Journal of Clinical Outcomes Management

Children should not return to sports for 14 days after exposure to COVID-19, and those with moderate symptoms should undergo an electrocardiogram before returning, according to the American Academy of Pediatrics.

The recommendations, which update the academy’s July 23 guidance, stem from new concerns that the disease can cause myocarditis, said Susannah Briskin, MD, a pediatric sports medicine specialist at Rainbow Babies and Children’s Hospital in Cleveland.

“There has been emerging evidence about cases of myocarditis occurring in athletes, including athletes who are asymptomatic with COVID-19,” she said in an interview.

The update aligns the AAP recommendations with those from the American College of Cardiologists, she added.

Recent imaging studies have turned up signs of myocarditis in athletes recovering from mild or asymptomatic cases of COVID-19 and have prompted calls for clearer guidelines about imaging studies and return to play.

Viral myocarditis poses a risk to athletes because it can lead to potentially fatal arrhythmias, Dr. Briskin said.

Although children benefit from participating in sports, these activities also put them at risk of contracting COVID-19 and spreading it to others, the guidance noted.

To balance the risks and benefits, the academy proposed guidelines that vary depending on the severity of the presentation.

In the first category are patients with a severe presentation (hypotension, arrhythmias, need for intubation or extracorporeal membrane oxygenation support, kidney or cardiac failure) or with multisystem inflammatory syndrome. Clinicians should treat these patients as though they have myocarditis. Patients should be restricted from engaging in sports and other exercise for 3-6 months, the guidance stated.

The primary care physician and “appropriate pediatric medical subspecialist, preferably in consultation with a pediatric cardiologist,” should clear them before they return to activities. In examining patients for return to play, clinicians should focus on cardiac symptoms, including chest pain, shortness of breath, fatigue, palpitations, or syncope, the guidance said.

In another category are patients with cardiac symptoms, those with concerning findings on examination, and those with moderate symptoms of COVID-19, including prolonged fever. These patients should undergo an ECG and possibly be referred to a pediatric cardiologist, the guidelines said. These symptoms must be absent for at least 14 days before these patients can return to sports, and the athletes should obtain clearance from their primary care physicians before they resume.

In a third category are patients who have been infected with SARS-CoV-2 or who have had close contact with someone who was infected but who have not themselves experienced symptoms. These athletes should refrain from sports for at least 14 days, the guidelines said.

Children who don’t fall into any of these categories should not be tested for the virus or antibodies to it before participation in sports, the academy said.

The guidelines don’t vary depending on the sport. But the academy has issued separate guidance for parents and guardians to help them evaluate the risk for COVID-19 transmission by sport.

Athletes participating in “sports that have greater amount of contact time or proximity to people would be at higher risk for contracting COVID-19,” Dr. Briskin said. “But I think that’s all fairly common sense, given the recommendations for non–sport-related activity just in terms of social distancing and masking.”

The new guidance called on sports organizers to minimize contact by, for example, modifying drills and conditioning. It recommended that athletes wear masks except during vigorous exercise or when participating in water sports, as well as in other circumstances in which the mask could become a safety hazard.

They also recommended using handwashing stations or hand sanitizer, avoiding contact with shared surfaces, and avoiding small rooms and areas with poor ventilation.

Dr. Briskin disclosed no relevant financial relationships.

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

Children should not return to sports for 14 days after exposure to COVID-19, and those with moderate symptoms should undergo an electrocardiogram before returning, according to the American Academy of Pediatrics.

The recommendations, which update the academy’s July 23 guidance, stem from new concerns that the disease can cause myocarditis, said Susannah Briskin, MD, a pediatric sports medicine specialist at Rainbow Babies and Children’s Hospital in Cleveland.

“There has been emerging evidence about cases of myocarditis occurring in athletes, including athletes who are asymptomatic with COVID-19,” she said in an interview.

The update aligns the AAP recommendations with those from the American College of Cardiologists, she added.

Recent imaging studies have turned up signs of myocarditis in athletes recovering from mild or asymptomatic cases of COVID-19 and have prompted calls for clearer guidelines about imaging studies and return to play.

Viral myocarditis poses a risk to athletes because it can lead to potentially fatal arrhythmias, Dr. Briskin said.

Although children benefit from participating in sports, these activities also put them at risk of contracting COVID-19 and spreading it to others, the guidance noted.

To balance the risks and benefits, the academy proposed guidelines that vary depending on the severity of the presentation.

In the first category are patients with a severe presentation (hypotension, arrhythmias, need for intubation or extracorporeal membrane oxygenation support, kidney or cardiac failure) or with multisystem inflammatory syndrome. Clinicians should treat these patients as though they have myocarditis. Patients should be restricted from engaging in sports and other exercise for 3-6 months, the guidance stated.

The primary care physician and “appropriate pediatric medical subspecialist, preferably in consultation with a pediatric cardiologist,” should clear them before they return to activities. In examining patients for return to play, clinicians should focus on cardiac symptoms, including chest pain, shortness of breath, fatigue, palpitations, or syncope, the guidance said.

In another category are patients with cardiac symptoms, those with concerning findings on examination, and those with moderate symptoms of COVID-19, including prolonged fever. These patients should undergo an ECG and possibly be referred to a pediatric cardiologist, the guidelines said. These symptoms must be absent for at least 14 days before these patients can return to sports, and the athletes should obtain clearance from their primary care physicians before they resume.

In a third category are patients who have been infected with SARS-CoV-2 or who have had close contact with someone who was infected but who have not themselves experienced symptoms. These athletes should refrain from sports for at least 14 days, the guidelines said.

Children who don’t fall into any of these categories should not be tested for the virus or antibodies to it before participation in sports, the academy said.

The guidelines don’t vary depending on the sport. But the academy has issued separate guidance for parents and guardians to help them evaluate the risk for COVID-19 transmission by sport.

Athletes participating in “sports that have greater amount of contact time or proximity to people would be at higher risk for contracting COVID-19,” Dr. Briskin said. “But I think that’s all fairly common sense, given the recommendations for non–sport-related activity just in terms of social distancing and masking.”

The new guidance called on sports organizers to minimize contact by, for example, modifying drills and conditioning. It recommended that athletes wear masks except during vigorous exercise or when participating in water sports, as well as in other circumstances in which the mask could become a safety hazard.

They also recommended using handwashing stations or hand sanitizer, avoiding contact with shared surfaces, and avoiding small rooms and areas with poor ventilation.

Dr. Briskin disclosed no relevant financial relationships.

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

Children should not return to sports for 14 days after exposure to COVID-19, and those with moderate symptoms should undergo an electrocardiogram before returning, according to the American Academy of Pediatrics.

The recommendations, which update the academy’s July 23 guidance, stem from new concerns that the disease can cause myocarditis, said Susannah Briskin, MD, a pediatric sports medicine specialist at Rainbow Babies and Children’s Hospital in Cleveland.

“There has been emerging evidence about cases of myocarditis occurring in athletes, including athletes who are asymptomatic with COVID-19,” she said in an interview.

The update aligns the AAP recommendations with those from the American College of Cardiologists, she added.

Recent imaging studies have turned up signs of myocarditis in athletes recovering from mild or asymptomatic cases of COVID-19 and have prompted calls for clearer guidelines about imaging studies and return to play.

Viral myocarditis poses a risk to athletes because it can lead to potentially fatal arrhythmias, Dr. Briskin said.

Although children benefit from participating in sports, these activities also put them at risk of contracting COVID-19 and spreading it to others, the guidance noted.

To balance the risks and benefits, the academy proposed guidelines that vary depending on the severity of the presentation.

In the first category are patients with a severe presentation (hypotension, arrhythmias, need for intubation or extracorporeal membrane oxygenation support, kidney or cardiac failure) or with multisystem inflammatory syndrome. Clinicians should treat these patients as though they have myocarditis. Patients should be restricted from engaging in sports and other exercise for 3-6 months, the guidance stated.

The primary care physician and “appropriate pediatric medical subspecialist, preferably in consultation with a pediatric cardiologist,” should clear them before they return to activities. In examining patients for return to play, clinicians should focus on cardiac symptoms, including chest pain, shortness of breath, fatigue, palpitations, or syncope, the guidance said.

In another category are patients with cardiac symptoms, those with concerning findings on examination, and those with moderate symptoms of COVID-19, including prolonged fever. These patients should undergo an ECG and possibly be referred to a pediatric cardiologist, the guidelines said. These symptoms must be absent for at least 14 days before these patients can return to sports, and the athletes should obtain clearance from their primary care physicians before they resume.

In a third category are patients who have been infected with SARS-CoV-2 or who have had close contact with someone who was infected but who have not themselves experienced symptoms. These athletes should refrain from sports for at least 14 days, the guidelines said.

Children who don’t fall into any of these categories should not be tested for the virus or antibodies to it before participation in sports, the academy said.

The guidelines don’t vary depending on the sport. But the academy has issued separate guidance for parents and guardians to help them evaluate the risk for COVID-19 transmission by sport.

Athletes participating in “sports that have greater amount of contact time or proximity to people would be at higher risk for contracting COVID-19,” Dr. Briskin said. “But I think that’s all fairly common sense, given the recommendations for non–sport-related activity just in terms of social distancing and masking.”

The new guidance called on sports organizers to minimize contact by, for example, modifying drills and conditioning. It recommended that athletes wear masks except during vigorous exercise or when participating in water sports, as well as in other circumstances in which the mask could become a safety hazard.

They also recommended using handwashing stations or hand sanitizer, avoiding contact with shared surfaces, and avoiding small rooms and areas with poor ventilation.

Dr. Briskin disclosed no relevant financial relationships.

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

Women are known to lag 5-10 years behind men in experiencing coronary heart disease (CHD), but new research suggests the gap narrows substantially following a myocardial infarction.

“Women lose a considerable portion, but not all, of their coronary and survival advantage – i.e., the lower event rates – after suffering a MI,” study author Sanne Peters, PhD, George Institute for Global Health, Imperial College London, said in an interview.

Previous studies of sex differences in event rates after a coronary event have produced mixed results and were primarily focused on mortality following MI. Importantly, the studies also lacked a control group without a history of CHD and, thus, were unable to provide a reference point for the disparity in event rates, she explained.

Using the MarketScan and Medicare databases, however, Dr. Peters and colleagues matched 339,890 U.S. adults hospitalized for an MI between January 2015 and December 2016 with 1,359,560 U.S. adults without a history of CHD.

Over a median 1.3 years follow-up, there were 12,518 MIs in the non-CHD group and 27,115 recurrent MIs in the MI group.

The age-standardized rate of MI per 1,000 person-years was 4.0 in women and 6.1 in men without a history of CHD, compared with 57.6 in women and 62.7 in men with a prior MI.

After multivariate adjustment, the women-to-men hazard ratio for MI was 0.64 (95% confidence interval, 0.62-0.67) in the non-CHD group and 0.94 (95% CI, 0.92-0.96) in the prior MI group, the authors reported Oct. 5 in the Journal of the American College of Cardiology

Additional results show the multivariate adjusted women-to-men hazard ratios for three other cardiovascular outcomes follow a similar pattern in the non-CHD and prior MI groups:

• CHD events: 0.53 (95% CI, 0.51-0.54) and 0.87 (95% CI, 0.85-0.89).
• Heart failure hospitalization: 0.93 (95% CI, 0.90-0.96) and 1.02 (95% CI, 1.00-1.04).
• All-cause mortality: 0.72 (95% CI, 0.71-0.73) and 0.90 (95% CI, 0.89-0.92).

“By including a control group of individuals without CHD, we demonstrated that the magnitude of the sex difference in cardiac event rates and survival is considerably smaller among those with prior MI than among those without a history of CHD,” Dr. Peters said.

Of note, the sex differences were consistent across age and race/ethnicity groups for all events, except for heart failure hospitalizations, where the adjusted hazard ratio for women vs. men age 80 years or older was 0.95 for those without a history of CHD (95% CI, 0.91-0.98) and 0.99 (95% CI, 0.96-1.02) for participants with a previous MI.

Dr. Peters said it’s not clear why the female advantage is attenuated post-MI but that one explanation is that women are less likely than men to receive guideline-recommended treatments and dosages or to adhere to prescribed therapies after MI hospitalization, which could put them at a higher risk of subsequent events and worse outcomes than men.

“Sex differences in pathophysiology of CHD and its complications may also explain, to some extent, why the rates of recurrent events are considerably more similar between the sexes than incident event rates,” she said. Compared with men, women have a higher incidence of MI with nonobstructive coronary artery disease and of heart failure with preserved ejection fraction, and evidence-based treatment options are more limited for both conditions.

“After people read this, I think the important thing to recognize is we need to push– as much as we can, with what meds we have, and what data we have – secondary prevention in these women,” Laxmi Mehta, MD, director of preventive cardiology and women’s cardiovascular health at Ohio State University, Columbus, said in an interview.

The lack of a female advantage post-MI should also elicit a “really meaningful conversation with our patients on shared decision-making of why they need to be on medications, remembering on our part to prescribe the medications, remembering to prescribe cardiac rehab, and also reminding our community we do need more data and need to investigate this further,” she said.

In an accompanying editorial, Nanette Wenger, MD, of Emory University, Atlanta, also points out that nonobstructive coronary disease is more common in women and, “yet, guideline-based therapies are those validated for obstructive coronary disease in a predominantly male population but, nonetheless, are applied for nonobstructive coronary disease.”

She advocates for aggressive evaluation and treatment for women with chest pain symptoms as well as early identification of women at risk for CHD, specifically those with metabolic syndrome, preeclampsia, hypertensive disorders of pregnancy, chronic inflammatory conditions, and high-risk race/ethnicity.

“Next, when coronary angiography is undertaken, particularly in younger women, an assiduous search for spontaneous coronary artery dissection and its appropriate management, as well as prompt and evidence-based interventions and medical therapies for an acute coronary event [are indicated],” Dr. Wenger wrote. “However, basic to improving outcomes for women is the elucidation of the optimal noninvasive techniques to identify microvascular disease, which could then enable delineation of appropriate preventive and therapeutic approaches.”

Dr. Peters is supported by a U.K. Medical Research Council Skills Development Fellowship. Dr. Mehta and Dr. Wenger disclosed no relevant financial relationships.

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

Women are known to lag 5-10 years behind men in experiencing coronary heart disease (CHD), but new research suggests the gap narrows substantially following a myocardial infarction.

