body’s reactions to COVID-19.” For example, some patients who got vaccinated developed chilblains similar to the “COVID toes” described in infected patients, apparently as part of the body’s immune response to the virus. “We’ve seen this in patients who actually had COVID and had prior COVID toes and then actually got a flare with their vaccine. And then we’ve also seen it in patients who never had COVID.”

In regard to general advice for patients, she said, “I do still encourage my patients who previously had COVID to go ahead and get the vaccine even if they had a skin manifestation with COVID.”

Shari Lipner, MD, PhD, associate professor of clinical dermatology, Weill Cornell Medicine, New York, said she has have seen only a handful of cases of delayed large local reactions and local injection site reactions after COVID-19 vaccination. “I have seen a significant number of cases of acute urticaria following the first and second doses,” she said in an interview. “However, it is important to keep in mind that we cannot determine cause and effect for the cases of acute urticaria. They may or may not be vaccine related.”

Fortunately, none of the adverse effects she’s seen have been severe. “It is important that dermatologists educate the public and their patients that most people do not develop any skin reaction in response to the vaccine,” she said. In the minority who do, “reactions tend to be mild and are not life-threatening. Many of these skin reactions resolve on their own without treatment.”

She added that “patients with pernio/chilblains or herpes zoster following vaccination should be referred by a board-certified dermatologist for prompt treatment and to avoid sequelae.”


 

‘COVID vaccine arm’

Delayed local reactions to the Moderna vaccine were also described in a report published online on May 12, 2021, in JAMA Dermatology, after the AAD meeting, in 16 patients referred to the Yale New Haven (Conn.) Hospital Dermatology service who experienced delayed localized cutaneous hypersensitivity reactions a median of 7 days after receiving the vaccine (range, 2-12 days), from Jan. 20 to Feb. 12, 2021. No such cases were reported in Pfizer vaccine recipients.

Of the 16 patients, whose median age was 38 years and who were mostly women, 15 developed the reaction after the first dose, described as “pruritic and variably painful erythematous reactions near the injection site,” which lasted a median of 5 days (range, 1-21 days). After the second dose, 12 of the 16 patients developed injection-site reactions (including one patient who had no reaction after dose 1), a median of 2 days after the vaccine was administered (range, 0-5 days). Histologic results of a biopsy in one patient with a reaction to the second dose “ demonstrated mild predominantly perivascular and focal interstitial mixed infiltrate with lymphocytes and eosinophils consistent with a dermal hypersensitivity reaction,” wrote Alicia J. Little, MD, PhD, of the department of dermatology, Yale University, New Haven, and coauthors.

Compared with immediate hypersensitivity reactions, occurring within 4 hours of vaccination, such as anaphylaxis and urticaria, they concluded that “these delayed localized hypersensitivity reactions are not a contraindication to subsequent vaccination,” and they proposed that they be named “COVID vaccine arm.”

Dr. Freeman reported no disclosures. Dr. Lipner also had no relevant disclosures. Dr. Little reported receiving a grant from the National Center for Advancing Translational Science and a Women’s Health Career Development Award from the Dermatology Foundation while the study was conducted; another author reported equity in Johnson & Johnson in his spouse’s retirement fund outside the submitted work.
 

Patients who receive the mRNA COVID-19 vaccines are experiencing a variety of skin rashes, a dermatologist told colleagues, and some lesions don’t appear until several days after an injection. The good news is that these side effects tend to be minor and vanish within a few days, Esther Freeman, MD, PhD, said in a presentation at the American Academy of Dermatology Virtual Meeting Experience.

“The reality is actually very reassuring,” Dr. Freeman said, especially in light of what is currently known about when the rashes occur and how anaphylaxis is extremely uncommon. Now, she added, dermatologists can tell patients who had reactions to their initial vaccination that “we know you had this big reaction, and we know that it was upsetting and uncomfortable. But it may not happen the second time around. And if it does, [the reaction is] probably going to be smaller.”

Dr. Freeman, associate professor of dermatology at Harvard Medical School, Boston, highlighted a study published in the Journal of the American Academy of Dermatology that she coauthored with dermatologists across the United States. The researchers tracked 414 cutaneous reactions to the Moderna (83%) and Pfizer (17%) COVID-19 vaccines in a group of patients, which was 90% female, 78% White, and mostly from the United States. Their average age was 44 years. The cases were reported to the AAD–International League of Dermatological Societies registry of COVID-19 cutaneous manifestations.

