Federal Practitioner

The COVID-19 pandemic is putting a strain on the blood supply and could be putting people – including those who normally get transfusions, such as patients with sickle cell disease and cancer – at risk.

“Around the beginning of March, the hematology community got wind of what was going on because the blood banks were saying think about your patients and begin to restrict blood usage because we are expecting an increase in usage for COVID-positive ICU patients,” Ifeyinwa (Ify) Osunkwo, MD, a specialist in hematology and sickle cell disease at Levine Cancer Institute in Charlotte, N.C., said in an interview.

“I think that was the first call to arms around hematology ... you don’t want to shortchange somebody who is well and who is being sustained by life-giving transfusions and cut out their transfusion therapy because you are hoping to use the blood for people who are coming in with COVID-19,” she continued. “That is an ethical dilemma that no doctor wants to have to go through. But the reality is we have to do something to make it work for everybody.”

And the timing of the social restrictions due to the pandemic has added additional strain on the blood supply.

“Over the winter, traditionally, blood drives slow down because of the flu and different viruses,” she noted. “The spring and the summer are when we see the biggest recruitment and uptake of blood donation. COVID-19 hit [and] a lot of the blood drives that were traditionally scheduled to supply blood for the country have been canceled because of the new guidance for social distancing.”

Another big source of blood are health care professionals themselves and they may not be able to donate because of the extra hours being worked because of the pandemic.

In speaking about the needs for traditional patients such as those who are dealing with cancer or leukemia or sickle cell diseases as well as those who are being treated for COVID-19 in North Carolina, “we are not at the critical point, but I am a little bit nervous that we may get there because they are not going to up the usual blood drives anytime this summer. We project [sometime] in the fall, but maybe not even then. So there needs to be a significant call-out for people to make every effort to donate blood,” said Dr. Osunkwo. She added that in places such as New York City that are hot spots for the COVID-19 outbreak, the need is likely a lot greater.

She recalled a recent incident at a New York hospital that highlighted how those managing blood supplies are being restrictive and how this could be harming patients.

“A sickle cell patient came in with COVID-19 and the treatment recommendation was do a red blood cell exchange but the blood bank was nervous about getting enough blood to supply for that exchange transfusion,” she said, noting that the doctor still went to bat for that patient to get the needed treatment. “We gave her the supporting evidence that when you are on treatment for sickle cell disease, you tend to do better if you get COVID-19 or any other viral infection. The symptoms of COVID-19 in sickle cell disease is acute chest syndrome, for which the treatment is red blood cell exchange. Not doing that for [these patients] is really not giving them the optimal way of managing their disease, and managing their disease in the setting of COVID-19.”

To that end, Dr. Osunkwo stressed that doctors need to be doing all they can to get the word out that blood is needed and that the American Red Cross and other donation organizations are making it safe for people to donate. She has been using social media to highlight when her fellow doctors and others make donations as a way to motivate individuals.

“Everybody can do something during this pandemic,” she said. “Don’t feel like you are not working, that you are not a frontline worker, that you have nothing to contribute. You can donate blood. Your cousin can donate blood. You can tell your friends, your neighbors, your relatives, your enemies to go donate. We will take every kind of blood we can get because people are needing it more now. Even though we canceled elective surgeries, my patients when they get COVID-19, they need more blood ... than they usually do during their regular sickle cell admission. It is going to be the same for people who have other blood disorders like cancer and leukemia. We can’t stop life-saving treatments just because we have the COVID pandemic.”

Dr. Osunkwo also praised recent actions taken by the Food and Drug Administration to lessen some of the deferral periods for when an individual can donate.

The FDA on April 2 issued three sets of revised recommendations aimed at getting more people eligible to donate blood. All of the revised recommendations will remain in effect after the COVID-19 health emergency is declared over.

The first revised recommendation makes changes to December 2015 guidance.

For male blood donors who would have been deferred for having sex with another male partner, the deferral period has been reduced from 12 months to 3 months. That deferral period change also applies to female donors who had sex with a man who had sex with another man as well as for those with recent tattoos and piercings.

The second recommendation revises guidance from August 2013 and relates to the risk of transfusion-transmitted malaria.

Under the new recommendations, for those who traveled to malaria-endemic areas (and are residents of malaria non-endemic countries), the FDA is lowering the recommended deferral period from 12 months to 3 months, and also provides notices of an alternate procedure that permits donations without a deferral period provided the blood components are pathogen-reduced using an FDA-approved pathogen reduction device.

The third recommendation finalizes draft guidance from January that eliminates the referral period for donors who spent time in certain European countries or were on military bases in Europe and were previously considered to have been exposed to a potential risk of transmission of Creutzfeldt-Jakob Disease or Variant Creutzfeldt-Jakob Disease.