“Women lose a considerable portion, but not all, of their coronary and survival advantage – i.e., the lower event rates – after suffering a MI,” study author Sanne Peters, PhD, George Institute for Global Health, Imperial College London, said in an interview.

Previous studies of sex differences in event rates after a coronary event have produced mixed results and were primarily focused on mortality following MI. Importantly, the studies also lacked a control group without a history of CHD and, thus, were unable to provide a reference point for the disparity in event rates, she explained.

Using the MarketScan and Medicare databases, however, Dr. Peters and colleagues matched 339,890 U.S. adults hospitalized for an MI between January 2015 and December 2016 with 1,359,560 U.S. adults without a history of CHD.

Over a median 1.3 years follow-up, there were 12,518 MIs in the non-CHD group and 27,115 recurrent MIs in the MI group.

The age-standardized rate of MI per 1,000 person-years was 4.0 in women and 6.1 in men without a history of CHD, compared with 57.6 in women and 62.7 in men with a prior MI.

After multivariate adjustment, the women-to-men hazard ratio for MI was 0.64 (95% confidence interval, 0.62-0.67) in the non-CHD group and 0.94 (95% CI, 0.92-0.96) in the prior MI group, the authors reported Oct. 5 in the Journal of the American College of Cardiology

Additional results show the multivariate adjusted women-to-men hazard ratios for three other cardiovascular outcomes follow a similar pattern in the non-CHD and prior MI groups:

• CHD events: 0.53 (95% CI, 0.51-0.54) and 0.87 (95% CI, 0.85-0.89).
• Heart failure hospitalization: 0.93 (95% CI, 0.90-0.96) and 1.02 (95% CI, 1.00-1.04).
• All-cause mortality: 0.72 (95% CI, 0.71-0.73) and 0.90 (95% CI, 0.89-0.92).

“By including a control group of individuals without CHD, we demonstrated that the magnitude of the sex difference in cardiac event rates and survival is considerably smaller among those with prior MI than among those without a history of CHD,” Dr. Peters said.

Of note, the sex differences were consistent across age and race/ethnicity groups for all events, except for heart failure hospitalizations, where the adjusted hazard ratio for women vs. men age 80 years or older was 0.95 for those without a history of CHD (95% CI, 0.91-0.98) and 0.99 (95% CI, 0.96-1.02) for participants with a previous MI.

Dr. Peters said it’s not clear why the female advantage is attenuated post-MI but that one explanation is that women are less likely than men to receive guideline-recommended treatments and dosages or to adhere to prescribed therapies after MI hospitalization, which could put them at a higher risk of subsequent events and worse outcomes than men.

“Sex differences in pathophysiology of CHD and its complications may also explain, to some extent, why the rates of recurrent events are considerably more similar between the sexes than incident event rates,” she said. Compared with men, women have a higher incidence of MI with nonobstructive coronary artery disease and of heart failure with preserved ejection fraction, and evidence-based treatment options are more limited for both conditions.

“After people read this, I think the important thing to recognize is we need to push– as much as we can, with what meds we have, and what data we have – secondary prevention in these women,” Laxmi Mehta, MD, director of preventive cardiology and women’s cardiovascular health at Ohio State University, Columbus, said in an interview.

The lack of a female advantage post-MI should also elicit a “really meaningful conversation with our patients on shared decision-making of why they need to be on medications, remembering on our part to prescribe the medications, remembering to prescribe cardiac rehab, and also reminding our community we do need more data and need to investigate this further,” she said.

In an accompanying editorial, Nanette Wenger, MD, of Emory University, Atlanta, also points out that nonobstructive coronary disease is more common in women and, “yet, guideline-based therapies are those validated for obstructive coronary disease in a predominantly male population but, nonetheless, are applied for nonobstructive coronary disease.”

She advocates for aggressive evaluation and treatment for women with chest pain symptoms as well as early identification of women at risk for CHD, specifically those with metabolic syndrome, preeclampsia, hypertensive disorders of pregnancy, chronic inflammatory conditions, and high-risk race/ethnicity.

“Next, when coronary angiography is undertaken, particularly in younger women, an assiduous search for spontaneous coronary artery dissection and its appropriate management, as well as prompt and evidence-based interventions and medical therapies for an acute coronary event [are indicated],” Dr. Wenger wrote. “However, basic to improving outcomes for women is the elucidation of the optimal noninvasive techniques to identify microvascular disease, which could then enable delineation of appropriate preventive and therapeutic approaches.”

Dr. Peters is supported by a U.K. Medical Research Council Skills Development Fellowship. Dr. Mehta and Dr. Wenger disclosed no relevant financial relationships.

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

Women are known to lag 5-10 years behind men in experiencing coronary heart disease (CHD), but new research suggests the gap narrows substantially following a myocardial infarction.

“Women lose a considerable portion, but not all, of their coronary and survival advantage – i.e., the lower event rates – after suffering a MI,” study author Sanne Peters, PhD, George Institute for Global Health, Imperial College London, said in an interview.

Previous studies of sex differences in event rates after a coronary event have produced mixed results and were primarily focused on mortality following MI. Importantly, the studies also lacked a control group without a history of CHD and, thus, were unable to provide a reference point for the disparity in event rates, she explained.

Using the MarketScan and Medicare databases, however, Dr. Peters and colleagues matched 339,890 U.S. adults hospitalized for an MI between January 2015 and December 2016 with 1,359,560 U.S. adults without a history of CHD.

Over a median 1.3 years follow-up, there were 12,518 MIs in the non-CHD group and 27,115 recurrent MIs in the MI group.

The age-standardized rate of MI per 1,000 person-years was 4.0 in women and 6.1 in men without a history of CHD, compared with 57.6 in women and 62.7 in men with a prior MI.

After multivariate adjustment, the women-to-men hazard ratio for MI was 0.64 (95% confidence interval, 0.62-0.67) in the non-CHD group and 0.94 (95% CI, 0.92-0.96) in the prior MI group, the authors reported Oct. 5 in the Journal of the American College of Cardiology

Additional results show the multivariate adjusted women-to-men hazard ratios for three other cardiovascular outcomes follow a similar pattern in the non-CHD and prior MI groups:

• CHD events: 0.53 (95% CI, 0.51-0.54) and 0.87 (95% CI, 0.85-0.89).
• Heart failure hospitalization: 0.93 (95% CI, 0.90-0.96) and 1.02 (95% CI, 1.00-1.04).
• All-cause mortality: 0.72 (95% CI, 0.71-0.73) and 0.90 (95% CI, 0.89-0.92).

“By including a control group of individuals without CHD, we demonstrated that the magnitude of the sex difference in cardiac event rates and survival is considerably smaller among those with prior MI than among those without a history of CHD,” Dr. Peters said.

Of note, the sex differences were consistent across age and race/ethnicity groups for all events, except for heart failure hospitalizations, where the adjusted hazard ratio for women vs. men age 80 years or older was 0.95 for those without a history of CHD (95% CI, 0.91-0.98) and 0.99 (95% CI, 0.96-1.02) for participants with a previous MI.

Dr. Peters said it’s not clear why the female advantage is attenuated post-MI but that one explanation is that women are less likely than men to receive guideline-recommended treatments and dosages or to adhere to prescribed therapies after MI hospitalization, which could put them at a higher risk of subsequent events and worse outcomes than men.

“Sex differences in pathophysiology of CHD and its complications may also explain, to some extent, why the rates of recurrent events are considerably more similar between the sexes than incident event rates,” she said. Compared with men, women have a higher incidence of MI with nonobstructive coronary artery disease and of heart failure with preserved ejection fraction, and evidence-based treatment options are more limited for both conditions.

“After people read this, I think the important thing to recognize is we need to push– as much as we can, with what meds we have, and what data we have – secondary prevention in these women,” Laxmi Mehta, MD, director of preventive cardiology and women’s cardiovascular health at Ohio State University, Columbus, said in an interview.

The lack of a female advantage post-MI should also elicit a “really meaningful conversation with our patients on shared decision-making of why they need to be on medications, remembering on our part to prescribe the medications, remembering to prescribe cardiac rehab, and also reminding our community we do need more data and need to investigate this further,” she said.

In an accompanying editorial, Nanette Wenger, MD, of Emory University, Atlanta, also points out that nonobstructive coronary disease is more common in women and, “yet, guideline-based therapies are those validated for obstructive coronary disease in a predominantly male population but, nonetheless, are applied for nonobstructive coronary disease.”

She advocates for aggressive evaluation and treatment for women with chest pain symptoms as well as early identification of women at risk for CHD, specifically those with metabolic syndrome, preeclampsia, hypertensive disorders of pregnancy, chronic inflammatory conditions, and high-risk race/ethnicity.

“Next, when coronary angiography is undertaken, particularly in younger women, an assiduous search for spontaneous coronary artery dissection and its appropriate management, as well as prompt and evidence-based interventions and medical therapies for an acute coronary event [are indicated],” Dr. Wenger wrote. “However, basic to improving outcomes for women is the elucidation of the optimal noninvasive techniques to identify microvascular disease, which could then enable delineation of appropriate preventive and therapeutic approaches.”

Dr. Peters is supported by a U.K. Medical Research Council Skills Development Fellowship. Dr. Mehta and Dr. Wenger disclosed no relevant financial relationships.

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

Having been a reader of Pediatric News for years, I want to bring to light access-to-care issues involving COVID-19 medical facility restrictions for pediatric patients and their parents.

On March 27, 2020, I received a phone call from the Department of Human Services pleading with me to take a medically fragile child who was entering the foster care system that day. He had very specific needs, and they had no one available who could medically meet those needs. The week prior was my kids’ scheduled spring break; the week I got the call was the week that I was voluntarily furloughed from my job as a pediatric nurse practitioner so that I could stay home with my kids as their school would not be reopening for the year, and someone had to be with them. I was already home with my 3-year-old and 6-year-old, so why not add another?

Leo (name changed for privacy) came to me with a multitude of diagnoses, to say the least. Not only did he require physical, speech, and occupational therapy twice weekly, but he often had appointments with 10 different specialists at the local children’s hospital. The first few weeks he was in my care, we had almost daily visits to either therapists or specialists. Keeping up with these types of appointments in a normal world is difficult ... I was getting the crash course on how to navigate all of it in the COVID-19 world.

So now, I am the primary caregiver during the day for my two children and our medically fragile foster child who has multiple medical appointments a week. Our local children’s hospital allowed only the caregiver to accompany him to his visits. In theory this sounds great, right? Fewer people in a facility equals less exposure, less risk, and fewer COVID-19 infections.

But what about the negative consequences of these hospital policies? I have two other children I was caring for. I couldn’t take them to their grandparents’ house because people over age 65 years are at risk of having COVID-19 complications. I had been furloughed, so our income was half what it typically was. Regardless, I had to hire a babysitter each time I took our foster child to the hospital for his appointments because they would not allow my children to accompany me.

Now imagine if I were a single mom who had three kids and a lesser paying job. Schools are closed and she’s forced to work from home and homeschool her children. Or worse, she’s been laid off and living on unemployment. Do you think she is going to have the time or finances available to hire a babysitter so that she can take her medically fragile child in for his cardiology follow-up? Because not only does she have to pay the copays and whatever insurance doesn’t cover, but now she has to fork over $50 for child care. If you don’t know the answer already, it’s no, she does not have the time or the finances. So her child misses a cardiology appointment, which means that his meds weren’t increased according to his growth, which means his pulmonary hypertension is not controlled, which worsens his heart failure ... you get my drift.

Fast forward to Sept. 22, 2020. I had a cardiology appointment at our local heart hospital for myself. It’s 2020, people, I’ve been having some palpitations that I needed checked out and was going in to have a heart monitor patch placed. I had my 4-year-old son with me because he is on a hybrid schedule where we homeschool 2 days a week. We entered the building wearing masks, and I was immediately stopped by security and informed that, according to the COVID-19 policy for their hospital, children under 16 are not allowed to enter the building. After some discussion, I was ultimately refused care because my son was with me that day. Refused care because I had a masked 4-year-old with a normal temperature at my side.

These policies are not working. We are in health care. It should not matter what pandemic is on the table, we should not be refusing patients access to care based on who is by their side that day. We knew the risks when we entered our profession, and we know the proper measures to protect ourselves. Our patients also know the risks and can protect themselves accordingly.

So this is my plea to all medical facilities out there: Stop. Stop telling people their loved ones can’t accompany them to appointments. Stop telling caregivers to wait in their cars while their elderly, demented mothers have their annual physicals. Stop telling moms they need to leave their other children at home. This is now a huge access-to-care issue nationwide and it needs to stop. Excess deaths in our nation are soaring, and it’s not just because people don’t want to seek medical attention; it’s because medical facilities are making it almost impossible to seek help for many. People are dying, and it’s not only from COVID-19. This is on us as health care providers, and we need to step up to the plate and do what is right.
 

Ms. Baxendale is a nurse practitioner in Mustang, Okla. Email her at [email protected].

Having been a reader of Pediatric News for years, I want to bring to light access-to-care issues involving COVID-19 medical facility restrictions for pediatric patients and their parents.

On March 27, 2020, I received a phone call from the Department of Human Services pleading with me to take a medically fragile child who was entering the foster care system that day. He had very specific needs, and they had no one available who could medically meet those needs. The week prior was my kids’ scheduled spring break; the week I got the call was the week that I was voluntarily furloughed from my job as a pediatric nurse practitioner so that I could stay home with my kids as their school would not be reopening for the year, and someone had to be with them. I was already home with my 3-year-old and 6-year-old, so why not add another?

Leo (name changed for privacy) came to me with a multitude of diagnoses, to say the least. Not only did he require physical, speech, and occupational therapy twice weekly, but he often had appointments with 10 different specialists at the local children’s hospital. The first few weeks he was in my care, we had almost daily visits to either therapists or specialists. Keeping up with these types of appointments in a normal world is difficult ... I was getting the crash course on how to navigate all of it in the COVID-19 world.

So now, I am the primary caregiver during the day for my two children and our medically fragile foster child who has multiple medical appointments a week. Our local children’s hospital allowed only the caregiver to accompany him to his visits. In theory this sounds great, right? Fewer people in a facility equals less exposure, less risk, and fewer COVID-19 infections.

But what about the negative consequences of these hospital policies? I have two other children I was caring for. I couldn’t take them to their grandparents’ house because people over age 65 years are at risk of having COVID-19 complications. I had been furloughed, so our income was half what it typically was. Regardless, I had to hire a babysitter each time I took our foster child to the hospital for his appointments because they would not allow my children to accompany me.