While most were women, “it’s a little hard to know if this is really going to end up being a true finding,” said Dr. Freeman, the registry’s principal investigator and a member of the AAD’s COVID-19 Ad Hoc Task Force. “If you think about who got vaccinated early, it was health care providers, and the American health care workforce is over 70% female. So I think there’s a little bit of bias here. There may also be a bias because women may be slightly more likely to report or go to their health care provider for a rash.”

Delayed large local reactions were the most common, accounting for 66% (175 cases) of the 267 skin reactions reported after the first Moderna vaccine dose and 30% (31 cases) of the 102 reactions reported after the second dose. These reactions represented 15% (5 cases) of the 34 skin reactions reported after the first Pfizer vaccine dose and 18% (7 cases) of the 40 reactions after the second dose.

There are two peaks with that first dose, Dr. Freeman said. “There’s a peak around day 2 or 3. And there’s another peak around day 7 or 8 with some of these reactions. Only 27% who had a reaction with the first dose had the same reaction with the second.” She added that these reactions “are not cellulitis and don’t require antibiotics.”

Other more common reactions included local injection-site reactions (swelling, erythema, and pain), urticaria (after 24 hours in almost all cases, occurring at a higher rate in patients who received the Pfizer vaccine), and morbilliform eruptions.

Dr. Freeman said that patients may experience redness and swelling in the hands and feet that can be “very uncomfortable.” She described one patient “who was having a hard time actually closing his fist, just because of the amount of swelling and redness in his hand. It did resolve, and it’s important to reassure your patients it will go away.”

According to this study, less common reports of other cutaneous findings with both vaccines included 9 reports of swelling at the site of cosmetic fillers, 8 reports of pernio/chilblains, 10 reports of varicella zoster, 4 reports of herpes simplex flares, 4 pityriasis rosea–like reactions, and 4 rashes in infants of vaccinated breastfeeding mothers.

The study noted that “patients responded well to topical corticosteroids, oral antihistamines, and/or pain-relieving medications. These reactions resolved after a median of 3-4 days.”

It’s important to understand that none of the patients developed anaphylaxis after the second dose even if they’d had a reaction to the first dose, Dr. Freeman said. “But I should point out that we’re talking about reactions that have started more than 4 hours after the vaccine. If a rash such as a urticaria specifically starts within 4 hours of vaccination, that’s in a different category. Those are considered more immediate allergic reactions, and those patients need to be seen by allergy before a second dose.”

Dr. Freeman added that “it’s really interesting to think about how our bodies are really reacting to the vaccine in a way that’s mimicking our body’s reactions to COVID-19.” For example, some patients who got vaccinated developed chilblains similar to the “COVID toes” described in infected patients, apparently as part of the body’s immune response to the virus. “We’ve seen this in patients who actually had COVID and had prior COVID toes and then actually got a flare with their vaccine. And then we’ve also seen it in patients who never had COVID.”

In regard to general advice for patients, she said, “I do still encourage my patients who previously had COVID to go ahead and get the vaccine even if they had a skin manifestation with COVID.”

Shari Lipner, MD, PhD, associate professor of clinical dermatology, Weill Cornell Medicine, New York, said she has have seen only a handful of cases of delayed large local reactions and local injection site reactions after COVID-19 vaccination. “I have seen a significant number of cases of acute urticaria following the first and second doses,” she said in an interview. “However, it is important to keep in mind that we cannot determine cause and effect for the cases of acute urticaria. They may or may not be vaccine related.”

Fortunately, none of the adverse effects she’s seen have been severe. “It is important that dermatologists educate the public and their patients that most people do not develop any skin reaction in response to the vaccine,” she said. In the minority who do, “reactions tend to be mild and are not life-threatening. Many of these skin reactions resolve on their own without treatment.”

She added that “patients with pernio/chilblains or herpes zoster following vaccination should be referred by a board-certified dermatologist for prompt treatment and to avoid sequelae.”


 

‘COVID vaccine arm’

Delayed local reactions to the Moderna vaccine were also described in a report published online on May 12, 2021, in JAMA Dermatology, after the AAD meeting, in 16 patients referred to the Yale New Haven (Conn.) Hospital Dermatology service who experienced delayed localized cutaneous hypersensitivity reactions a median of 7 days after receiving the vaccine (range, 2-12 days), from Jan. 20 to Feb. 12, 2021. No such cases were reported in Pfizer vaccine recipients.