Dr. Osunkwo reports consultancy and being on the speakers bureau and participating in the advisory board for Novartis, and relationships with a variety of other pharmaceutical companies. She is the editor-in-chief for Hematology News.

[email protected]

The COVID-19 pandemic is putting a strain on the blood supply and could be putting people – including those who normally get transfusions, such as patients with sickle cell disease and cancer – at risk.

“Around the beginning of March, the hematology community got wind of what was going on because the blood banks were saying think about your patients and begin to restrict blood usage because we are expecting an increase in usage for COVID-positive ICU patients,” Ifeyinwa (Ify) Osunkwo, MD, a specialist in hematology and sickle cell disease at Levine Cancer Institute in Charlotte, N.C., said in an interview.

“I think that was the first call to arms around hematology ... you don’t want to shortchange somebody who is well and who is being sustained by life-giving transfusions and cut out their transfusion therapy because you are hoping to use the blood for people who are coming in with COVID-19,” she continued. “That is an ethical dilemma that no doctor wants to have to go through. But the reality is we have to do something to make it work for everybody.”

And the timing of the social restrictions due to the pandemic has added additional strain on the blood supply.

“Over the winter, traditionally, blood drives slow down because of the flu and different viruses,” she noted. “The spring and the summer are when we see the biggest recruitment and uptake of blood donation. COVID-19 hit [and] a lot of the blood drives that were traditionally scheduled to supply blood for the country have been canceled because of the new guidance for social distancing.”

Another big source of blood are health care professionals themselves and they may not be able to donate because of the extra hours being worked because of the pandemic.

In speaking about the needs for traditional patients such as those who are dealing with cancer or leukemia or sickle cell diseases as well as those who are being treated for COVID-19 in North Carolina, “we are not at the critical point, but I am a little bit nervous that we may get there because they are not going to up the usual blood drives anytime this summer. We project [sometime] in the fall, but maybe not even then. So there needs to be a significant call-out for people to make every effort to donate blood,” said Dr. Osunkwo. She added that in places such as New York City that are hot spots for the COVID-19 outbreak, the need is likely a lot greater.

She recalled a recent incident at a New York hospital that highlighted how those managing blood supplies are being restrictive and how this could be harming patients.

“A sickle cell patient came in with COVID-19 and the treatment recommendation was do a red blood cell exchange but the blood bank was nervous about getting enough blood to supply for that exchange transfusion,” she said, noting that the doctor still went to bat for that patient to get the needed treatment. “We gave her the supporting evidence that when you are on treatment for sickle cell disease, you tend to do better if you get COVID-19 or any other viral infection. The symptoms of COVID-19 in sickle cell disease is acute chest syndrome, for which the treatment is red blood cell exchange. Not doing that for [these patients] is really not giving them the optimal way of managing their disease, and managing their disease in the setting of COVID-19.”

To that end, Dr. Osunkwo stressed that doctors need to be doing all they can to get the word out that blood is needed and that the American Red Cross and other donation organizations are making it safe for people to donate. She has been using social media to highlight when her fellow doctors and others make donations as a way to motivate individuals.

“Everybody can do something during this pandemic,” she said. “Don’t feel like you are not working, that you are not a frontline worker, that you have nothing to contribute. You can donate blood. Your cousin can donate blood. You can tell your friends, your neighbors, your relatives, your enemies to go donate. We will take every kind of blood we can get because people are needing it more now. Even though we canceled elective surgeries, my patients when they get COVID-19, they need more blood ... than they usually do during their regular sickle cell admission. It is going to be the same for people who have other blood disorders like cancer and leukemia. We can’t stop life-saving treatments just because we have the COVID pandemic.”

Dr. Osunkwo also praised recent actions taken by the Food and Drug Administration to lessen some of the deferral periods for when an individual can donate.

The FDA on April 2 issued three sets of revised recommendations aimed at getting more people eligible to donate blood. All of the revised recommendations will remain in effect after the COVID-19 health emergency is declared over.

The first revised recommendation makes changes to December 2015 guidance.

For male blood donors who would have been deferred for having sex with another male partner, the deferral period has been reduced from 12 months to 3 months. That deferral period change also applies to female donors who had sex with a man who had sex with another man as well as for those with recent tattoos and piercings.

The second recommendation revises guidance from August 2013 and relates to the risk of transfusion-transmitted malaria.

Under the new recommendations, for those who traveled to malaria-endemic areas (and are residents of malaria non-endemic countries), the FDA is lowering the recommended deferral period from 12 months to 3 months, and also provides notices of an alternate procedure that permits donations without a deferral period provided the blood components are pathogen-reduced using an FDA-approved pathogen reduction device.