Now imagine if I were a single mom who had three kids and a lesser paying job. Schools are closed and she’s forced to work from home and homeschool her children. Or worse, she’s been laid off and living on unemployment. Do you think she is going to have the time or finances available to hire a babysitter so that she can take her medically fragile child in for his cardiology follow-up? Because not only does she have to pay the copays and whatever insurance doesn’t cover, but now she has to fork over $50 for child care. If you don’t know the answer already, it’s no, she does not have the time or the finances. So her child misses a cardiology appointment, which means that his meds weren’t increased according to his growth, which means his pulmonary hypertension is not controlled, which worsens his heart failure ... you get my drift.

Fast forward to Sept. 22, 2020. I had a cardiology appointment at our local heart hospital for myself. It’s 2020, people, I’ve been having some palpitations that I needed checked out and was going in to have a heart monitor patch placed. I had my 4-year-old son with me because he is on a hybrid schedule where we homeschool 2 days a week. We entered the building wearing masks, and I was immediately stopped by security and informed that, according to the COVID-19 policy for their hospital, children under 16 are not allowed to enter the building. After some discussion, I was ultimately refused care because my son was with me that day. Refused care because I had a masked 4-year-old with a normal temperature at my side.

These policies are not working. We are in health care. It should not matter what pandemic is on the table, we should not be refusing patients access to care based on who is by their side that day. We knew the risks when we entered our profession, and we know the proper measures to protect ourselves. Our patients also know the risks and can protect themselves accordingly.

So this is my plea to all medical facilities out there: Stop. Stop telling people their loved ones can’t accompany them to appointments. Stop telling caregivers to wait in their cars while their elderly, demented mothers have their annual physicals. Stop telling moms they need to leave their other children at home. This is now a huge access-to-care issue nationwide and it needs to stop. Excess deaths in our nation are soaring, and it’s not just because people don’t want to seek medical attention; it’s because medical facilities are making it almost impossible to seek help for many. People are dying, and it’s not only from COVID-19. This is on us as health care providers, and we need to step up to the plate and do what is right.
 

Ms. Baxendale is a nurse practitioner in Mustang, Okla. Email her at [email protected].

Having been a reader of Pediatric News for years, I want to bring to light access-to-care issues involving COVID-19 medical facility restrictions for pediatric patients and their parents.

On March 27, 2020, I received a phone call from the Department of Human Services pleading with me to take a medically fragile child who was entering the foster care system that day. He had very specific needs, and they had no one available who could medically meet those needs. The week prior was my kids’ scheduled spring break; the week I got the call was the week that I was voluntarily furloughed from my job as a pediatric nurse practitioner so that I could stay home with my kids as their school would not be reopening for the year, and someone had to be with them. I was already home with my 3-year-old and 6-year-old, so why not add another?

Leo (name changed for privacy) came to me with a multitude of diagnoses, to say the least. Not only did he require physical, speech, and occupational therapy twice weekly, but he often had appointments with 10 different specialists at the local children’s hospital. The first few weeks he was in my care, we had almost daily visits to either therapists or specialists. Keeping up with these types of appointments in a normal world is difficult ... I was getting the crash course on how to navigate all of it in the COVID-19 world.

So now, I am the primary caregiver during the day for my two children and our medically fragile foster child who has multiple medical appointments a week. Our local children’s hospital allowed only the caregiver to accompany him to his visits. In theory this sounds great, right? Fewer people in a facility equals less exposure, less risk, and fewer COVID-19 infections.

But what about the negative consequences of these hospital policies? I have two other children I was caring for. I couldn’t take them to their grandparents’ house because people over age 65 years are at risk of having COVID-19 complications. I had been furloughed, so our income was half what it typically was. Regardless, I had to hire a babysitter each time I took our foster child to the hospital for his appointments because they would not allow my children to accompany me.

Now imagine if I were a single mom who had three kids and a lesser paying job. Schools are closed and she’s forced to work from home and homeschool her children. Or worse, she’s been laid off and living on unemployment. Do you think she is going to have the time or finances available to hire a babysitter so that she can take her medically fragile child in for his cardiology follow-up? Because not only does she have to pay the copays and whatever insurance doesn’t cover, but now she has to fork over $50 for child care. If you don’t know the answer already, it’s no, she does not have the time or the finances. So her child misses a cardiology appointment, which means that his meds weren’t increased according to his growth, which means his pulmonary hypertension is not controlled, which worsens his heart failure ... you get my drift.

Fast forward to Sept. 22, 2020. I had a cardiology appointment at our local heart hospital for myself. It’s 2020, people, I’ve been having some palpitations that I needed checked out and was going in to have a heart monitor patch placed. I had my 4-year-old son with me because he is on a hybrid schedule where we homeschool 2 days a week. We entered the building wearing masks, and I was immediately stopped by security and informed that, according to the COVID-19 policy for their hospital, children under 16 are not allowed to enter the building. After some discussion, I was ultimately refused care because my son was with me that day. Refused care because I had a masked 4-year-old with a normal temperature at my side.

These policies are not working. We are in health care. It should not matter what pandemic is on the table, we should not be refusing patients access to care based on who is by their side that day. We knew the risks when we entered our profession, and we know the proper measures to protect ourselves. Our patients also know the risks and can protect themselves accordingly.

So this is my plea to all medical facilities out there: Stop. Stop telling people their loved ones can’t accompany them to appointments. Stop telling caregivers to wait in their cars while their elderly, demented mothers have their annual physicals. Stop telling moms they need to leave their other children at home. This is now a huge access-to-care issue nationwide and it needs to stop. Excess deaths in our nation are soaring, and it’s not just because people don’t want to seek medical attention; it’s because medical facilities are making it almost impossible to seek help for many. People are dying, and it’s not only from COVID-19. This is on us as health care providers, and we need to step up to the plate and do what is right.
 

Ms. Baxendale is a nurse practitioner in Mustang, Okla. Email her at [email protected].

Halloween is fast approaching and retail stores are fully stocked with costumes and candy. Physician dialog is beginning to shift from school access toward how to counsel patients and families on COVID-19 safety around Halloween. What steps families ultimately take about Halloween will hinge on where they live and what the COVID infection and death rates are in their area, advised pediatrician Shelly Vaziri Flais, MD.

Courtesy Andrew Beattie

Halloween “is going to look very different this year, especially in urban and rural settings, according to Dr. Flais, who is a spokesperson for the American Academy of Pediatrics and assistant professor of clinical pediatrics at Northwestern University, Chicago. The notion that trick-or-treating automatically involves physically distancing is a misconception. Urban celebrations frequently see many people gathering on the streets, and that will be even more likely in a pandemic year when people have been separated for long periods of time.

For pediatricians advising families on COVID-19 safety measures to follow while celebrating Halloween, it’s not going to be a one-size-fits-all approach, said Dr. Flais, who practices pediatrics at Pediatric Health Associates in Naperville, Ill.

The goal for physicians across the board should be “to ensure that we aren’t so cautious that we drive folks to do things that are higher risk,” she said in an interview. “We are now 6-7 months into the pandemic and the public is growing weary of laying low, so it is important for physicians to not recommend safety measures that are too restrictive.”

The balance pediatricians will need to strike in advising their patients is tricky at best. So in dispensing advice, it is important to make sure that it has a benefit to the overall population, cautioned Dr. Flais. Activities such as hosting independently organized, heavily packed indoor gatherings where people are eating, drinking, and not wearing masks is not going to be beneficial for the masses.

Courtesy Dr. Shelly V. Flais

“We’re all lucky that we have technology. We’ve gotten used to doing virtual hugs and activities on Zoom,” she said, adding that she has already seen some really creative ideas on social media for enjoying a COVID-conscious Halloween, including a festive candy chute created by an Ohio family that is perfect for distributing candy while minimizing physical contact.

In an AAP press release, Dr. Flais noted that “this is a good time to teach children the importance of protecting not just ourselves but each other.” How we choose to manage our safety and the safety of our children “can have a ripple effect on our family members.” It is possible to make safe, responsible choices when celebrating and still create magical memories for our children.

Francis E. Rushton Jr., MD, of the University of South Carolina, Columbia, said in an interview, “ I certainly support the AAP recommendations. Because of the way COVID-19 virus is spread, I would emphasize with my patients that the No. 1 thing to do is to enforce facial mask wearing while out trick-or-treating.

“I would also err on the side of safety if my child was showing any signs of illness and find an alternative method of celebrating Halloween that would not involve close contact with other individuals,” said Dr. Rushton, who is a member of the Pediatric News editorial advisory board.

AAP-recommended Do’s and Don’ts for celebrating Halloween

DO:

• Avoid large gatherings.
• Maintain 6 feet distance.
• Wear cloth masks and wash hands often.
• Use hand sanitizer before and after visiting pumpkin patches and apple orchards.

DON’T:

• Wear painted cloth masks since paints can contain toxins that should not be breathed.
• Use a costume mask unless it has layers of breathable fabric snugly covering mouth and nose.
• Wear cloth mask under costume mask.
• Attend indoor parties or haunted houses.

CDC safety considerations (supplemental to state and local safety laws)

• Assess current cases and overall spread in your community before making any plans.
• Choose outdoor venues or indoor facilities that are well ventilated.
• Consider the length of the event, how many are attending, where they are coming from, and how they behave before and during the event.
• If you are awaiting test results, have COVID-19 symptoms, or have been exposed to COVID-19, stay home.
• If you are at higher risk, avoid large gatherings and limit exposure to anyone you do not live with.
• Make available to others masks, 60% or greater alcohol-based hand sanitizer, and tissues.
• Avoid touching your nose, eyes, and mouth.
• For a complete set of Centers for Disease Control and Prevention COVID safety recommendations go here.

Suggested safe, fun activities

• Use Zoom and other chat programs to share costumes, play games, and watch festive movies.
• Participate in socially distanced outdoor community events at local parks, zoos, etc.
• Attend haunted forests and corn mazes. Maintain more than 6 feet of distance around screaming patrons.
• Decorate pumpkins.
• Cook a Halloween-themed meal.
• If trick-or-treating has been canceled, try a scavenger hunt in the house or yard.
• When handing out treats, wear gloves and mask. Consider prepackaging treat bags. Line up visitors 6 feet apart and discourage gatherings around entranceways.
• Wipe down all goodies received and consider quarantining them for a few days.
• Always wash hands before and after trick-or-treating and when handling treats.

Halloween is fast approaching and retail stores are fully stocked with costumes and candy. Physician dialog is beginning to shift from school access toward how to counsel patients and families on COVID-19 safety around Halloween. What steps families ultimately take about Halloween will hinge on where they live and what the COVID infection and death rates are in their area, advised pediatrician Shelly Vaziri Flais, MD.

Courtesy Andrew Beattie

Halloween “is going to look very different this year, especially in urban and rural settings, according to Dr. Flais, who is a spokesperson for the American Academy of Pediatrics and assistant professor of clinical pediatrics at Northwestern University, Chicago. The notion that trick-or-treating automatically involves physically distancing is a misconception. Urban celebrations frequently see many people gathering on the streets, and that will be even more likely in a pandemic year when people have been separated for long periods of time.

For pediatricians advising families on COVID-19 safety measures to follow while celebrating Halloween, it’s not going to be a one-size-fits-all approach, said Dr. Flais, who practices pediatrics at Pediatric Health Associates in Naperville, Ill.

The goal for physicians across the board should be “to ensure that we aren’t so cautious that we drive folks to do things that are higher risk,” she said in an interview. “We are now 6-7 months into the pandemic and the public is growing weary of laying low, so it is important for physicians to not recommend safety measures that are too restrictive.”

The balance pediatricians will need to strike in advising their patients is tricky at best. So in dispensing advice, it is important to make sure that it has a benefit to the overall population, cautioned Dr. Flais. Activities such as hosting independently organized, heavily packed indoor gatherings where people are eating, drinking, and not wearing masks is not going to be beneficial for the masses.

Courtesy Dr. Shelly V. Flais

“We’re all lucky that we have technology. We’ve gotten used to doing virtual hugs and activities on Zoom,” she said, adding that she has already seen some really creative ideas on social media for enjoying a COVID-conscious Halloween, including a festive candy chute created by an Ohio family that is perfect for distributing candy while minimizing physical contact.

In an AAP press release, Dr. Flais noted that “this is a good time to teach children the importance of protecting not just ourselves but each other.” How we choose to manage our safety and the safety of our children “can have a ripple effect on our family members.” It is possible to make safe, responsible choices when celebrating and still create magical memories for our children.

Francis E. Rushton Jr., MD, of the University of South Carolina, Columbia, said in an interview, “ I certainly support the AAP recommendations. Because of the way COVID-19 virus is spread, I would emphasize with my patients that the No. 1 thing to do is to enforce facial mask wearing while out trick-or-treating.

“I would also err on the side of safety if my child was showing any signs of illness and find an alternative method of celebrating Halloween that would not involve close contact with other individuals,” said Dr. Rushton, who is a member of the Pediatric News editorial advisory board.

AAP-recommended Do’s and Don’ts for celebrating Halloween

DO:

• Avoid large gatherings.
• Maintain 6 feet distance.
• Wear cloth masks and wash hands often.
• Use hand sanitizer before and after visiting pumpkin patches and apple orchards.

DON’T:

• Wear painted cloth masks since paints can contain toxins that should not be breathed.
• Use a costume mask unless it has layers of breathable fabric snugly covering mouth and nose.
• Wear cloth mask under costume mask.
• Attend indoor parties or haunted houses.

CDC safety considerations (supplemental to state and local safety laws)

• Assess current cases and overall spread in your community before making any plans.
• Choose outdoor venues or indoor facilities that are well ventilated.
• Consider the length of the event, how many are attending, where they are coming from, and how they behave before and during the event.
• If you are awaiting test results, have COVID-19 symptoms, or have been exposed to COVID-19, stay home.
• If you are at higher risk, avoid large gatherings and limit exposure to anyone you do not live with.
• Make available to others masks, 60% or greater alcohol-based hand sanitizer, and tissues.
• Avoid touching your nose, eyes, and mouth.
• For a complete set of Centers for Disease Control and Prevention COVID safety recommendations go here.