Of the 16 patients, whose median age was 38 years and who were mostly women, 15 developed the reaction after the first dose, described as “pruritic and variably painful erythematous reactions near the injection site,” which lasted a median of 5 days (range, 1-21 days). After the second dose, 12 of the 16 patients developed injection-site reactions (including one patient who had no reaction after dose 1), a median of 2 days after the vaccine was administered (range, 0-5 days). Histologic results of a biopsy in one patient with a reaction to the second dose “ demonstrated mild predominantly perivascular and focal interstitial mixed infiltrate with lymphocytes and eosinophils consistent with a dermal hypersensitivity reaction,” wrote Alicia J. Little, MD, PhD, of the department of dermatology, Yale University, New Haven, and coauthors.

Compared with immediate hypersensitivity reactions, occurring within 4 hours of vaccination, such as anaphylaxis and urticaria, they concluded that “these delayed localized hypersensitivity reactions are not a contraindication to subsequent vaccination,” and they proposed that they be named “COVID vaccine arm.”

Dr. Freeman reported no disclosures. Dr. Lipner also had no relevant disclosures. Dr. Little reported receiving a grant from the National Center for Advancing Translational Science and a Women’s Health Career Development Award from the Dermatology Foundation while the study was conducted; another author reported equity in Johnson & Johnson in his spouse’s retirement fund outside the submitted work.
 

Patients who receive the mRNA COVID-19 vaccines are experiencing a variety of skin rashes, a dermatologist told colleagues, and some lesions don’t appear until several days after an injection. The good news is that these side effects tend to be minor and vanish within a few days, Esther Freeman, MD, PhD, said in a presentation at the American Academy of Dermatology Virtual Meeting Experience.

“The reality is actually very reassuring,” Dr. Freeman said, especially in light of what is currently known about when the rashes occur and how anaphylaxis is extremely uncommon. Now, she added, dermatologists can tell patients who had reactions to their initial vaccination that “we know you had this big reaction, and we know that it was upsetting and uncomfortable. But it may not happen the second time around. And if it does, [the reaction is] probably going to be smaller.”

Dr. Freeman, associate professor of dermatology at Harvard Medical School, Boston, highlighted a study published in the Journal of the American Academy of Dermatology that she coauthored with dermatologists across the United States. The researchers tracked 414 cutaneous reactions to the Moderna (83%) and Pfizer (17%) COVID-19 vaccines in a group of patients, which was 90% female, 78% White, and mostly from the United States. Their average age was 44 years. The cases were reported to the AAD–International League of Dermatological Societies registry of COVID-19 cutaneous manifestations.

While most were women, “it’s a little hard to know if this is really going to end up being a true finding,” said Dr. Freeman, the registry’s principal investigator and a member of the AAD’s COVID-19 Ad Hoc Task Force. “If you think about who got vaccinated early, it was health care providers, and the American health care workforce is over 70% female. So I think there’s a little bit of bias here. There may also be a bias because women may be slightly more likely to report or go to their health care provider for a rash.”

Delayed large local reactions were the most common, accounting for 66% (175 cases) of the 267 skin reactions reported after the first Moderna vaccine dose and 30% (31 cases) of the 102 reactions reported after the second dose. These reactions represented 15% (5 cases) of the 34 skin reactions reported after the first Pfizer vaccine dose and 18% (7 cases) of the 40 reactions after the second dose.

There are two peaks with that first dose, Dr. Freeman said. “There’s a peak around day 2 or 3. And there’s another peak around day 7 or 8 with some of these reactions. Only 27% who had a reaction with the first dose had the same reaction with the second.” She added that these reactions “are not cellulitis and don’t require antibiotics.”

Other more common reactions included local injection-site reactions (swelling, erythema, and pain), urticaria (after 24 hours in almost all cases, occurring at a higher rate in patients who received the Pfizer vaccine), and morbilliform eruptions.

Dr. Freeman said that patients may experience redness and swelling in the hands and feet that can be “very uncomfortable.” She described one patient “who was having a hard time actually closing his fist, just because of the amount of swelling and redness in his hand. It did resolve, and it’s important to reassure your patients it will go away.”