The third recommendation finalizes draft guidance from January that eliminates the referral period for donors who spent time in certain European countries or were on military bases in Europe and were previously considered to have been exposed to a potential risk of transmission of Creutzfeldt-Jakob Disease or Variant Creutzfeldt-Jakob Disease.

Dr. Osunkwo reports consultancy and being on the speakers bureau and participating in the advisory board for Novartis, and relationships with a variety of other pharmaceutical companies. She is the editor-in-chief for Hematology News.

[email protected]

The COVID-19 pandemic is putting a strain on the blood supply and could be putting people – including those who normally get transfusions, such as patients with sickle cell disease and cancer – at risk.

“Around the beginning of March, the hematology community got wind of what was going on because the blood banks were saying think about your patients and begin to restrict blood usage because we are expecting an increase in usage for COVID-positive ICU patients,” Ifeyinwa (Ify) Osunkwo, MD, a specialist in hematology and sickle cell disease at Levine Cancer Institute in Charlotte, N.C., said in an interview.

“I think that was the first call to arms around hematology ... you don’t want to shortchange somebody who is well and who is being sustained by life-giving transfusions and cut out their transfusion therapy because you are hoping to use the blood for people who are coming in with COVID-19,” she continued. “That is an ethical dilemma that no doctor wants to have to go through. But the reality is we have to do something to make it work for everybody.”

And the timing of the social restrictions due to the pandemic has added additional strain on the blood supply.

“Over the winter, traditionally, blood drives slow down because of the flu and different viruses,” she noted. “The spring and the summer are when we see the biggest recruitment and uptake of blood donation. COVID-19 hit [and] a lot of the blood drives that were traditionally scheduled to supply blood for the country have been canceled because of the new guidance for social distancing.”

Another big source of blood are health care professionals themselves and they may not be able to donate because of the extra hours being worked because of the pandemic.

In speaking about the needs for traditional patients such as those who are dealing with cancer or leukemia or sickle cell diseases as well as those who are being treated for COVID-19 in North Carolina, “we are not at the critical point, but I am a little bit nervous that we may get there because they are not going to up the usual blood drives anytime this summer. We project [sometime] in the fall, but maybe not even then. So there needs to be a significant call-out for people to make every effort to donate blood,” said Dr. Osunkwo. She added that in places such as New York City that are hot spots for the COVID-19 outbreak, the need is likely a lot greater.

She recalled a recent incident at a New York hospital that highlighted how those managing blood supplies are being restrictive and how this could be harming patients.

“A sickle cell patient came in with COVID-19 and the treatment recommendation was do a red blood cell exchange but the blood bank was nervous about getting enough blood to supply for that exchange transfusion,” she said, noting that the doctor still went to bat for that patient to get the needed treatment. “We gave her the supporting evidence that when you are on treatment for sickle cell disease, you tend to do better if you get COVID-19 or any other viral infection. The symptoms of COVID-19 in sickle cell disease is acute chest syndrome, for which the treatment is red blood cell exchange. Not doing that for [these patients] is really not giving them the optimal way of managing their disease, and managing their disease in the setting of COVID-19.”

To that end, Dr. Osunkwo stressed that doctors need to be doing all they can to get the word out that blood is needed and that the American Red Cross and other donation organizations are making it safe for people to donate. She has been using social media to highlight when her fellow doctors and others make donations as a way to motivate individuals.

“Everybody can do something during this pandemic,” she said. “Don’t feel like you are not working, that you are not a frontline worker, that you have nothing to contribute. You can donate blood. Your cousin can donate blood. You can tell your friends, your neighbors, your relatives, your enemies to go donate. We will take every kind of blood we can get because people are needing it more now. Even though we canceled elective surgeries, my patients when they get COVID-19, they need more blood ... than they usually do during their regular sickle cell admission. It is going to be the same for people who have other blood disorders like cancer and leukemia. We can’t stop life-saving treatments just because we have the COVID pandemic.”

Dr. Osunkwo also praised recent actions taken by the Food and Drug Administration to lessen some of the deferral periods for when an individual can donate.

The FDA on April 2 issued three sets of revised recommendations aimed at getting more people eligible to donate blood. All of the revised recommendations will remain in effect after the COVID-19 health emergency is declared over.

The first revised recommendation makes changes to December 2015 guidance.

For male blood donors who would have been deferred for having sex with another male partner, the deferral period has been reduced from 12 months to 3 months. That deferral period change also applies to female donors who had sex with a man who had sex with another man as well as for those with recent tattoos and piercings.

The second recommendation revises guidance from August 2013 and relates to the risk of transfusion-transmitted malaria.