Suggested safe, fun activities

• Use Zoom and other chat programs to share costumes, play games, and watch festive movies.
• Participate in socially distanced outdoor community events at local parks, zoos, etc.
• Attend haunted forests and corn mazes. Maintain more than 6 feet of distance around screaming patrons.
• Decorate pumpkins.
• Cook a Halloween-themed meal.
• If trick-or-treating has been canceled, try a scavenger hunt in the house or yard.
• When handing out treats, wear gloves and mask. Consider prepackaging treat bags. Line up visitors 6 feet apart and discourage gatherings around entranceways.
• Wipe down all goodies received and consider quarantining them for a few days.
• Always wash hands before and after trick-or-treating and when handling treats.

Halloween is fast approaching and retail stores are fully stocked with costumes and candy. Physician dialog is beginning to shift from school access toward how to counsel patients and families on COVID-19 safety around Halloween. What steps families ultimately take about Halloween will hinge on where they live and what the COVID infection and death rates are in their area, advised pediatrician Shelly Vaziri Flais, MD.

Courtesy Andrew Beattie

Halloween “is going to look very different this year, especially in urban and rural settings, according to Dr. Flais, who is a spokesperson for the American Academy of Pediatrics and assistant professor of clinical pediatrics at Northwestern University, Chicago. The notion that trick-or-treating automatically involves physically distancing is a misconception. Urban celebrations frequently see many people gathering on the streets, and that will be even more likely in a pandemic year when people have been separated for long periods of time.

For pediatricians advising families on COVID-19 safety measures to follow while celebrating Halloween, it’s not going to be a one-size-fits-all approach, said Dr. Flais, who practices pediatrics at Pediatric Health Associates in Naperville, Ill.

The goal for physicians across the board should be “to ensure that we aren’t so cautious that we drive folks to do things that are higher risk,” she said in an interview. “We are now 6-7 months into the pandemic and the public is growing weary of laying low, so it is important for physicians to not recommend safety measures that are too restrictive.”

The balance pediatricians will need to strike in advising their patients is tricky at best. So in dispensing advice, it is important to make sure that it has a benefit to the overall population, cautioned Dr. Flais. Activities such as hosting independently organized, heavily packed indoor gatherings where people are eating, drinking, and not wearing masks is not going to be beneficial for the masses.

Courtesy Dr. Shelly V. Flais

“We’re all lucky that we have technology. We’ve gotten used to doing virtual hugs and activities on Zoom,” she said, adding that she has already seen some really creative ideas on social media for enjoying a COVID-conscious Halloween, including a festive candy chute created by an Ohio family that is perfect for distributing candy while minimizing physical contact.

In an AAP press release, Dr. Flais noted that “this is a good time to teach children the importance of protecting not just ourselves but each other.” How we choose to manage our safety and the safety of our children “can have a ripple effect on our family members.” It is possible to make safe, responsible choices when celebrating and still create magical memories for our children.

Francis E. Rushton Jr., MD, of the University of South Carolina, Columbia, said in an interview, “ I certainly support the AAP recommendations. Because of the way COVID-19 virus is spread, I would emphasize with my patients that the No. 1 thing to do is to enforce facial mask wearing while out trick-or-treating.

“I would also err on the side of safety if my child was showing any signs of illness and find an alternative method of celebrating Halloween that would not involve close contact with other individuals,” said Dr. Rushton, who is a member of the Pediatric News editorial advisory board.

AAP-recommended Do’s and Don’ts for celebrating Halloween

DO:

• Avoid large gatherings.
• Maintain 6 feet distance.
• Wear cloth masks and wash hands often.
• Use hand sanitizer before and after visiting pumpkin patches and apple orchards.

DON’T:

• Wear painted cloth masks since paints can contain toxins that should not be breathed.
• Use a costume mask unless it has layers of breathable fabric snugly covering mouth and nose.
• Wear cloth mask under costume mask.
• Attend indoor parties or haunted houses.

CDC safety considerations (supplemental to state and local safety laws)

• Assess current cases and overall spread in your community before making any plans.
• Choose outdoor venues or indoor facilities that are well ventilated.
• Consider the length of the event, how many are attending, where they are coming from, and how they behave before and during the event.
• If you are awaiting test results, have COVID-19 symptoms, or have been exposed to COVID-19, stay home.
• If you are at higher risk, avoid large gatherings and limit exposure to anyone you do not live with.
• Make available to others masks, 60% or greater alcohol-based hand sanitizer, and tissues.
• Avoid touching your nose, eyes, and mouth.
• For a complete set of Centers for Disease Control and Prevention COVID safety recommendations go here.

Suggested safe, fun activities

• Use Zoom and other chat programs to share costumes, play games, and watch festive movies.
• Participate in socially distanced outdoor community events at local parks, zoos, etc.
• Attend haunted forests and corn mazes. Maintain more than 6 feet of distance around screaming patrons.
• Decorate pumpkins.
• Cook a Halloween-themed meal.
• If trick-or-treating has been canceled, try a scavenger hunt in the house or yard.
• When handing out treats, wear gloves and mask. Consider prepackaging treat bags. Line up visitors 6 feet apart and discourage gatherings around entranceways.
• Wipe down all goodies received and consider quarantining them for a few days.
• Always wash hands before and after trick-or-treating and when handling treats.

As we continue to stumble around trying to find our way out of the COVID-19 pandemic, it has become clear that the journey has been a never-ending continuum of exercises in risk/benefit assessment. The population always has sorted itself into a bell-shaped curve from those who are risk averse to those who revel in risk taking. And, of course, with a paucity of facts on which we can base our assessment of risk, the discussion often shifts to our gut feelings about the benefits.

Greg Pollock - Fotolia.com

When faced with the question of when it is time for children to return to in-person schooling, there seems to be reasonably good agreement about the benefits of face-to-face learning. The level of risk is still to be determined.

When it comes to the issue of when to return to competitive school sports, the risks are equally indeterminate but there is less agreement on the benefits. This lack of uniformity reflects a long-standing dichotomy between those parents and students with a passion for competitive sports and those who see them as nonessential. This existential tug-of-war has gone on in almost every school system I am aware of when the school budget comes up for a vote.

The debate about a return to competitive sports on a collegiate and professional level unfortunately is colored by enormous revenues from media contracts, which means that high school and middle schools can’t look to what are essentially businesses for guidance. Here in Maine, the organizations responsible for making decisions about school sports struggled for months in making their decision. The delay created confusion, fluctuating angst and disappointment, but the end product made some sense. Volleyball (indoor) and football were indefinitely delayed. Heavy breathing between competitors separated by a couple of feet and protected only by a flimsy net or helmet cage seems like a risk not worth taking – at least until we have more information.

Other sports were allowed to start with restrictions based on existing social distancing mandates which include no locker rooms and no fans. Some rules such as no throw-ins for soccer didn’t make sense given what we are learning about the virus. But, for the most part, the compromises should result in a chance to reap the benefits of competition for the students whose families are willing to expose them to the yet to be fully determined risks.

There has been some grumbling from parents who see the no-fans mandate as a step too far. Until we know more about the risk of group gatherings outdoors, having no fans, including parents and grandparents, makes sense. In fact, to me it is a step long overdue and a rare sliver of silver lining to the pandemic. Competitive youth sports are for the kids. They are not meant to be entertainment events. Too often children are exposed to parental pressure (voiced and unvoiced) about their “performance” on the field. Neither my younger sister nor I can remember our parents going to any of my away football games in high school or any of my lacrosse games in college. I never felt the loss.

Will I miss watching my grandchildren compete? Of course I will miss it badly. However, giving kids some space to learn and enjoy the competition for itself in an atmosphere free of parental over-involvement will be a breath of fresh air. Something we need badly during this pandemic.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at [email protected].

As we continue to stumble around trying to find our way out of the COVID-19 pandemic, it has become clear that the journey has been a never-ending continuum of exercises in risk/benefit assessment. The population always has sorted itself into a bell-shaped curve from those who are risk averse to those who revel in risk taking. And, of course, with a paucity of facts on which we can base our assessment of risk, the discussion often shifts to our gut feelings about the benefits.

Greg Pollock - Fotolia.com

When faced with the question of when it is time for children to return to in-person schooling, there seems to be reasonably good agreement about the benefits of face-to-face learning. The level of risk is still to be determined.

When it comes to the issue of when to return to competitive school sports, the risks are equally indeterminate but there is less agreement on the benefits. This lack of uniformity reflects a long-standing dichotomy between those parents and students with a passion for competitive sports and those who see them as nonessential. This existential tug-of-war has gone on in almost every school system I am aware of when the school budget comes up for a vote.

The debate about a return to competitive sports on a collegiate and professional level unfortunately is colored by enormous revenues from media contracts, which means that high school and middle schools can’t look to what are essentially businesses for guidance. Here in Maine, the organizations responsible for making decisions about school sports struggled for months in making their decision. The delay created confusion, fluctuating angst and disappointment, but the end product made some sense. Volleyball (indoor) and football were indefinitely delayed. Heavy breathing between competitors separated by a couple of feet and protected only by a flimsy net or helmet cage seems like a risk not worth taking – at least until we have more information.

Other sports were allowed to start with restrictions based on existing social distancing mandates which include no locker rooms and no fans. Some rules such as no throw-ins for soccer didn’t make sense given what we are learning about the virus. But, for the most part, the compromises should result in a chance to reap the benefits of competition for the students whose families are willing to expose them to the yet to be fully determined risks.

There has been some grumbling from parents who see the no-fans mandate as a step too far. Until we know more about the risk of group gatherings outdoors, having no fans, including parents and grandparents, makes sense. In fact, to me it is a step long overdue and a rare sliver of silver lining to the pandemic. Competitive youth sports are for the kids. They are not meant to be entertainment events. Too often children are exposed to parental pressure (voiced and unvoiced) about their “performance” on the field. Neither my younger sister nor I can remember our parents going to any of my away football games in high school or any of my lacrosse games in college. I never felt the loss.

Will I miss watching my grandchildren compete? Of course I will miss it badly. However, giving kids some space to learn and enjoy the competition for itself in an atmosphere free of parental over-involvement will be a breath of fresh air. Something we need badly during this pandemic.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at [email protected].

As we continue to stumble around trying to find our way out of the COVID-19 pandemic, it has become clear that the journey has been a never-ending continuum of exercises in risk/benefit assessment. The population always has sorted itself into a bell-shaped curve from those who are risk averse to those who revel in risk taking. And, of course, with a paucity of facts on which we can base our assessment of risk, the discussion often shifts to our gut feelings about the benefits.

Greg Pollock - Fotolia.com

When faced with the question of when it is time for children to return to in-person schooling, there seems to be reasonably good agreement about the benefits of face-to-face learning. The level of risk is still to be determined.

When it comes to the issue of when to return to competitive school sports, the risks are equally indeterminate but there is less agreement on the benefits. This lack of uniformity reflects a long-standing dichotomy between those parents and students with a passion for competitive sports and those who see them as nonessential. This existential tug-of-war has gone on in almost every school system I am aware of when the school budget comes up for a vote.

The debate about a return to competitive sports on a collegiate and professional level unfortunately is colored by enormous revenues from media contracts, which means that high school and middle schools can’t look to what are essentially businesses for guidance. Here in Maine, the organizations responsible for making decisions about school sports struggled for months in making their decision. The delay created confusion, fluctuating angst and disappointment, but the end product made some sense. Volleyball (indoor) and football were indefinitely delayed. Heavy breathing between competitors separated by a couple of feet and protected only by a flimsy net or helmet cage seems like a risk not worth taking – at least until we have more information.

Other sports were allowed to start with restrictions based on existing social distancing mandates which include no locker rooms and no fans. Some rules such as no throw-ins for soccer didn’t make sense given what we are learning about the virus. But, for the most part, the compromises should result in a chance to reap the benefits of competition for the students whose families are willing to expose them to the yet to be fully determined risks.

There has been some grumbling from parents who see the no-fans mandate as a step too far. Until we know more about the risk of group gatherings outdoors, having no fans, including parents and grandparents, makes sense. In fact, to me it is a step long overdue and a rare sliver of silver lining to the pandemic. Competitive youth sports are for the kids. They are not meant to be entertainment events. Too often children are exposed to parental pressure (voiced and unvoiced) about their “performance” on the field. Neither my younger sister nor I can remember our parents going to any of my away football games in high school or any of my lacrosse games in college. I never felt the loss.

Will I miss watching my grandchildren compete? Of course I will miss it badly. However, giving kids some space to learn and enjoy the competition for itself in an atmosphere free of parental over-involvement will be a breath of fresh air. Something we need badly during this pandemic.
 

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Email him at [email protected].

The wholesale shuffling of employees triggered by the COVID-19 pandemic has raised many questions about the differences between full-time, part-time, and full-time equivalent employees, and how employment laws apply to them. While rules vary from state to state, some generalizations can be made.

Even the definitions of full-time and part-time vary. For instance, under the Affordable Care Act (ACA), full time means working at least 30 hours per week. Under the Families First Coronavirus Response Act (FFCRA), it is 40 hours.

Full-time equivalent (FTE) is a concept designed to document a part-time workforce in terms of full-time employment, by taking the total hours worked by all part-time employees and dividing by the full-time schedule. Of course, the ACA and the Paycheck Protection Program (PPP) calculate that number differently: The ACA requires you to total all the hours worked by part-time employees per month, and divide by 120. For the PPP, you divide the total part-time hours per week by 40, and round to the nearest tenth. (You can also use a simplified method that assigns a 1.0 for employees who work 40 hours or more per week and 0.5 for those who work fewer; whichever method you choose, you must apply it consistently on all PPP forms.)

FTEs are important for the purposes of the ACA because employers with 50 or more full-timers plus FTEs must offer health coverage to their full-timers and dependents. But most private practitioners need an accurate FTE total to deal with the PPP: If staffing levels weren’t maintained after you received a PPP loan, your loan forgiveness amount may be reduced. Staffing levels are determined by comparing the average number of full-timers plus FTEs during the “covered period” to either the period from Feb. 15 through June 30, 2019, or Jan. 1 through Feb. 28, 2020.

The PPP aside, FTEs have created confusion over when an employee is entitled to overtime pay. Under federal law, overtime is due whenever an employee works more than 40 hours per week; up to 40 hours, the regular wage is paid. (There are exemptions, and a few states use a daily number.) For example, if a part-timer receiving $900 per week for a 30-hour workweek works more than 30 hours, the hours from 30 to 40 would be compensated at their normal wage of $30 per hour ($900 ÷ 30). If the employee worked more than 40 hours, you would pay overtime (in this case $45 per hour, $30 x 1.5) for the hours in excess of 40.