According to this study, less common reports of other cutaneous findings with both vaccines included 9 reports of swelling at the site of cosmetic fillers, 8 reports of pernio/chilblains, 10 reports of varicella zoster, 4 reports of herpes simplex flares, 4 pityriasis rosea–like reactions, and 4 rashes in infants of vaccinated breastfeeding mothers.

The study noted that “patients responded well to topical corticosteroids, oral antihistamines, and/or pain-relieving medications. These reactions resolved after a median of 3-4 days.”

It’s important to understand that none of the patients developed anaphylaxis after the second dose even if they’d had a reaction to the first dose, Dr. Freeman said. “But I should point out that we’re talking about reactions that have started more than 4 hours after the vaccine. If a rash such as a urticaria specifically starts within 4 hours of vaccination, that’s in a different category. Those are considered more immediate allergic reactions, and those patients need to be seen by allergy before a second dose.”

Dr. Freeman added that “it’s really interesting to think about how our bodies are really reacting to the vaccine in a way that’s mimicking our body’s reactions to COVID-19.” For example, some patients who got vaccinated developed chilblains similar to the “COVID toes” described in infected patients, apparently as part of the body’s immune response to the virus. “We’ve seen this in patients who actually had COVID and had prior COVID toes and then actually got a flare with their vaccine. And then we’ve also seen it in patients who never had COVID.”

In regard to general advice for patients, she said, “I do still encourage my patients who previously had COVID to go ahead and get the vaccine even if they had a skin manifestation with COVID.”

Shari Lipner, MD, PhD, associate professor of clinical dermatology, Weill Cornell Medicine, New York, said she has have seen only a handful of cases of delayed large local reactions and local injection site reactions after COVID-19 vaccination. “I have seen a significant number of cases of acute urticaria following the first and second doses,” she said in an interview. “However, it is important to keep in mind that we cannot determine cause and effect for the cases of acute urticaria. They may or may not be vaccine related.”

Fortunately, none of the adverse effects she’s seen have been severe. “It is important that dermatologists educate the public and their patients that most people do not develop any skin reaction in response to the vaccine,” she said. In the minority who do, “reactions tend to be mild and are not life-threatening. Many of these skin reactions resolve on their own without treatment.”

She added that “patients with pernio/chilblains or herpes zoster following vaccination should be referred by a board-certified dermatologist for prompt treatment and to avoid sequelae.”


 

‘COVID vaccine arm’

Delayed local reactions to the Moderna vaccine were also described in a report published online on May 12, 2021, in JAMA Dermatology, after the AAD meeting, in 16 patients referred to the Yale New Haven (Conn.) Hospital Dermatology service who experienced delayed localized cutaneous hypersensitivity reactions a median of 7 days after receiving the vaccine (range, 2-12 days), from Jan. 20 to Feb. 12, 2021. No such cases were reported in Pfizer vaccine recipients.

Of the 16 patients, whose median age was 38 years and who were mostly women, 15 developed the reaction after the first dose, described as “pruritic and variably painful erythematous reactions near the injection site,” which lasted a median of 5 days (range, 1-21 days). After the second dose, 12 of the 16 patients developed injection-site reactions (including one patient who had no reaction after dose 1), a median of 2 days after the vaccine was administered (range, 0-5 days). Histologic results of a biopsy in one patient with a reaction to the second dose “ demonstrated mild predominantly perivascular and focal interstitial mixed infiltrate with lymphocytes and eosinophils consistent with a dermal hypersensitivity reaction,” wrote Alicia J. Little, MD, PhD, of the department of dermatology, Yale University, New Haven, and coauthors.

Compared with immediate hypersensitivity reactions, occurring within 4 hours of vaccination, such as anaphylaxis and urticaria, they concluded that “these delayed localized hypersensitivity reactions are not a contraindication to subsequent vaccination,” and they proposed that they be named “COVID vaccine arm.”

Dr. Freeman reported no disclosures. Dr. Lipner also had no relevant disclosures. Dr. Little reported receiving a grant from the National Center for Advancing Translational Science and a Women’s Health Career Development Award from the Dermatology Foundation while the study was conducted; another author reported equity in Johnson & Johnson in his spouse’s retirement fund outside the submitted work.
 

Federal guidance on indoor mask use may change soon, Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, said on May 9.

He was asked whether it’s time to start relaxing indoor mask requirements.