Under the new recommendations, for those who traveled to malaria-endemic areas (and are residents of malaria non-endemic countries), the FDA is lowering the recommended deferral period from 12 months to 3 months, and also provides notices of an alternate procedure that permits donations without a deferral period provided the blood components are pathogen-reduced using an FDA-approved pathogen reduction device.

The third recommendation finalizes draft guidance from January that eliminates the referral period for donors who spent time in certain European countries or were on military bases in Europe and were previously considered to have been exposed to a potential risk of transmission of Creutzfeldt-Jakob Disease or Variant Creutzfeldt-Jakob Disease.

Dr. Osunkwo reports consultancy and being on the speakers bureau and participating in the advisory board for Novartis, and relationships with a variety of other pharmaceutical companies. She is the editor-in-chief for Hematology News.

[email protected]

With round the clock hand washing and personal protection gear, skin issues are emerging among health care workers in areas hit hard by COVID-19.

HRAUN/Getty Images

Almost 75% of doctors and nurses in and around Wuhan, China, where the outbreak first emerged, reported skin problems during a single week in early February 2020, in a survey of health care workers (HCW) caring for COVID-19 patients at five university and five regional hospitals. Hands, cheeks, and the nasal bridge were the most commonly affected areas, with skin dryness, maceration, papules, and erythema the most common problems, according to research published in the British Journal of Dermatology.

In New York City, masks in particular are “really an issue,” said Ellen Marmur, MD, a dermatologist in private practice and an associate clinical professor at the Mount Sinai School of Medicine, New York.

She’s dealing with patients who have abrasions and skin infections at the tip of the nose, bruising from the metal strap that goes across the bridge of the nose, and skin irritation from the straps. “Rosacea is [also] definitely flaring up, [and] people’s acne is definitely flaring up, not only because of the stress, but because of the sweat and humidity” that builds up under the masks, she said.

“It’s not a life-threatening thing, but it’s definitely something we’ve been helping people with,” she said. This includes her husband, a cardiologist pulling 12-hour shifts in a New York City hospital wearing an N95 mask; when he comes home, the tip of his nose is red and abraded.

Treatment entails first aid skin care: a dab of a gentle ointment like Aquaphor to prevent abrasions while the mask is on and to help them heal after it’s off, and bacitracin if infection is a worry. For acne and rosacea flares, a course of minocycline or topical clindamycin might help, Dr. Marmur said.

Although almost 75% of the doctors and nurses in the Chinese study reported skin problems, the response rate was low, just 376 of the 1,000 surveyed (37.6%). That might have tilted the results to providers who actually ran into problems, wrote the investigators, led by Ping Lin of the department of dermatology and venereology at Peking University First Hospital, Beijing.

Mongkolchon Akesin/Shutterstock

Still, 280 (74.5%) reported adverse skin reactions from caring for COVID-19 patients. “Of note, this rate was much higher than the rate of occupational contact dermatitis (31.5%) in HCWs under normal working condition[s], and that of adverse skin reactions (21.4%-35.5%)” during the outbreak of another coronavirus in 2003, severe acute respiratory syndrome, they wrote.

Most providers in the study washed their hands more than 10 times a day, but only about 22% applied hand cream afterwards, they reported.

On multivariate analysis, working in hospitals harder hit by the pandemic (odds ratio, 2.41; P = .001), working on inpatient wards (OR, 2.44; P = .003), wearing full-body personal protective equipment over 6 hours (OR, 4.26; P < .001), and female sex (OR, 1.87; P = .038) increased the risk of adverse skin reactions. The team suggested moisturizers would help to protect against hand dermatitis, and alcohol-based products instead of soaps “as the former show high antimicrobial activity and low risks of skin damage.” Also, “restricting duration of wearing” of protection gear “to no more than 6 hours would help.”

The study investigators reported that they had no conflicts of interest.
 

[email protected]

SOURCE: Lin P et al. Br J Dermatol. 2020 Apr 7. doi: 10.1111/bjd.19089.

With round the clock hand washing and personal protection gear, skin issues are emerging among health care workers in areas hit hard by COVID-19.

HRAUN/Getty Images

Almost 75% of doctors and nurses in and around Wuhan, China, where the outbreak first emerged, reported skin problems during a single week in early February 2020, in a survey of health care workers (HCW) caring for COVID-19 patients at five university and five regional hospitals. Hands, cheeks, and the nasal bridge were the most commonly affected areas, with skin dryness, maceration, papules, and erythema the most common problems, according to research published in the British Journal of Dermatology.

In New York City, masks in particular are “really an issue,” said Ellen Marmur, MD, a dermatologist in private practice and an associate clinical professor at the Mount Sinai School of Medicine, New York.