To address a few other employment questions that I am frequently asked:

Under the FFCRA, you must provide both full- and part-time employees with emergency paid sick leave (EPSL) if they’re unable to work from your office or their home because of illness attributable to COVID-19, quarantine, or caring for a sick family member or child whose school is closed. Full-time employees are entitled to up to 80 hours of EPSL, and part-timers an average of what they work every 2 weeks. Some states have their own laws independent from the FFCRA. Check your state or local laws.

• Some states require you to provide meal and rest breaks to both full- and part-time employees. In California, for example, employers must provide a 30-minute meal break after no more than 5 hours of work, unless the total workday is less than 6 hours and both employers and employees consent to waive breaks. California also requires rest breaks after every 4 hours worked. Check the laws in your state.
• You must include part-time employees in a 401(k) retirement plan if they work at least 1,000 hours in a year, which is about 20 hours per week. That rule is changing in 2021 to 500 hours for employees older than 21. There are state-run retirement programs in California, Connecticut, New Jersey, Washington, and Oregon, among other states. Check your state law for details.
• If you offer paid vacations to full-time employees, you do not have to do the same for part-timers. (In fact, there is no requirement in most states to offer vacation time at all.) My office does offer it to part-time employees on a pro rata basis, as do many others in my area. Again, check your state law.

As always, consult with your attorney if it’s not clear which rules apply in your specific situation.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. He has no relevant disclosures related to the topic of this column. Write to him at [email protected].

The wholesale shuffling of employees triggered by the COVID-19 pandemic has raised many questions about the differences between full-time, part-time, and full-time equivalent employees, and how employment laws apply to them. While rules vary from state to state, some generalizations can be made.

Even the definitions of full-time and part-time vary. For instance, under the Affordable Care Act (ACA), full time means working at least 30 hours per week. Under the Families First Coronavirus Response Act (FFCRA), it is 40 hours.

Full-time equivalent (FTE) is a concept designed to document a part-time workforce in terms of full-time employment, by taking the total hours worked by all part-time employees and dividing by the full-time schedule. Of course, the ACA and the Paycheck Protection Program (PPP) calculate that number differently: The ACA requires you to total all the hours worked by part-time employees per month, and divide by 120. For the PPP, you divide the total part-time hours per week by 40, and round to the nearest tenth. (You can also use a simplified method that assigns a 1.0 for employees who work 40 hours or more per week and 0.5 for those who work fewer; whichever method you choose, you must apply it consistently on all PPP forms.)

FTEs are important for the purposes of the ACA because employers with 50 or more full-timers plus FTEs must offer health coverage to their full-timers and dependents. But most private practitioners need an accurate FTE total to deal with the PPP: If staffing levels weren’t maintained after you received a PPP loan, your loan forgiveness amount may be reduced. Staffing levels are determined by comparing the average number of full-timers plus FTEs during the “covered period” to either the period from Feb. 15 through June 30, 2019, or Jan. 1 through Feb. 28, 2020.

The PPP aside, FTEs have created confusion over when an employee is entitled to overtime pay. Under federal law, overtime is due whenever an employee works more than 40 hours per week; up to 40 hours, the regular wage is paid. (There are exemptions, and a few states use a daily number.) For example, if a part-timer receiving $900 per week for a 30-hour workweek works more than 30 hours, the hours from 30 to 40 would be compensated at their normal wage of $30 per hour ($900 ÷ 30). If the employee worked more than 40 hours, you would pay overtime (in this case $45 per hour, $30 x 1.5) for the hours in excess of 40.

To address a few other employment questions that I am frequently asked:

Under the FFCRA, you must provide both full- and part-time employees with emergency paid sick leave (EPSL) if they’re unable to work from your office or their home because of illness attributable to COVID-19, quarantine, or caring for a sick family member or child whose school is closed. Full-time employees are entitled to up to 80 hours of EPSL, and part-timers an average of what they work every 2 weeks. Some states have their own laws independent from the FFCRA. Check your state or local laws.

• Some states require you to provide meal and rest breaks to both full- and part-time employees. In California, for example, employers must provide a 30-minute meal break after no more than 5 hours of work, unless the total workday is less than 6 hours and both employers and employees consent to waive breaks. California also requires rest breaks after every 4 hours worked. Check the laws in your state.
• You must include part-time employees in a 401(k) retirement plan if they work at least 1,000 hours in a year, which is about 20 hours per week. That rule is changing in 2021 to 500 hours for employees older than 21. There are state-run retirement programs in California, Connecticut, New Jersey, Washington, and Oregon, among other states. Check your state law for details.
• If you offer paid vacations to full-time employees, you do not have to do the same for part-timers. (In fact, there is no requirement in most states to offer vacation time at all.) My office does offer it to part-time employees on a pro rata basis, as do many others in my area. Again, check your state law.

As always, consult with your attorney if it’s not clear which rules apply in your specific situation.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. He has no relevant disclosures related to the topic of this column. Write to him at [email protected].

The wholesale shuffling of employees triggered by the COVID-19 pandemic has raised many questions about the differences between full-time, part-time, and full-time equivalent employees, and how employment laws apply to them. While rules vary from state to state, some generalizations can be made.

Even the definitions of full-time and part-time vary. For instance, under the Affordable Care Act (ACA), full time means working at least 30 hours per week. Under the Families First Coronavirus Response Act (FFCRA), it is 40 hours.

Full-time equivalent (FTE) is a concept designed to document a part-time workforce in terms of full-time employment, by taking the total hours worked by all part-time employees and dividing by the full-time schedule. Of course, the ACA and the Paycheck Protection Program (PPP) calculate that number differently: The ACA requires you to total all the hours worked by part-time employees per month, and divide by 120. For the PPP, you divide the total part-time hours per week by 40, and round to the nearest tenth. (You can also use a simplified method that assigns a 1.0 for employees who work 40 hours or more per week and 0.5 for those who work fewer; whichever method you choose, you must apply it consistently on all PPP forms.)

FTEs are important for the purposes of the ACA because employers with 50 or more full-timers plus FTEs must offer health coverage to their full-timers and dependents. But most private practitioners need an accurate FTE total to deal with the PPP: If staffing levels weren’t maintained after you received a PPP loan, your loan forgiveness amount may be reduced. Staffing levels are determined by comparing the average number of full-timers plus FTEs during the “covered period” to either the period from Feb. 15 through June 30, 2019, or Jan. 1 through Feb. 28, 2020.

The PPP aside, FTEs have created confusion over when an employee is entitled to overtime pay. Under federal law, overtime is due whenever an employee works more than 40 hours per week; up to 40 hours, the regular wage is paid. (There are exemptions, and a few states use a daily number.) For example, if a part-timer receiving $900 per week for a 30-hour workweek works more than 30 hours, the hours from 30 to 40 would be compensated at their normal wage of $30 per hour ($900 ÷ 30). If the employee worked more than 40 hours, you would pay overtime (in this case $45 per hour, $30 x 1.5) for the hours in excess of 40.

To address a few other employment questions that I am frequently asked:

Under the FFCRA, you must provide both full- and part-time employees with emergency paid sick leave (EPSL) if they’re unable to work from your office or their home because of illness attributable to COVID-19, quarantine, or caring for a sick family member or child whose school is closed. Full-time employees are entitled to up to 80 hours of EPSL, and part-timers an average of what they work every 2 weeks. Some states have their own laws independent from the FFCRA. Check your state or local laws.

• Some states require you to provide meal and rest breaks to both full- and part-time employees. In California, for example, employers must provide a 30-minute meal break after no more than 5 hours of work, unless the total workday is less than 6 hours and both employers and employees consent to waive breaks. California also requires rest breaks after every 4 hours worked. Check the laws in your state.
• You must include part-time employees in a 401(k) retirement plan if they work at least 1,000 hours in a year, which is about 20 hours per week. That rule is changing in 2021 to 500 hours for employees older than 21. There are state-run retirement programs in California, Connecticut, New Jersey, Washington, and Oregon, among other states. Check your state law for details.
• If you offer paid vacations to full-time employees, you do not have to do the same for part-timers. (In fact, there is no requirement in most states to offer vacation time at all.) My office does offer it to part-time employees on a pro rata basis, as do many others in my area. Again, check your state law.

As always, consult with your attorney if it’s not clear which rules apply in your specific situation.
 

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. He has no relevant disclosures related to the topic of this column. Write to him at [email protected].

Remote telemedicine visits were feasible, reasonably reliable, and acceptable to individuals with Parkinson’s disease, a 1-year, phase 3 clinical trial has shown. The trial was an add-on study involving a subset of subjects from the STEADY-PD III trial of isradipine in early Parkinson’s disease.

Although the trial was conducted before SARS-CoV-2 arrived on the scene, the findings have particular relevance for being able to conduct a variety of clinical trials in the face of COVID-19 and the need to limit in-person interactions.

The 40 participants used tablets to complete three remote, video-based assessments during 1 year, with each remote visit planned to be completed within 4 weeks of an in-person visit. It was easy to enroll patients, and they completed about 95% of planned visits, said neurologist Christopher Tarolli, MD, of the University of Rochester (N.Y.).

He presented the study findings at the Movement Disorder Society’s 23rd International Congress of Parkinson’s Disease and Movement Disorders (Virtual) 2020.

“The visits were clearly feasible, and we were able to do them [84%] within that 4-week time frame around the in-person visit,” he said. “The visits were also reasonably reliable, particularly so for what we call the nonmotor outcomes and the patient-reported outcomes.”
 

In-person versus remote assessment

For the remote visits, participants completed primarily the same battery of tests as the in-person visits. Responses on the Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) subscales demonstrated “that there was excellent correlation between patient-reported and nonmotor outcome measures and moderate correlation between in-person and remote-performed motor assessments,” Dr. Tarolli said.  

He explained that the study used modified motor assessments (MDS-UPDRS Part III) that excluded testing of rigidity and postural instability, which require hands-on testing by a trained examiner and thus are impossible to do remotely.

Additionally, the somewhat lower correlation on this subscale was probably the result of different investigators conducting in-person versus remote assessments, with a subset of in-person investigators who tended to rate participants more severely driving down the correlation. “I think if these methods were applied in future trials, the in-person and remote investigators would optimally be the same person,” Dr. Tarolli suggested.
 

Room for error?

Indu Subramanian, MD, of the department of neurology at the University of California, Los Angeles, and director of the Parkinson’s Disease Research, Education, and Clinical Center at the West Los Angeles Veterans Affairs Hospital, commented that “the reliability of UPDRS [part] III is where I would want to have, for sure, a little bit more of a deep dive. … possibly the same patient be rated by the same person.”

She also noted that doing remote and in-person assessments within 4 weeks of each other leaves a lot of room for variability. “You could see the same patient in the morning and then do UPDRS in the afternoon, and it can be totally different depending on when you meet the person,” she said.

Only so much testing can be done remotely. Nonetheless, she questioned whether it is really a valid UPDRS if rigidity and postural stability measures are eliminated. “[Is] this now a new modified UPDRS that we’re going to use that is as good as the old UPDRS moving forward, a home version of UPDRS or whatever we’re going to call it?”

Dr. Subramanian mentioned that patients have told her that UPDRS part III does not really measure what is most important to them, such as making pastries for their grandchildren rather than rapidly tapping their fingers.

“That speaks a little bit to the fact that we should have more patient-centered outcomes and things that patients can report. … things that are not going to require necessarily an in-person exam as maybe measures that really can be used moving forward in studies,” she suggested.
 

Patient satisfaction with remote visits

Greater than 90% of the patients were satisfied or very satisfied overall with the remote visits, including the convenience, comfort, and connection (using the devices and Internet connection), with “patients describing enjoying being able to do these visits from the comfort of their own home, not having to travel,” Dr. Tarolli said. Not having to drive in an ‘off’ state “was actually something that some participants identified as a safety benefit from this as well.”

There was also a time benefit to the patients and investigators. The average length of the remote visits was 54.3 minutes each versus 74 minutes of interaction for in-person visits, mainly a result of more efficient hand-offs between the neurologist and the study coordinator during the remote visits, plus being able to pause the remote visit to give a medication dose time to take effect.

For the patient, there was a large amount of time saved when travel time was considered – a total of 190.2 minutes on average for travel and testing for the in-person visits.

About three-quarters (76%) of the study patients said that remote visits would increase their likelihood of participating in future trials. However, that result may be skewed by the fact that these were already people willing to participate in a remote trial, so the generalizability of the result may be affected. Nonetheless, Dr. Tarolli said he thinks that, as technology gets better and older people become more comfortable with it, remote visits within Parkinson’s research studies may become more common.

One caveat he mentioned is that, with remote visits, the neurologist misses a chance to observe a patient’s whole body and construct a global impression of how he or she is moving. On the other hand, remote video gives the investigator the chance to see the living environment of the patient and suggest changes for safety, such as to reduce the risk of falling for a person with unsteadiness of gait living in a crowded house.

“It really allows us to make a more holistic assessment of how our patient is functioning outside the clinic, which I think we’ve traditionally had really no way of doing,” Dr. Tarolli said.

His final suggestion for anyone contemplating conducting studies with remote visits is to develop a team that is comfortable troubleshooting the technological aspects of those visits.

UCLA’s Dr. Subramanian lauded the University of Rochester team for their efforts in moving remote visits forward. “They’re at the cutting edge of these sorts of things,” she said. “So I’m assuming that they’ll come out with more things [for visits] to become better that are going to move this forward, which is exciting.”

Dr. Tarolli has disclosed no relevant financial relationships. Dr. Subramanian has given talks for Acorda Pharmaceuticals and Acadia Pharmaceuticals in the past. The study had only university, government, foundation, and other nonprofit support.

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

Remote telemedicine visits were feasible, reasonably reliable, and acceptable to individuals with Parkinson’s disease, a 1-year, phase 3 clinical trial has shown. The trial was an add-on study involving a subset of subjects from the STEADY-PD III trial of isradipine in early Parkinson’s disease.

Although the trial was conducted before SARS-CoV-2 arrived on the scene, the findings have particular relevance for being able to conduct a variety of clinical trials in the face of COVID-19 and the need to limit in-person interactions.

The 40 participants used tablets to complete three remote, video-based assessments during 1 year, with each remote visit planned to be completed within 4 weeks of an in-person visit. It was easy to enroll patients, and they completed about 95% of planned visits, said neurologist Christopher Tarolli, MD, of the University of Rochester (N.Y.).

He presented the study findings at the Movement Disorder Society’s 23rd International Congress of Parkinson’s Disease and Movement Disorders (Virtual) 2020.