“I think so, and I think you’re going to probably be seeing that as we go along and as more people get vaccinated,” Dr. Fauci said on ABC News’s This Week.Nearly 150 million adults in the United States – or about 58% of the adult population – have received at least one COVID-19 vaccine dose, according to the latest CDC tally. About 113 million adults, or 44%, are considered fully vaccinated.

“The CDC will be, you know, almost in real time … updating their recommendations and their guidelines,” Dr. Fauci said.

In April, the CDC relaxed its guidance for those who have been vaccinated against COVID-19. Those who have gotten a shot don’t need to wear a mask outdoors or in small indoor gatherings with other vaccinated people, but both vaccinated and unvaccinated people are still advised to wear masks in indoor public spaces.

“We do need to start being more liberal as we get more people vaccinated,” Dr. Fauci said. “As you get more people vaccinated, the number of cases per day will absolutely go down.”

The United States is averaging about 43,000 cases per day, he said, adding that the cases need to be “much, much lower.” When the case numbers drop and vaccination numbers increase, the risk of infection will fall dramatically indoors and outdoors, he said.

Even after the pandemic, though, wearing masks could become a seasonal habit, Dr. Fauci said May 9 on NBC News’s Meet the Press.“I think people have gotten used to the fact that wearing masks, clearly if you look at the data, it diminishes respiratory diseases. We’ve had practically a nonexistent flu season this year,” he said.

“So it is conceivable that as we go on, a year or 2 or more from now, that during certain seasonal periods when you have respiratory-borne viruses like the flu, people might actually elect to wear masks to diminish the likelihood that you’ll spread these respiratory-borne diseases,” he said.

Dr. Fauci was asked about indoor mask guidelines on May 9 after former FDA Commissioner Scott Gottlieb, MD, said face mask requirements should be relaxed.

“Certainly outdoors, we shouldn’t be putting limits on gatherings anymore,” Dr. Gottlieb said on CBS News’s Face the Nation.“The states where prevalence is low, vaccination rates are high, we have good testing in place, and we’re identifying infections, I think we could start lifting these restrictions indoors as well, on a broad basis,” he said.

Lifting pandemic-related restrictions in areas where they’re no longer necessary could also encourage people to implement them again if cases increase during future surges, such as this fall or winter, Dr. Gottlieb said.

At the same time, Americans should continue to follow CDC guidance and wait for new guidelines before changing their indoor mask use, Jeffrey Zients, the White House COVID-19 response coordinator, said on CNN’s State of the Union on May 9.

“We all want to get back to a normal lifestyle,” he said. “I think we’re on the path to do that, but stay disciplined, and let’s take advantage of the new privilege of being vaccinated and not wearing masks outdoors, for example, unless you’re in a crowded place.”

Mr. Zients pointed to President Joe Biden’s goal for 70% of adults to receive at least one vaccine dose by July 4.

“As we all move toward that 70% goal, there will be more and more advantages to being vaccinated,” he said. “And if you’re not vaccinated, you’re not protected.”

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

Federal guidance on indoor mask use may change soon, Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, said on May 9.

He was asked whether it’s time to start relaxing indoor mask requirements.

“I think so, and I think you’re going to probably be seeing that as we go along and as more people get vaccinated,” Dr. Fauci said on ABC News’s This Week.Nearly 150 million adults in the United States – or about 58% of the adult population – have received at least one COVID-19 vaccine dose, according to the latest CDC tally. About 113 million adults, or 44%, are considered fully vaccinated.

“The CDC will be, you know, almost in real time … updating their recommendations and their guidelines,” Dr. Fauci said.

In April, the CDC relaxed its guidance for those who have been vaccinated against COVID-19. Those who have gotten a shot don’t need to wear a mask outdoors or in small indoor gatherings with other vaccinated people, but both vaccinated and unvaccinated people are still advised to wear masks in indoor public spaces.

“We do need to start being more liberal as we get more people vaccinated,” Dr. Fauci said. “As you get more people vaccinated, the number of cases per day will absolutely go down.”

The United States is averaging about 43,000 cases per day, he said, adding that the cases need to be “much, much lower.” When the case numbers drop and vaccination numbers increase, the risk of infection will fall dramatically indoors and outdoors, he said.