She’s dealing with patients who have abrasions and skin infections at the tip of the nose, bruising from the metal strap that goes across the bridge of the nose, and skin irritation from the straps. “Rosacea is [also] definitely flaring up, [and] people’s acne is definitely flaring up, not only because of the stress, but because of the sweat and humidity” that builds up under the masks, she said.

“It’s not a life-threatening thing, but it’s definitely something we’ve been helping people with,” she said. This includes her husband, a cardiologist pulling 12-hour shifts in a New York City hospital wearing an N95 mask; when he comes home, the tip of his nose is red and abraded.

Treatment entails first aid skin care: a dab of a gentle ointment like Aquaphor to prevent abrasions while the mask is on and to help them heal after it’s off, and bacitracin if infection is a worry. For acne and rosacea flares, a course of minocycline or topical clindamycin might help, Dr. Marmur said.

Although almost 75% of the doctors and nurses in the Chinese study reported skin problems, the response rate was low, just 376 of the 1,000 surveyed (37.6%). That might have tilted the results to providers who actually ran into problems, wrote the investigators, led by Ping Lin of the department of dermatology and venereology at Peking University First Hospital, Beijing.

Mongkolchon Akesin/Shutterstock

Still, 280 (74.5%) reported adverse skin reactions from caring for COVID-19 patients. “Of note, this rate was much higher than the rate of occupational contact dermatitis (31.5%) in HCWs under normal working condition[s], and that of adverse skin reactions (21.4%-35.5%)” during the outbreak of another coronavirus in 2003, severe acute respiratory syndrome, they wrote.

Most providers in the study washed their hands more than 10 times a day, but only about 22% applied hand cream afterwards, they reported.

On multivariate analysis, working in hospitals harder hit by the pandemic (odds ratio, 2.41; P = .001), working on inpatient wards (OR, 2.44; P = .003), wearing full-body personal protective equipment over 6 hours (OR, 4.26; P < .001), and female sex (OR, 1.87; P = .038) increased the risk of adverse skin reactions. The team suggested moisturizers would help to protect against hand dermatitis, and alcohol-based products instead of soaps “as the former show high antimicrobial activity and low risks of skin damage.” Also, “restricting duration of wearing” of protection gear “to no more than 6 hours would help.”

The study investigators reported that they had no conflicts of interest.
 

[email protected]

SOURCE: Lin P et al. Br J Dermatol. 2020 Apr 7. doi: 10.1111/bjd.19089.

With round the clock hand washing and personal protection gear, skin issues are emerging among health care workers in areas hit hard by COVID-19.

HRAUN/Getty Images

Almost 75% of doctors and nurses in and around Wuhan, China, where the outbreak first emerged, reported skin problems during a single week in early February 2020, in a survey of health care workers (HCW) caring for COVID-19 patients at five university and five regional hospitals. Hands, cheeks, and the nasal bridge were the most commonly affected areas, with skin dryness, maceration, papules, and erythema the most common problems, according to research published in the British Journal of Dermatology.

In New York City, masks in particular are “really an issue,” said Ellen Marmur, MD, a dermatologist in private practice and an associate clinical professor at the Mount Sinai School of Medicine, New York.

She’s dealing with patients who have abrasions and skin infections at the tip of the nose, bruising from the metal strap that goes across the bridge of the nose, and skin irritation from the straps. “Rosacea is [also] definitely flaring up, [and] people’s acne is definitely flaring up, not only because of the stress, but because of the sweat and humidity” that builds up under the masks, she said.

“It’s not a life-threatening thing, but it’s definitely something we’ve been helping people with,” she said. This includes her husband, a cardiologist pulling 12-hour shifts in a New York City hospital wearing an N95 mask; when he comes home, the tip of his nose is red and abraded.

Treatment entails first aid skin care: a dab of a gentle ointment like Aquaphor to prevent abrasions while the mask is on and to help them heal after it’s off, and bacitracin if infection is a worry. For acne and rosacea flares, a course of minocycline or topical clindamycin might help, Dr. Marmur said.

Although almost 75% of the doctors and nurses in the Chinese study reported skin problems, the response rate was low, just 376 of the 1,000 surveyed (37.6%). That might have tilted the results to providers who actually ran into problems, wrote the investigators, led by Ping Lin of the department of dermatology and venereology at Peking University First Hospital, Beijing.

Mongkolchon Akesin/Shutterstock

Still, 280 (74.5%) reported adverse skin reactions from caring for COVID-19 patients. “Of note, this rate was much higher than the rate of occupational contact dermatitis (31.5%) in HCWs under normal working condition[s], and that of adverse skin reactions (21.4%-35.5%)” during the outbreak of another coronavirus in 2003, severe acute respiratory syndrome, they wrote.

Most providers in the study washed their hands more than 10 times a day, but only about 22% applied hand cream afterwards, they reported.