“The visits were clearly feasible, and we were able to do them [84%] within that 4-week time frame around the in-person visit,” he said. “The visits were also reasonably reliable, particularly so for what we call the nonmotor outcomes and the patient-reported outcomes.”
 

In-person versus remote assessment

For the remote visits, participants completed primarily the same battery of tests as the in-person visits. Responses on the Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) subscales demonstrated “that there was excellent correlation between patient-reported and nonmotor outcome measures and moderate correlation between in-person and remote-performed motor assessments,” Dr. Tarolli said.  

He explained that the study used modified motor assessments (MDS-UPDRS Part III) that excluded testing of rigidity and postural instability, which require hands-on testing by a trained examiner and thus are impossible to do remotely.

Additionally, the somewhat lower correlation on this subscale was probably the result of different investigators conducting in-person versus remote assessments, with a subset of in-person investigators who tended to rate participants more severely driving down the correlation. “I think if these methods were applied in future trials, the in-person and remote investigators would optimally be the same person,” Dr. Tarolli suggested.
 

Room for error?

Indu Subramanian, MD, of the department of neurology at the University of California, Los Angeles, and director of the Parkinson’s Disease Research, Education, and Clinical Center at the West Los Angeles Veterans Affairs Hospital, commented that “the reliability of UPDRS [part] III is where I would want to have, for sure, a little bit more of a deep dive. … possibly the same patient be rated by the same person.”

She also noted that doing remote and in-person assessments within 4 weeks of each other leaves a lot of room for variability. “You could see the same patient in the morning and then do UPDRS in the afternoon, and it can be totally different depending on when you meet the person,” she said.

Only so much testing can be done remotely. Nonetheless, she questioned whether it is really a valid UPDRS if rigidity and postural stability measures are eliminated. “[Is] this now a new modified UPDRS that we’re going to use that is as good as the old UPDRS moving forward, a home version of UPDRS or whatever we’re going to call it?”

Dr. Subramanian mentioned that patients have told her that UPDRS part III does not really measure what is most important to them, such as making pastries for their grandchildren rather than rapidly tapping their fingers.

“That speaks a little bit to the fact that we should have more patient-centered outcomes and things that patients can report. … things that are not going to require necessarily an in-person exam as maybe measures that really can be used moving forward in studies,” she suggested.
 

Patient satisfaction with remote visits

Greater than 90% of the patients were satisfied or very satisfied overall with the remote visits, including the convenience, comfort, and connection (using the devices and Internet connection), with “patients describing enjoying being able to do these visits from the comfort of their own home, not having to travel,” Dr. Tarolli said. Not having to drive in an ‘off’ state “was actually something that some participants identified as a safety benefit from this as well.”

There was also a time benefit to the patients and investigators. The average length of the remote visits was 54.3 minutes each versus 74 minutes of interaction for in-person visits, mainly a result of more efficient hand-offs between the neurologist and the study coordinator during the remote visits, plus being able to pause the remote visit to give a medication dose time to take effect.

For the patient, there was a large amount of time saved when travel time was considered – a total of 190.2 minutes on average for travel and testing for the in-person visits.

About three-quarters (76%) of the study patients said that remote visits would increase their likelihood of participating in future trials. However, that result may be skewed by the fact that these were already people willing to participate in a remote trial, so the generalizability of the result may be affected. Nonetheless, Dr. Tarolli said he thinks that, as technology gets better and older people become more comfortable with it, remote visits within Parkinson’s research studies may become more common.

One caveat he mentioned is that, with remote visits, the neurologist misses a chance to observe a patient’s whole body and construct a global impression of how he or she is moving. On the other hand, remote video gives the investigator the chance to see the living environment of the patient and suggest changes for safety, such as to reduce the risk of falling for a person with unsteadiness of gait living in a crowded house.

“It really allows us to make a more holistic assessment of how our patient is functioning outside the clinic, which I think we’ve traditionally had really no way of doing,” Dr. Tarolli said.

His final suggestion for anyone contemplating conducting studies with remote visits is to develop a team that is comfortable troubleshooting the technological aspects of those visits.

UCLA’s Dr. Subramanian lauded the University of Rochester team for their efforts in moving remote visits forward. “They’re at the cutting edge of these sorts of things,” she said. “So I’m assuming that they’ll come out with more things [for visits] to become better that are going to move this forward, which is exciting.”

Dr. Tarolli has disclosed no relevant financial relationships. Dr. Subramanian has given talks for Acorda Pharmaceuticals and Acadia Pharmaceuticals in the past. The study had only university, government, foundation, and other nonprofit support.

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

Remote telemedicine visits were feasible, reasonably reliable, and acceptable to individuals with Parkinson’s disease, a 1-year, phase 3 clinical trial has shown. The trial was an add-on study involving a subset of subjects from the STEADY-PD III trial of isradipine in early Parkinson’s disease.

Although the trial was conducted before SARS-CoV-2 arrived on the scene, the findings have particular relevance for being able to conduct a variety of clinical trials in the face of COVID-19 and the need to limit in-person interactions.

The 40 participants used tablets to complete three remote, video-based assessments during 1 year, with each remote visit planned to be completed within 4 weeks of an in-person visit. It was easy to enroll patients, and they completed about 95% of planned visits, said neurologist Christopher Tarolli, MD, of the University of Rochester (N.Y.).

He presented the study findings at the Movement Disorder Society’s 23rd International Congress of Parkinson’s Disease and Movement Disorders (Virtual) 2020.

“The visits were clearly feasible, and we were able to do them [84%] within that 4-week time frame around the in-person visit,” he said. “The visits were also reasonably reliable, particularly so for what we call the nonmotor outcomes and the patient-reported outcomes.”
 

In-person versus remote assessment

For the remote visits, participants completed primarily the same battery of tests as the in-person visits. Responses on the Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) subscales demonstrated “that there was excellent correlation between patient-reported and nonmotor outcome measures and moderate correlation between in-person and remote-performed motor assessments,” Dr. Tarolli said.  

He explained that the study used modified motor assessments (MDS-UPDRS Part III) that excluded testing of rigidity and postural instability, which require hands-on testing by a trained examiner and thus are impossible to do remotely.

Additionally, the somewhat lower correlation on this subscale was probably the result of different investigators conducting in-person versus remote assessments, with a subset of in-person investigators who tended to rate participants more severely driving down the correlation. “I think if these methods were applied in future trials, the in-person and remote investigators would optimally be the same person,” Dr. Tarolli suggested.
 

Room for error?

Indu Subramanian, MD, of the department of neurology at the University of California, Los Angeles, and director of the Parkinson’s Disease Research, Education, and Clinical Center at the West Los Angeles Veterans Affairs Hospital, commented that “the reliability of UPDRS [part] III is where I would want to have, for sure, a little bit more of a deep dive. … possibly the same patient be rated by the same person.”

She also noted that doing remote and in-person assessments within 4 weeks of each other leaves a lot of room for variability. “You could see the same patient in the morning and then do UPDRS in the afternoon, and it can be totally different depending on when you meet the person,” she said.

Only so much testing can be done remotely. Nonetheless, she questioned whether it is really a valid UPDRS if rigidity and postural stability measures are eliminated. “[Is] this now a new modified UPDRS that we’re going to use that is as good as the old UPDRS moving forward, a home version of UPDRS or whatever we’re going to call it?”

Dr. Subramanian mentioned that patients have told her that UPDRS part III does not really measure what is most important to them, such as making pastries for their grandchildren rather than rapidly tapping their fingers.

“That speaks a little bit to the fact that we should have more patient-centered outcomes and things that patients can report. … things that are not going to require necessarily an in-person exam as maybe measures that really can be used moving forward in studies,” she suggested.
 

Patient satisfaction with remote visits

Greater than 90% of the patients were satisfied or very satisfied overall with the remote visits, including the convenience, comfort, and connection (using the devices and Internet connection), with “patients describing enjoying being able to do these visits from the comfort of their own home, not having to travel,” Dr. Tarolli said. Not having to drive in an ‘off’ state “was actually something that some participants identified as a safety benefit from this as well.”

There was also a time benefit to the patients and investigators. The average length of the remote visits was 54.3 minutes each versus 74 minutes of interaction for in-person visits, mainly a result of more efficient hand-offs between the neurologist and the study coordinator during the remote visits, plus being able to pause the remote visit to give a medication dose time to take effect.

For the patient, there was a large amount of time saved when travel time was considered – a total of 190.2 minutes on average for travel and testing for the in-person visits.

About three-quarters (76%) of the study patients said that remote visits would increase their likelihood of participating in future trials. However, that result may be skewed by the fact that these were already people willing to participate in a remote trial, so the generalizability of the result may be affected. Nonetheless, Dr. Tarolli said he thinks that, as technology gets better and older people become more comfortable with it, remote visits within Parkinson’s research studies may become more common.

One caveat he mentioned is that, with remote visits, the neurologist misses a chance to observe a patient’s whole body and construct a global impression of how he or she is moving. On the other hand, remote video gives the investigator the chance to see the living environment of the patient and suggest changes for safety, such as to reduce the risk of falling for a person with unsteadiness of gait living in a crowded house.

“It really allows us to make a more holistic assessment of how our patient is functioning outside the clinic, which I think we’ve traditionally had really no way of doing,” Dr. Tarolli said.

His final suggestion for anyone contemplating conducting studies with remote visits is to develop a team that is comfortable troubleshooting the technological aspects of those visits.

UCLA’s Dr. Subramanian lauded the University of Rochester team for their efforts in moving remote visits forward. “They’re at the cutting edge of these sorts of things,” she said. “So I’m assuming that they’ll come out with more things [for visits] to become better that are going to move this forward, which is exciting.”

Dr. Tarolli has disclosed no relevant financial relationships. Dr. Subramanian has given talks for Acorda Pharmaceuticals and Acadia Pharmaceuticals in the past. The study had only university, government, foundation, and other nonprofit support.

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

“I worry that vaccines are going to be sold like magic powder that we sprinkle across the land and make the virus go away,” Paul Offit, MD, said at the virtual American Academy of Pediatrics (AAP) 2020 National Conference. “That’s not true.”

Even after effective vaccines for SARS-CoV-2 are in widespread use, wearing masks will still be advisable to prevent COVID-19, according to Dr. Offit, director of the Vaccine Education Center and an attending physician in the Division of Infectious Diseases at Children’s Hospital of Philadelphia.

“I think we can get a vaccine that’s 75%-80% effective at preventing mild to moderate disease, but that means one of every four people can still get moderate to severe disease,” Dr. Offit continued.

And that’s if there is high uptake of the vaccine, which may not be the case. Recent polls have suggested there is considerable concern about the pending vaccines.

“It’s somewhat understandable,” Dr. Offitt acknowledged, especially given the “frightening” language used to describe vaccine development. Terms such as “warp speed” may suggest that haste might trump safety considerations. Before COVID-19, the fastest vaccine ever developed was for mumps, he said, with the virus isolated in 1963 and a commercial product available in 1967.
 

Addressing hesitancy in clinics

In a wide-ranging livestream plenary presentation, Dr. Offit, coinventor of a rotavirus vaccine, shed light on SARS-CoV-2 vaccine development and his impressions of vaccine hesitancy among patients and families. He also offered advice for how to reassure those skeptical of the safety and efficacy of any SARS-COV-2 vaccine, given the accelerated development process.

With more than 180 different vaccines in various stages of investigation, Dr. Offit called the effort to develop COVID-19 vaccines “unprecedented.” Part of that is a result of governments relieving pharmaceutical companies of much of the typical financial risk – which often climbs to hundreds of millions of dollars – by underwriting the costs of vaccine development to battle the pandemic-inducing virus, he said.

But this very swiftness is also stoking antivaccine sentiment. Dr. Offit, part of vaccine advisory groups for the National Institutes of Health and U.S. Food and Drug Administration, cited recent research reporting nearly half of American adults definitely or probably would not get a COVID-19 vaccine if it were available today.

“One way you convince skeptics is with data presented in a clear, compassionate, and compelling way,” he said.

“The other group is vaccine cynics, who are basically conspiracy theorists who believe pharmaceutical companies control the world, the government, the medical establishment. I think there’s no talking them down from this.”

Numerous strategies are being used in COVID-19 vaccine development, he noted, including messenger RNA, DNA, viral vectors, purified protein, and whole killed virus. Dr. Offit believes any candidates approved for distribution will likely be in the range of 75% effective at preventing mild to moderate symptoms.

But clinicians should be ready to face immediate questions of safety. “Even if this vaccination is given to 20,000 [trial participants] safely, that’s not 20 million,” Dr. Offit said. “Anyone could reasonably ask questions about if it causes rare, serious side effects.

“The good news is, there are systems in place,” such as adverse event reporting systems, to identify rare events, even those that occur in one in a million vaccine recipients. Reminding patients of that continued surveillance can be reassuring.

Another reassuring point is that COVID-19 vaccine trial participants have included people from many diverse populations, he said. But children, notably absent so far, should be added to trials immediately, Dr. Offit contends.

“This is going to be important when you consider strategies to get children universally back into school,” he said, which is a “critical issue” from both learning and wellness standpoints. “It breaks my heart that we’ve been unable to do this when other countries have.”
 

Transparency will be paramount

While presenting data transparently to patients is key in helping them accept COVID-19 vaccination, Dr. Offit said, he also believes “telling stories” can be just as effective, if not more so. When the varicella vaccine was approved in 1995, he said, the “uptake the first few years was pretty miserable” until public service messaging emphasized that some children die from chickenpox.

“Fear works,” he said. “You always worry about pushback of something being oversold, but hopefully we’re scared enough about this virus” to convince people that vaccination is wise. “I do think personal stories carry weight on both sides,” Dr. Offit said.

Mark Sawyer, MD, of University of California San Diego School of Medicine and Rady Children’s Hospital in San Diego, California, said Offit’s presentation offered important takeaways for clinicians about how to broach the topic of COVID-19 vaccination with patients and families.

“We need to communicate clearly and transparently to patients about what we do and don’t know” about the vaccines, Dr. Sawyer said in an interview. “We will know if they have common side effects, but we will not know about very rare side effects until we have used the vaccines for a while.

“We will know how well the vaccine works over the short-term, but we won’t know over the long term,” added Dr. Sawyer, a member of the AAP Committee on Infectious Diseases.

“We can reassure the community that SARS-CoV-2 vaccines are being evaluated in trials in the same way and with the same thoroughness as other vaccines have been,” he said. “That should give people confidence that shortcuts are not being taken with regard to safety and effectiveness evaluations.”