Even after the pandemic, though, wearing masks could become a seasonal habit, Dr. Fauci said May 9 on NBC News’s Meet the Press.“I think people have gotten used to the fact that wearing masks, clearly if you look at the data, it diminishes respiratory diseases. We’ve had practically a nonexistent flu season this year,” he said.

“So it is conceivable that as we go on, a year or 2 or more from now, that during certain seasonal periods when you have respiratory-borne viruses like the flu, people might actually elect to wear masks to diminish the likelihood that you’ll spread these respiratory-borne diseases,” he said.

Dr. Fauci was asked about indoor mask guidelines on May 9 after former FDA Commissioner Scott Gottlieb, MD, said face mask requirements should be relaxed.

“Certainly outdoors, we shouldn’t be putting limits on gatherings anymore,” Dr. Gottlieb said on CBS News’s Face the Nation.“The states where prevalence is low, vaccination rates are high, we have good testing in place, and we’re identifying infections, I think we could start lifting these restrictions indoors as well, on a broad basis,” he said.

Lifting pandemic-related restrictions in areas where they’re no longer necessary could also encourage people to implement them again if cases increase during future surges, such as this fall or winter, Dr. Gottlieb said.

At the same time, Americans should continue to follow CDC guidance and wait for new guidelines before changing their indoor mask use, Jeffrey Zients, the White House COVID-19 response coordinator, said on CNN’s State of the Union on May 9.

“We all want to get back to a normal lifestyle,” he said. “I think we’re on the path to do that, but stay disciplined, and let’s take advantage of the new privilege of being vaccinated and not wearing masks outdoors, for example, unless you’re in a crowded place.”

Mr. Zients pointed to President Joe Biden’s goal for 70% of adults to receive at least one vaccine dose by July 4.

“As we all move toward that 70% goal, there will be more and more advantages to being vaccinated,” he said. “And if you’re not vaccinated, you’re not protected.”

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

Federal guidance on indoor mask use may change soon, Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, said on May 9.

He was asked whether it’s time to start relaxing indoor mask requirements.

“I think so, and I think you’re going to probably be seeing that as we go along and as more people get vaccinated,” Dr. Fauci said on ABC News’s This Week.Nearly 150 million adults in the United States – or about 58% of the adult population – have received at least one COVID-19 vaccine dose, according to the latest CDC tally. About 113 million adults, or 44%, are considered fully vaccinated.

“The CDC will be, you know, almost in real time … updating their recommendations and their guidelines,” Dr. Fauci said.

In April, the CDC relaxed its guidance for those who have been vaccinated against COVID-19. Those who have gotten a shot don’t need to wear a mask outdoors or in small indoor gatherings with other vaccinated people, but both vaccinated and unvaccinated people are still advised to wear masks in indoor public spaces.

“We do need to start being more liberal as we get more people vaccinated,” Dr. Fauci said. “As you get more people vaccinated, the number of cases per day will absolutely go down.”

The United States is averaging about 43,000 cases per day, he said, adding that the cases need to be “much, much lower.” When the case numbers drop and vaccination numbers increase, the risk of infection will fall dramatically indoors and outdoors, he said.

Even after the pandemic, though, wearing masks could become a seasonal habit, Dr. Fauci said May 9 on NBC News’s Meet the Press.“I think people have gotten used to the fact that wearing masks, clearly if you look at the data, it diminishes respiratory diseases. We’ve had practically a nonexistent flu season this year,” he said.

“So it is conceivable that as we go on, a year or 2 or more from now, that during certain seasonal periods when you have respiratory-borne viruses like the flu, people might actually elect to wear masks to diminish the likelihood that you’ll spread these respiratory-borne diseases,” he said.

Dr. Fauci was asked about indoor mask guidelines on May 9 after former FDA Commissioner Scott Gottlieb, MD, said face mask requirements should be relaxed.

“Certainly outdoors, we shouldn’t be putting limits on gatherings anymore,” Dr. Gottlieb said on CBS News’s Face the Nation.“The states where prevalence is low, vaccination rates are high, we have good testing in place, and we’re identifying infections, I think we could start lifting these restrictions indoors as well, on a broad basis,” he said.

Lifting pandemic-related restrictions in areas where they’re no longer necessary could also encourage people to implement them again if cases increase during future surges, such as this fall or winter, Dr. Gottlieb said.

At the same time, Americans should continue to follow CDC guidance and wait for new guidelines before changing their indoor mask use, Jeffrey Zients, the White House COVID-19 response coordinator, said on CNN’s State of the Union on May 9.