On multivariate analysis, working in hospitals harder hit by the pandemic (odds ratio, 2.41; P = .001), working on inpatient wards (OR, 2.44; P = .003), wearing full-body personal protective equipment over 6 hours (OR, 4.26; P < .001), and female sex (OR, 1.87; P = .038) increased the risk of adverse skin reactions. The team suggested moisturizers would help to protect against hand dermatitis, and alcohol-based products instead of soaps “as the former show high antimicrobial activity and low risks of skin damage.” Also, “restricting duration of wearing” of protection gear “to no more than 6 hours would help.”

The study investigators reported that they had no conflicts of interest.
 

[email protected]

SOURCE: Lin P et al. Br J Dermatol. 2020 Apr 7. doi: 10.1111/bjd.19089.

These are tough times for families, children, and practices. In this case, the entire world is going through it at the same time, leaving no escape. There are so many new things each of us needs to do, and for some of the challenges, we are completely thwarted by safety restrictions from doing anything. Adults and children alike are trying to work or learn at home in new ways. This also means that old daily routines have been broken. The sense of disorientation is pervasive. Although it is only one part of what is needed, reestablishing routines can go a long way toward restoring a sense of control and meaning that you can institute for yourself and recommend to your patients.

Wavebreakmedia/Thinkstock

Routines are important for both physical and mental health at every age and time, but especially when a major change is occurring. Examples of such change include natural disasters such as COVID-19, deaths, or separations from loved ones, but also moving, job loss, or new financial instability. Many families and many doctors and staff are experiencing several of these at once these days.

Evidence from studies of times of major disruption such as divorce, a death, war, and natural disasters show that parenting tends to shift to being less organized, with less overall discipline or more arbitrary punishment, and, in some cases, less parent-child connection. Children, on their part, also tend to act differently under these conditions. They are more irritable, upset, anxious, clingy, and aggressive, and also tend to regress in recent developmental achievements such as maintaining toileting and sleep patterns. Parents often do not see the connection to the stress and react to these behaviors in ways that may make things worse by scolding or punishing.

I was really surprised to hear Daniel Kahneman, PhD, Nobel laureate in economics, talk about how even he has trouble judging risk based on mathematical probability. Instead, he recognizes that adults decide about risk based on the behavior of the people around them – when others act worried or agitated, the person does too. Children, even more than adults, must decide if they are safe based on the behavior of the adults around them. When parents maintain routines as closely as possible after a major disruption, children feel reassured that they can expect continuity of their relationship – their most important lifeboat. If their parents keep doing the things they are used to, children basically feel safe.

Simple aspects of sameness important to children are very familiar to pediatricians: always wanting the same spoon, the sandwich cut the same way, only chicken nuggets from a certain store. This tends to be true in typically developing toddlers, preschool, and some school-aged children. The desire to have the same story read to them multiple times – until parents are ready to scream! – is another sign of the importance of predictable routines to children. All of these are best accommodated during times of stress rather than trying to “avoid making a bad habit.” All disruptions of routine are even more disorienting for children with intellectual disabilities or those on the autism spectrum who are generally less able to understand or control their world. Children and adults with preexisting anxiety disorders also are more likely to have more severe reactions to major disruptions and need extra understanding.

Routines for eating at least something at regular times – even if the food is not as interesting as prior fare – provide a sense of security, as well as stabilizing blood sugar and bowel patterns. Keeping patterns of washing hands, sitting together as a family, and interacting in conversation, rather than watching TV news, allow an oasis of respite from ongoing stresses. Family meals are also known to promote learning, vocabulary growth, and better behavior.

Setting a schedule for schooling, play, hygiene, and exercise may seem silly when parents and children are home all day, but it instills a sense of meaning to the day. Making a visual schedule for younger children or a written or online one for older children can be a shared activity in itself. I remember hearing about how important changing clothes and cleaning teeth were to prisoners of war during World War II in maintaining a sense of normalcy in that time of chaos.

Exercise is particularly important to set as a routine as it directly reduces stress – even if it may need to take new forms. While there are lots of online exercise programs for adults, it is better for everyone to go outside if they can manage adequate personal spacing. There they can experience the orderly changing of the seasons and the weather, as well as soak up some sunshine. Interactive parent-child play serves multiple purposes of stress relief, seeing each other more relaxed, interacting, and having fun!