Dr. Offit and Dr. Sawyer have disclosed no relevant financial relationships.
 

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

“I worry that vaccines are going to be sold like magic powder that we sprinkle across the land and make the virus go away,” Paul Offit, MD, said at the virtual American Academy of Pediatrics (AAP) 2020 National Conference. “That’s not true.”

Even after effective vaccines for SARS-CoV-2 are in widespread use, wearing masks will still be advisable to prevent COVID-19, according to Dr. Offit, director of the Vaccine Education Center and an attending physician in the Division of Infectious Diseases at Children’s Hospital of Philadelphia.

“I think we can get a vaccine that’s 75%-80% effective at preventing mild to moderate disease, but that means one of every four people can still get moderate to severe disease,” Dr. Offit continued.

And that’s if there is high uptake of the vaccine, which may not be the case. Recent polls have suggested there is considerable concern about the pending vaccines.

“It’s somewhat understandable,” Dr. Offitt acknowledged, especially given the “frightening” language used to describe vaccine development. Terms such as “warp speed” may suggest that haste might trump safety considerations. Before COVID-19, the fastest vaccine ever developed was for mumps, he said, with the virus isolated in 1963 and a commercial product available in 1967.
 

Addressing hesitancy in clinics

In a wide-ranging livestream plenary presentation, Dr. Offit, coinventor of a rotavirus vaccine, shed light on SARS-CoV-2 vaccine development and his impressions of vaccine hesitancy among patients and families. He also offered advice for how to reassure those skeptical of the safety and efficacy of any SARS-COV-2 vaccine, given the accelerated development process.

With more than 180 different vaccines in various stages of investigation, Dr. Offit called the effort to develop COVID-19 vaccines “unprecedented.” Part of that is a result of governments relieving pharmaceutical companies of much of the typical financial risk – which often climbs to hundreds of millions of dollars – by underwriting the costs of vaccine development to battle the pandemic-inducing virus, he said.

But this very swiftness is also stoking antivaccine sentiment. Dr. Offit, part of vaccine advisory groups for the National Institutes of Health and U.S. Food and Drug Administration, cited recent research reporting nearly half of American adults definitely or probably would not get a COVID-19 vaccine if it were available today.

“One way you convince skeptics is with data presented in a clear, compassionate, and compelling way,” he said.

“The other group is vaccine cynics, who are basically conspiracy theorists who believe pharmaceutical companies control the world, the government, the medical establishment. I think there’s no talking them down from this.”

Numerous strategies are being used in COVID-19 vaccine development, he noted, including messenger RNA, DNA, viral vectors, purified protein, and whole killed virus. Dr. Offit believes any candidates approved for distribution will likely be in the range of 75% effective at preventing mild to moderate symptoms.

But clinicians should be ready to face immediate questions of safety. “Even if this vaccination is given to 20,000 [trial participants] safely, that’s not 20 million,” Dr. Offit said. “Anyone could reasonably ask questions about if it causes rare, serious side effects.

“The good news is, there are systems in place,” such as adverse event reporting systems, to identify rare events, even those that occur in one in a million vaccine recipients. Reminding patients of that continued surveillance can be reassuring.

Another reassuring point is that COVID-19 vaccine trial participants have included people from many diverse populations, he said. But children, notably absent so far, should be added to trials immediately, Dr. Offit contends.

“This is going to be important when you consider strategies to get children universally back into school,” he said, which is a “critical issue” from both learning and wellness standpoints. “It breaks my heart that we’ve been unable to do this when other countries have.”
 

Transparency will be paramount

While presenting data transparently to patients is key in helping them accept COVID-19 vaccination, Dr. Offit said, he also believes “telling stories” can be just as effective, if not more so. When the varicella vaccine was approved in 1995, he said, the “uptake the first few years was pretty miserable” until public service messaging emphasized that some children die from chickenpox.

“Fear works,” he said. “You always worry about pushback of something being oversold, but hopefully we’re scared enough about this virus” to convince people that vaccination is wise. “I do think personal stories carry weight on both sides,” Dr. Offit said.

Mark Sawyer, MD, of University of California San Diego School of Medicine and Rady Children’s Hospital in San Diego, California, said Offit’s presentation offered important takeaways for clinicians about how to broach the topic of COVID-19 vaccination with patients and families.

“We need to communicate clearly and transparently to patients about what we do and don’t know” about the vaccines, Dr. Sawyer said in an interview. “We will know if they have common side effects, but we will not know about very rare side effects until we have used the vaccines for a while.

“We will know how well the vaccine works over the short-term, but we won’t know over the long term,” added Dr. Sawyer, a member of the AAP Committee on Infectious Diseases.

“We can reassure the community that SARS-CoV-2 vaccines are being evaluated in trials in the same way and with the same thoroughness as other vaccines have been,” he said. “That should give people confidence that shortcuts are not being taken with regard to safety and effectiveness evaluations.”

Dr. Offit and Dr. Sawyer have disclosed no relevant financial relationships.
 

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

“I worry that vaccines are going to be sold like magic powder that we sprinkle across the land and make the virus go away,” Paul Offit, MD, said at the virtual American Academy of Pediatrics (AAP) 2020 National Conference. “That’s not true.”

Even after effective vaccines for SARS-CoV-2 are in widespread use, wearing masks will still be advisable to prevent COVID-19, according to Dr. Offit, director of the Vaccine Education Center and an attending physician in the Division of Infectious Diseases at Children’s Hospital of Philadelphia.

“I think we can get a vaccine that’s 75%-80% effective at preventing mild to moderate disease, but that means one of every four people can still get moderate to severe disease,” Dr. Offit continued.

And that’s if there is high uptake of the vaccine, which may not be the case. Recent polls have suggested there is considerable concern about the pending vaccines.

“It’s somewhat understandable,” Dr. Offitt acknowledged, especially given the “frightening” language used to describe vaccine development. Terms such as “warp speed” may suggest that haste might trump safety considerations. Before COVID-19, the fastest vaccine ever developed was for mumps, he said, with the virus isolated in 1963 and a commercial product available in 1967.
 

Addressing hesitancy in clinics

In a wide-ranging livestream plenary presentation, Dr. Offit, coinventor of a rotavirus vaccine, shed light on SARS-CoV-2 vaccine development and his impressions of vaccine hesitancy among patients and families. He also offered advice for how to reassure those skeptical of the safety and efficacy of any SARS-COV-2 vaccine, given the accelerated development process.

With more than 180 different vaccines in various stages of investigation, Dr. Offit called the effort to develop COVID-19 vaccines “unprecedented.” Part of that is a result of governments relieving pharmaceutical companies of much of the typical financial risk – which often climbs to hundreds of millions of dollars – by underwriting the costs of vaccine development to battle the pandemic-inducing virus, he said.

But this very swiftness is also stoking antivaccine sentiment. Dr. Offit, part of vaccine advisory groups for the National Institutes of Health and U.S. Food and Drug Administration, cited recent research reporting nearly half of American adults definitely or probably would not get a COVID-19 vaccine if it were available today.

“One way you convince skeptics is with data presented in a clear, compassionate, and compelling way,” he said.

“The other group is vaccine cynics, who are basically conspiracy theorists who believe pharmaceutical companies control the world, the government, the medical establishment. I think there’s no talking them down from this.”

Numerous strategies are being used in COVID-19 vaccine development, he noted, including messenger RNA, DNA, viral vectors, purified protein, and whole killed virus. Dr. Offit believes any candidates approved for distribution will likely be in the range of 75% effective at preventing mild to moderate symptoms.

But clinicians should be ready to face immediate questions of safety. “Even if this vaccination is given to 20,000 [trial participants] safely, that’s not 20 million,” Dr. Offit said. “Anyone could reasonably ask questions about if it causes rare, serious side effects.

“The good news is, there are systems in place,” such as adverse event reporting systems, to identify rare events, even those that occur in one in a million vaccine recipients. Reminding patients of that continued surveillance can be reassuring.

Another reassuring point is that COVID-19 vaccine trial participants have included people from many diverse populations, he said. But children, notably absent so far, should be added to trials immediately, Dr. Offit contends.

“This is going to be important when you consider strategies to get children universally back into school,” he said, which is a “critical issue” from both learning and wellness standpoints. “It breaks my heart that we’ve been unable to do this when other countries have.”
 

Transparency will be paramount

While presenting data transparently to patients is key in helping them accept COVID-19 vaccination, Dr. Offit said, he also believes “telling stories” can be just as effective, if not more so. When the varicella vaccine was approved in 1995, he said, the “uptake the first few years was pretty miserable” until public service messaging emphasized that some children die from chickenpox.

“Fear works,” he said. “You always worry about pushback of something being oversold, but hopefully we’re scared enough about this virus” to convince people that vaccination is wise. “I do think personal stories carry weight on both sides,” Dr. Offit said.

Mark Sawyer, MD, of University of California San Diego School of Medicine and Rady Children’s Hospital in San Diego, California, said Offit’s presentation offered important takeaways for clinicians about how to broach the topic of COVID-19 vaccination with patients and families.

“We need to communicate clearly and transparently to patients about what we do and don’t know” about the vaccines, Dr. Sawyer said in an interview. “We will know if they have common side effects, but we will not know about very rare side effects until we have used the vaccines for a while.

“We will know how well the vaccine works over the short-term, but we won’t know over the long term,” added Dr. Sawyer, a member of the AAP Committee on Infectious Diseases.

“We can reassure the community that SARS-CoV-2 vaccines are being evaluated in trials in the same way and with the same thoroughness as other vaccines have been,” he said. “That should give people confidence that shortcuts are not being taken with regard to safety and effectiveness evaluations.”

Dr. Offit and Dr. Sawyer have disclosed no relevant financial relationships.
 

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

Although cases of COVID-19 in children is reported to be low, we are seeing a surge in Wisconsin with a 27.6% positivity rate reported on Sept. 27. Numerous other states across the country are reporting similar jumps of 10% or more.

According to the Wisconsin Department of Health Services as of Sept. 20, 2020, there were 10,644 cumulative cases in persons aged less than 18 years. This rise in cases is consistent with a return to school and sports. This cumulative case load amounts to 836.7/100, 000 cases. This population may not experience the level of illness seen in the older populations with hospitalization rates of only 3% under the age of 9 years and 13% of those age 10- 19-years, yet exposing older family and members of the community is driving the death rates. The combined influenza and COVID-19 season may greatly impact hospitalization rates of young and old. Additionally, we may see a surge in pediatric cancer rates and autoimmune diseases secondary to these trends.

I believe the overall number of adolescents with COVID-19 is underreported. Teens admit to a lack of understanding of symptoms. Many do not realize they have COVID-19 until someone points out the symptoms they describe such as a loss of taste or smell are COVID-19 symptoms. Others report they do not report symptoms to prevent quarantine. Additionally, others endorse ridicule from peers if they have tested positive and contract tracing identifies others potentially exposed and forced to sit out of sports because of quarantine. They have been bullied into amnesia when contract tracers call to prevent identifying others at school or in the community. All these behaviors proliferate the spread of disease within the community and will continue to drive both exposures and death rates.

Teens in high schools require increased education of the symptoms of COVID-19, promotion of the flu vaccine, and knowledge of the impact they can have on preventing the spread of viruses.

Ms. Thew is the medical director of the department of adolescent medicine at Children’s Wisconsin in Milwaukee. She is a member of the Pediatric News editorial advisory board. She said she had no relevant financial disclosures. Email her at [email protected].

Reference

COVID-19: Wisconsin Cases, Wisconsin Department of Health Services. Accessed 2020 Sep 27.

Although cases of COVID-19 in children is reported to be low, we are seeing a surge in Wisconsin with a 27.6% positivity rate reported on Sept. 27. Numerous other states across the country are reporting similar jumps of 10% or more.

According to the Wisconsin Department of Health Services as of Sept. 20, 2020, there were 10,644 cumulative cases in persons aged less than 18 years. This rise in cases is consistent with a return to school and sports. This cumulative case load amounts to 836.7/100, 000 cases. This population may not experience the level of illness seen in the older populations with hospitalization rates of only 3% under the age of 9 years and 13% of those age 10- 19-years, yet exposing older family and members of the community is driving the death rates. The combined influenza and COVID-19 season may greatly impact hospitalization rates of young and old. Additionally, we may see a surge in pediatric cancer rates and autoimmune diseases secondary to these trends.

I believe the overall number of adolescents with COVID-19 is underreported. Teens admit to a lack of understanding of symptoms. Many do not realize they have COVID-19 until someone points out the symptoms they describe such as a loss of taste or smell are COVID-19 symptoms. Others report they do not report symptoms to prevent quarantine. Additionally, others endorse ridicule from peers if they have tested positive and contract tracing identifies others potentially exposed and forced to sit out of sports because of quarantine. They have been bullied into amnesia when contract tracers call to prevent identifying others at school or in the community. All these behaviors proliferate the spread of disease within the community and will continue to drive both exposures and death rates.

Teens in high schools require increased education of the symptoms of COVID-19, promotion of the flu vaccine, and knowledge of the impact they can have on preventing the spread of viruses.

Ms. Thew is the medical director of the department of adolescent medicine at Children’s Wisconsin in Milwaukee. She is a member of the Pediatric News editorial advisory board. She said she had no relevant financial disclosures. Email her at [email protected].

Reference

COVID-19: Wisconsin Cases, Wisconsin Department of Health Services. Accessed 2020 Sep 27.

Although cases of COVID-19 in children is reported to be low, we are seeing a surge in Wisconsin with a 27.6% positivity rate reported on Sept. 27. Numerous other states across the country are reporting similar jumps of 10% or more.

According to the Wisconsin Department of Health Services as of Sept. 20, 2020, there were 10,644 cumulative cases in persons aged less than 18 years. This rise in cases is consistent with a return to school and sports. This cumulative case load amounts to 836.7/100, 000 cases. This population may not experience the level of illness seen in the older populations with hospitalization rates of only 3% under the age of 9 years and 13% of those age 10- 19-years, yet exposing older family and members of the community is driving the death rates. The combined influenza and COVID-19 season may greatly impact hospitalization rates of young and old. Additionally, we may see a surge in pediatric cancer rates and autoimmune diseases secondary to these trends.