“We all want to get back to a normal lifestyle,” he said. “I think we’re on the path to do that, but stay disciplined, and let’s take advantage of the new privilege of being vaccinated and not wearing masks outdoors, for example, unless you’re in a crowded place.”

Mr. Zients pointed to President Joe Biden’s goal for 70% of adults to receive at least one vaccine dose by July 4.

“As we all move toward that 70% goal, there will be more and more advantages to being vaccinated,” he said. “And if you’re not vaccinated, you’re not protected.”

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

The Food and Drug Administration on May 10 granted emergency use authorization (EUA) for the Pfizer coronavirus vaccine to be given to children 12-15 years old.  

The much-expected decision increases the likelihood that schools in the United States will fully reopen in the fall – a goal of both the Biden and Trump administrations.

Acting FDA Commissioner Janet Woodcock, MD, called the decision “a significant step” in “returning to a sense of normalcy.”

“Today’s action allows for a younger population to be protected from COVID-19, bringing us closer to returning to a sense of normalcy and to ending the pandemic,” she said in a statement. “Parents and guardians can rest assured that the agency undertook a rigorous and thorough review of all available data, as we have with all of our COVID-19 vaccine emergency use authorizations.”

The Pfizer adolescent vaccine is not yet a done deal, though.

Next, the Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices will decide on May 12 whether to recommend use of the vaccine in this age group. After that, CDC Director Rochelle Walensky, MD, will decide whether to give the green light for the vaccine to be administered to that age group.

The FDA action on May 10 amends the Dec. 11, 2020, emergency use authorization that allowed the Pfizer vaccine to be given to people 16 and older. Pfizer was the first company to receive an EUA for its adult vaccine and is the first to receive authorization for its adolescent vaccine. Pfizer is conducting clinical trials on much younger children, too.

The Moderna and Johnson & Johnson vaccines are authorized for people 18 and up. Moderna also has launched clinical trials in children.

Most health experts have said the United States needs to vaccinate children before the COVID-19 pandemic can truly be brought under control. The 12- to 15-year-old group represents 17 million people, about 5% of the population. Thus far, 58% of U.S. adults have had at least one dose of a vaccine and 34.8% of all Americans are fully vaccinated.

American Academy of Pediatrics President Lee Savio Beers, MD, praised the agency’s decision, calling it a “critically important step in bringing life-saving vaccines to children and adolescents. Our youngest generations have shouldered heavy burdens over the past year, and the vaccine is a hopeful sign that they will be able to begin to experience all the activities that are so important for their health and development.”

President Joe Biden recently announced a new strategy for expanding vaccinations in which vaccinating 12- to 15-year-olds was a key component. He said the administration was ready to ship the adolescent vaccine directly to pharmacies and pediatricians to speed up the vaccination rate.

In March, Anthony S. Fauci, MD, told a Senate committee, “We don’t really know what that magical point of herd immunity is, but we do know that if we get the overwhelming population vaccinated, we’re going to be in good shape. … We ultimately would like to get and have to get children into that mix.” 

Pfizer submitted data to the FDA in late March showing its mRNA vaccine was 100% effective at preventing COVID-19 infection in children ages 12-15 in clinical trials.

Though most children have milder symptoms when infected with the coronavirus, about 1.5 million cases in children aged 11-17 were reported to the CDC between March 1, 2020, and April 30 of this year, the FDA news release said.

Albert Bourla, CEO of Pfizer, tweeted that “today brings very encouraging news for families and adolescents across the United States.

“While this is a meaningful step forward, we are still in a critical period of combating #COVID19 around the world. In the coming weeks, we hope to continue to receive authorizations from global regulators to support worldwide vaccination efforts,” he said. 

“It’s essential for children to be vaccinated against COVID-19. According to data compiled by the AAP and Children’s Hospital Association, more than 3.8 million children have tested positive for COVID-19 in the United States since the start of the pandemic,” said Dr. Savio Beers. “While fewer children than adults have suffered the most severe disease, this is not a benign disease in children. Thousands of children have been hospitalized, and hundreds have died. We will soon have a very safe, highly effective vaccine that can prevent so much suffering. I encourage parents to talk with their pediatricians about how to get the vaccine for their adolescents as soon as they are eligible.”

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