Routines for sleep are especially important. To fall asleep under normal circumstances requires a sense of safety, perhaps for evolutionary reasons because of the vulnerability of the paralysis that is part of REM sleep stages. Fear at bedtime is common in young children, as is disorientation in the elderly. Both respond to reassuring bedtime routines done the same way every night, such as brushing teeth, changing clothes, washing up, reading or being read to, and praying – if these were the previous habit. When there has been a major disruption, these routines take on added importance, even if some modifications need to be made in sleep location, privacy, etc. Keeping schedules for naps, bedtime, and wake time as stable as possible makes sleep onset easier and sleep maintenance more likely. It also increases the chances of adequate sleep duration. Getting enough sleep stabilizes mood, reduces irritability, and improves daytime concentration and problem-solving skills. These all are especially needed by adults as well as children when there are major disruptions.

Maintaining chores at times of disruption can be extra difficult, plus this may seem to parents like an added stress for their already-stressed child. But in fact, children are reassured by adults’ continuing these requirements. Not only is an expectation that chores be done a signal that life can be expected to proceed normally, but having children do things to help – such as cleaning up, restocking soap and towels, or emptying trash – gives them an active role and hence some sense of control.

Discipline is, in essence, also a routine. Maintaining standards for kindness to others and following rules can be especially difficult when life has been disrupted because emotional lability is more likely in both adults and children when severely stressed. It is important for parents to consider the source of the misbehavior as possibly stress related and to interrupt it in a gentle and understanding way. A parent might say: “I know you are upset by all the changes. It is even more important now than ever to be kind to your brother.” Under stressful conditions, it is especially important to ask how the child was feeling when acting up, but also to “speak for them” about possible stress-related reasons for their behavior. While parents may correctly say that their child will “take advantage of this excuse,” it is still a teaching opportunity. Children have little insight into these connections to their feelings and actions, but they can learn.

Times when old patterns are disrupted also are times for making new habits. The main new habit I recommend for stress relief and overall mental health are the practices of mindfulness or meditation. Mindfulness may be easier to teach children as it involves paying close attention to one’s thoughts, feelings, and sensations, but doing this without judgment. Children often are naturally better at this than adults, who have layered on more experiences to their thoughts. We pediatricians, as well as the parents we serve, can benefit – especially in stressful times – from sharing in the simple ways children experience the world.

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. Email her at [email protected].

These are tough times for families, children, and practices. In this case, the entire world is going through it at the same time, leaving no escape. There are so many new things each of us needs to do, and for some of the challenges, we are completely thwarted by safety restrictions from doing anything. Adults and children alike are trying to work or learn at home in new ways. This also means that old daily routines have been broken. The sense of disorientation is pervasive. Although it is only one part of what is needed, reestablishing routines can go a long way toward restoring a sense of control and meaning that you can institute for yourself and recommend to your patients.

Wavebreakmedia/Thinkstock

Routines are important for both physical and mental health at every age and time, but especially when a major change is occurring. Examples of such change include natural disasters such as COVID-19, deaths, or separations from loved ones, but also moving, job loss, or new financial instability. Many families and many doctors and staff are experiencing several of these at once these days.

Evidence from studies of times of major disruption such as divorce, a death, war, and natural disasters show that parenting tends to shift to being less organized, with less overall discipline or more arbitrary punishment, and, in some cases, less parent-child connection. Children, on their part, also tend to act differently under these conditions. They are more irritable, upset, anxious, clingy, and aggressive, and also tend to regress in recent developmental achievements such as maintaining toileting and sleep patterns. Parents often do not see the connection to the stress and react to these behaviors in ways that may make things worse by scolding or punishing.

I was really surprised to hear Daniel Kahneman, PhD, Nobel laureate in economics, talk about how even he has trouble judging risk based on mathematical probability. Instead, he recognizes that adults decide about risk based on the behavior of the people around them – when others act worried or agitated, the person does too. Children, even more than adults, must decide if they are safe based on the behavior of the adults around them. When parents maintain routines as closely as possible after a major disruption, children feel reassured that they can expect continuity of their relationship – their most important lifeboat. If their parents keep doing the things they are used to, children basically feel safe.

Simple aspects of sameness important to children are very familiar to pediatricians: always wanting the same spoon, the sandwich cut the same way, only chicken nuggets from a certain store. This tends to be true in typically developing toddlers, preschool, and some school-aged children. The desire to have the same story read to them multiple times – until parents are ready to scream! – is another sign of the importance of predictable routines to children. All of these are best accommodated during times of stress rather than trying to “avoid making a bad habit.” All disruptions of routine are even more disorienting for children with intellectual disabilities or those on the autism spectrum who are generally less able to understand or control their world. Children and adults with preexisting anxiety disorders also are more likely to have more severe reactions to major disruptions and need extra understanding.

Routines for eating at least something at regular times – even if the food is not as interesting as prior fare – provide a sense of security, as well as stabilizing blood sugar and bowel patterns. Keeping patterns of washing hands, sitting together as a family, and interacting in conversation, rather than watching TV news, allow an oasis of respite from ongoing stresses. Family meals are also known to promote learning, vocabulary growth, and better behavior.