I believe the overall number of adolescents with COVID-19 is underreported. Teens admit to a lack of understanding of symptoms. Many do not realize they have COVID-19 until someone points out the symptoms they describe such as a loss of taste or smell are COVID-19 symptoms. Others report they do not report symptoms to prevent quarantine. Additionally, others endorse ridicule from peers if they have tested positive and contract tracing identifies others potentially exposed and forced to sit out of sports because of quarantine. They have been bullied into amnesia when contract tracers call to prevent identifying others at school or in the community. All these behaviors proliferate the spread of disease within the community and will continue to drive both exposures and death rates.

Teens in high schools require increased education of the symptoms of COVID-19, promotion of the flu vaccine, and knowledge of the impact they can have on preventing the spread of viruses.

Ms. Thew is the medical director of the department of adolescent medicine at Children’s Wisconsin in Milwaukee. She is a member of the Pediatric News editorial advisory board. She said she had no relevant financial disclosures. Email her at [email protected].

Reference

COVID-19: Wisconsin Cases, Wisconsin Department of Health Services. Accessed 2020 Sep 27.

Pediatric fractures dropped by 2.5-fold during the early months of the COVID-19 pandemic, but more breaks happened at home and on bicycles, and younger kids were more affected, new research indicates.

The study of 1,745 patients also found that those with distal radius torus fractures were more likely to receive a Velcro splint during the pandemic. Experts said this key trend points toward widespread shifts to streamline treatment, which should persist after the pandemic.

“We expected to see a drop in fracture volume, but what was a bit unexpected was the proportional rise in at-home injuries, which we weren’t immediately aware of,” said senior author Apurva Shah, MD, MBA, of Children’s Hospital of Philadelphia (CHOP) and the University of Pennsylvania in Philadelphia.

“As time went on, it became more apparent that trampoline and bicycle injuries were on the rise, but at the beginning of the pandemic, we didn’t intuitively expect that,” he added.

“Whenever there’s a major shift in how the world is working, we want to understand how that impacts child safety,” Dr. Shah said in an interview. “The message to get out to parents is that it’s obviously difficult to supervise kids while working from home” during the pandemic “and that supervision obviously is not always working as well as intended.”

Joshua T. Bram, a medical student, presented the study at the virtual American Academy of Pediatrics (AAP) 2020 National Conference.

Dr. Bram, Dr. Shah, and colleagues compared patients with acute fractures who presented at CHOP between March and April 2020 with those who presented during the same months in 2018 and 2019.

Overall, the number of patients with pediatric fractures who presented to CHOP fell to an average of just under 10 per day, compared with more than 22 per day in prior years (P < .001). In addition, the age of the patients fell from an average of 9.4 years to 7.5 years (P < .001), with fewer adolescents affected in 2020.

“I think when you cancel a 14-year-old’s baseball season” because of the pandemic, “unfortunately, that lost outdoor time might be substituted with time on a screen,” he explained. “But canceling a 6-year-old’s soccer season might mean substituting that with more time outside on bikes or on a trampoline.”

As noted, because of the pandemic, a higher proportion of pediatric fractures occurred at home (57.8% vs. 32.5%; P < .001) or on bicycles (18.3% vs. 8.2%; P < .001), but there were fewer organized sports–related (7.2% vs. 26.0%; P < .001) or playground-related injuries (5.2% vs. 9.0%; P < .001).

In the study period this year, the researchers saw no increase in the amount of time between injury and presentation. However, data suggest that, in more recent months, “kids are presenting with fractures late, with sometimes great consequences,” Dr. Shah said.

“What has changed is that a lot of adults have lost their jobs, and as a consequence, a lot of children have lost their access to private insurance,” he said. “But fracture is really a major injury, and this is a reminder for pediatricians and primary care physicians to recognize that families are going through these changes and that delays in care can really be detrimental to children.”
 

Velcro splints more common

A potential upside to shifts seen during the pandemic, Dr. Shah said, is the finding that distal radius torus fractures were more likely to be treated with a Velcro splint than in previous years (44.2% vs. 25.9%; P = .010).

“This is hitting on something important – that sometimes it’s crisis that forces us as physicians to evolve,” he said. “This is something I think is here to stay.

“Although research had already been there suggesting a close equivalent between splints and casting, culturally, a lot of surgeons hadn’t made that shift when historically the gold standard had been casting,” Dr. Shah added. “But with the pandemic, the shift to minimize contact with the health care system to keep families safe in their COVID bubble helped [usage of] splints take off.

“I suspect – and we’ll only know when we’re on the other side of this – when physicians see good results in splints in their own patients, they’re going to adopt those strategies more permanently,” he said.

Benjamin Shore, MD, MPH, of Boston Children’s Hospital, agreed with Dr. Shah’s prediction that fracture care will be more streamlined after the pandemic. Dr. Shore, who wasn’t involved in the study, said not only are more orthopedic providers treating patients with Velcro splints and bivalve casts, but they are also monitoring patients via telehealth.

“All of these are great examples of innovation, and one of the unique parts of the pandemic is it created a lot of rapid change across healthcare because it caused us to scrutinize the ways we practice and make a change,” Dr. Shore said in an interview.

“It wasn’t a very fancy study, but it’s very important in terms of demonstrating a change in practice,” Dr. Shore said. “The research here basically validated what many of us are seeing and hopefully will help us in future pandemics – which hopefully won’t happen – to tell families what to be proactive about.”

Dr. Shah and Dr. Shore agreed that, because fewer fractures are occurring in kids during the pandemic, there is an opportunity to redeploy orthopedic providers to other clinical areas on the basis of volume and need.

Dr. Shah and Dr. Shore have disclosed no relevant financial relationships.
 

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

Pediatric fractures dropped by 2.5-fold during the early months of the COVID-19 pandemic, but more breaks happened at home and on bicycles, and younger kids were more affected, new research indicates.

The study of 1,745 patients also found that those with distal radius torus fractures were more likely to receive a Velcro splint during the pandemic. Experts said this key trend points toward widespread shifts to streamline treatment, which should persist after the pandemic.

“We expected to see a drop in fracture volume, but what was a bit unexpected was the proportional rise in at-home injuries, which we weren’t immediately aware of,” said senior author Apurva Shah, MD, MBA, of Children’s Hospital of Philadelphia (CHOP) and the University of Pennsylvania in Philadelphia.

“As time went on, it became more apparent that trampoline and bicycle injuries were on the rise, but at the beginning of the pandemic, we didn’t intuitively expect that,” he added.

“Whenever there’s a major shift in how the world is working, we want to understand how that impacts child safety,” Dr. Shah said in an interview. “The message to get out to parents is that it’s obviously difficult to supervise kids while working from home” during the pandemic “and that supervision obviously is not always working as well as intended.”

Joshua T. Bram, a medical student, presented the study at the virtual American Academy of Pediatrics (AAP) 2020 National Conference.

Dr. Bram, Dr. Shah, and colleagues compared patients with acute fractures who presented at CHOP between March and April 2020 with those who presented during the same months in 2018 and 2019.

Overall, the number of patients with pediatric fractures who presented to CHOP fell to an average of just under 10 per day, compared with more than 22 per day in prior years (P < .001). In addition, the age of the patients fell from an average of 9.4 years to 7.5 years (P < .001), with fewer adolescents affected in 2020.

“I think when you cancel a 14-year-old’s baseball season” because of the pandemic, “unfortunately, that lost outdoor time might be substituted with time on a screen,” he explained. “But canceling a 6-year-old’s soccer season might mean substituting that with more time outside on bikes or on a trampoline.”

As noted, because of the pandemic, a higher proportion of pediatric fractures occurred at home (57.8% vs. 32.5%; P < .001) or on bicycles (18.3% vs. 8.2%; P < .001), but there were fewer organized sports–related (7.2% vs. 26.0%; P < .001) or playground-related injuries (5.2% vs. 9.0%; P < .001).

In the study period this year, the researchers saw no increase in the amount of time between injury and presentation. However, data suggest that, in more recent months, “kids are presenting with fractures late, with sometimes great consequences,” Dr. Shah said.

“What has changed is that a lot of adults have lost their jobs, and as a consequence, a lot of children have lost their access to private insurance,” he said. “But fracture is really a major injury, and this is a reminder for pediatricians and primary care physicians to recognize that families are going through these changes and that delays in care can really be detrimental to children.”
 

Velcro splints more common

A potential upside to shifts seen during the pandemic, Dr. Shah said, is the finding that distal radius torus fractures were more likely to be treated with a Velcro splint than in previous years (44.2% vs. 25.9%; P = .010).

“This is hitting on something important – that sometimes it’s crisis that forces us as physicians to evolve,” he said. “This is something I think is here to stay.

“Although research had already been there suggesting a close equivalent between splints and casting, culturally, a lot of surgeons hadn’t made that shift when historically the gold standard had been casting,” Dr. Shah added. “But with the pandemic, the shift to minimize contact with the health care system to keep families safe in their COVID bubble helped [usage of] splints take off.

“I suspect – and we’ll only know when we’re on the other side of this – when physicians see good results in splints in their own patients, they’re going to adopt those strategies more permanently,” he said.

Benjamin Shore, MD, MPH, of Boston Children’s Hospital, agreed with Dr. Shah’s prediction that fracture care will be more streamlined after the pandemic. Dr. Shore, who wasn’t involved in the study, said not only are more orthopedic providers treating patients with Velcro splints and bivalve casts, but they are also monitoring patients via telehealth.

“All of these are great examples of innovation, and one of the unique parts of the pandemic is it created a lot of rapid change across healthcare because it caused us to scrutinize the ways we practice and make a change,” Dr. Shore said in an interview.

“It wasn’t a very fancy study, but it’s very important in terms of demonstrating a change in practice,” Dr. Shore said. “The research here basically validated what many of us are seeing and hopefully will help us in future pandemics – which hopefully won’t happen – to tell families what to be proactive about.”

Dr. Shah and Dr. Shore agreed that, because fewer fractures are occurring in kids during the pandemic, there is an opportunity to redeploy orthopedic providers to other clinical areas on the basis of volume and need.

Dr. Shah and Dr. Shore have disclosed no relevant financial relationships.
 

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

Pediatric fractures dropped by 2.5-fold during the early months of the COVID-19 pandemic, but more breaks happened at home and on bicycles, and younger kids were more affected, new research indicates.

The study of 1,745 patients also found that those with distal radius torus fractures were more likely to receive a Velcro splint during the pandemic. Experts said this key trend points toward widespread shifts to streamline treatment, which should persist after the pandemic.

“We expected to see a drop in fracture volume, but what was a bit unexpected was the proportional rise in at-home injuries, which we weren’t immediately aware of,” said senior author Apurva Shah, MD, MBA, of Children’s Hospital of Philadelphia (CHOP) and the University of Pennsylvania in Philadelphia.

“As time went on, it became more apparent that trampoline and bicycle injuries were on the rise, but at the beginning of the pandemic, we didn’t intuitively expect that,” he added.

“Whenever there’s a major shift in how the world is working, we want to understand how that impacts child safety,” Dr. Shah said in an interview. “The message to get out to parents is that it’s obviously difficult to supervise kids while working from home” during the pandemic “and that supervision obviously is not always working as well as intended.”

Joshua T. Bram, a medical student, presented the study at the virtual American Academy of Pediatrics (AAP) 2020 National Conference.

Dr. Bram, Dr. Shah, and colleagues compared patients with acute fractures who presented at CHOP between March and April 2020 with those who presented during the same months in 2018 and 2019.

Overall, the number of patients with pediatric fractures who presented to CHOP fell to an average of just under 10 per day, compared with more than 22 per day in prior years (P < .001). In addition, the age of the patients fell from an average of 9.4 years to 7.5 years (P < .001), with fewer adolescents affected in 2020.

“I think when you cancel a 14-year-old’s baseball season” because of the pandemic, “unfortunately, that lost outdoor time might be substituted with time on a screen,” he explained. “But canceling a 6-year-old’s soccer season might mean substituting that with more time outside on bikes or on a trampoline.”

As noted, because of the pandemic, a higher proportion of pediatric fractures occurred at home (57.8% vs. 32.5%; P < .001) or on bicycles (18.3% vs. 8.2%; P < .001), but there were fewer organized sports–related (7.2% vs. 26.0%; P < .001) or playground-related injuries (5.2% vs. 9.0%; P < .001).

In the study period this year, the researchers saw no increase in the amount of time between injury and presentation. However, data suggest that, in more recent months, “kids are presenting with fractures late, with sometimes great consequences,” Dr. Shah said.

“What has changed is that a lot of adults have lost their jobs, and as a consequence, a lot of children have lost their access to private insurance,” he said. “But fracture is really a major injury, and this is a reminder for pediatricians and primary care physicians to recognize that families are going through these changes and that delays in care can really be detrimental to children.”
 

Velcro splints more common

A potential upside to shifts seen during the pandemic, Dr. Shah said, is the finding that distal radius torus fractures were more likely to be treated with a Velcro splint than in previous years (44.2% vs. 25.9%; P = .010).

“This is hitting on something important – that sometimes it’s crisis that forces us as physicians to evolve,” he said. “This is something I think is here to stay.

“Although research had already been there suggesting a close equivalent between splints and casting, culturally, a lot of surgeons hadn’t made that shift when historically the gold standard had been casting,” Dr. Shah added. “But with the pandemic, the shift to minimize contact with the health care system to keep families safe in their COVID bubble helped [usage of] splints take off.

“I suspect – and we’ll only know when we’re on the other side of this – when physicians see good results in splints in their own patients, they’re going to adopt those strategies more permanently,” he said.

Benjamin Shore, MD, MPH, of Boston Children’s Hospital, agreed with Dr. Shah’s prediction that fracture care will be more streamlined after the pandemic. Dr. Shore, who wasn’t involved in the study, said not only are more orthopedic providers treating patients with Velcro splints and bivalve casts, but they are also monitoring patients via telehealth.

“All of these are great examples of innovation, and one of the unique parts of the pandemic is it created a lot of rapid change across healthcare because it caused us to scrutinize the ways we practice and make a change,” Dr. Shore said in an interview.

“It wasn’t a very fancy study, but it’s very important in terms of demonstrating a change in practice,” Dr. Shore said. “The research here basically validated what many of us are seeing and hopefully will help us in future pandemics – which hopefully won’t happen – to tell families what to be proactive about.”

Dr. Shah and Dr. Shore agreed that, because fewer fractures are occurring in kids during the pandemic, there is an opportunity to redeploy orthopedic providers to other clinical areas on the basis of volume and need.

Dr. Shah and Dr. Shore have disclosed no relevant financial relationships.
 

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