Setting a schedule for schooling, play, hygiene, and exercise may seem silly when parents and children are home all day, but it instills a sense of meaning to the day. Making a visual schedule for younger children or a written or online one for older children can be a shared activity in itself. I remember hearing about how important changing clothes and cleaning teeth were to prisoners of war during World War II in maintaining a sense of normalcy in that time of chaos.

Exercise is particularly important to set as a routine as it directly reduces stress – even if it may need to take new forms. While there are lots of online exercise programs for adults, it is better for everyone to go outside if they can manage adequate personal spacing. There they can experience the orderly changing of the seasons and the weather, as well as soak up some sunshine. Interactive parent-child play serves multiple purposes of stress relief, seeing each other more relaxed, interacting, and having fun!

Routines for sleep are especially important. To fall asleep under normal circumstances requires a sense of safety, perhaps for evolutionary reasons because of the vulnerability of the paralysis that is part of REM sleep stages. Fear at bedtime is common in young children, as is disorientation in the elderly. Both respond to reassuring bedtime routines done the same way every night, such as brushing teeth, changing clothes, washing up, reading or being read to, and praying – if these were the previous habit. When there has been a major disruption, these routines take on added importance, even if some modifications need to be made in sleep location, privacy, etc. Keeping schedules for naps, bedtime, and wake time as stable as possible makes sleep onset easier and sleep maintenance more likely. It also increases the chances of adequate sleep duration. Getting enough sleep stabilizes mood, reduces irritability, and improves daytime concentration and problem-solving skills. These all are especially needed by adults as well as children when there are major disruptions.

Maintaining chores at times of disruption can be extra difficult, plus this may seem to parents like an added stress for their already-stressed child. But in fact, children are reassured by adults’ continuing these requirements. Not only is an expectation that chores be done a signal that life can be expected to proceed normally, but having children do things to help – such as cleaning up, restocking soap and towels, or emptying trash – gives them an active role and hence some sense of control.

Discipline is, in essence, also a routine. Maintaining standards for kindness to others and following rules can be especially difficult when life has been disrupted because emotional lability is more likely in both adults and children when severely stressed. It is important for parents to consider the source of the misbehavior as possibly stress related and to interrupt it in a gentle and understanding way. A parent might say: “I know you are upset by all the changes. It is even more important now than ever to be kind to your brother.” Under stressful conditions, it is especially important to ask how the child was feeling when acting up, but also to “speak for them” about possible stress-related reasons for their behavior. While parents may correctly say that their child will “take advantage of this excuse,” it is still a teaching opportunity. Children have little insight into these connections to their feelings and actions, but they can learn.

Times when old patterns are disrupted also are times for making new habits. The main new habit I recommend for stress relief and overall mental health are the practices of mindfulness or meditation. Mindfulness may be easier to teach children as it involves paying close attention to one’s thoughts, feelings, and sensations, but doing this without judgment. Children often are naturally better at this than adults, who have layered on more experiences to their thoughts. We pediatricians, as well as the parents we serve, can benefit – especially in stressful times – from sharing in the simple ways children experience the world.

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. Email her at [email protected].

These are tough times for families, children, and practices. In this case, the entire world is going through it at the same time, leaving no escape. There are so many new things each of us needs to do, and for some of the challenges, we are completely thwarted by safety restrictions from doing anything. Adults and children alike are trying to work or learn at home in new ways. This also means that old daily routines have been broken. The sense of disorientation is pervasive. Although it is only one part of what is needed, reestablishing routines can go a long way toward restoring a sense of control and meaning that you can institute for yourself and recommend to your patients.

Wavebreakmedia/Thinkstock

Routines are important for both physical and mental health at every age and time, but especially when a major change is occurring. Examples of such change include natural disasters such as COVID-19, deaths, or separations from loved ones, but also moving, job loss, or new financial instability. Many families and many doctors and staff are experiencing several of these at once these days.

Evidence from studies of times of major disruption such as divorce, a death, war, and natural disasters show that parenting tends to shift to being less organized, with less overall discipline or more arbitrary punishment, and, in some cases, less parent-child connection. Children, on their part, also tend to act differently under these conditions. They are more irritable, upset, anxious, clingy, and aggressive, and also tend to regress in recent developmental achievements such as maintaining toileting and sleep patterns. Parents often do not see the connection to the stress and react to these behaviors in ways that may make things worse by scolding or punishing.

I was really surprised to hear Daniel Kahneman, PhD, Nobel laureate in economics, talk about how even he has trouble judging risk based on mathematical probability. Instead, he recognizes that adults decide about risk based on the behavior of the people around them – when others act worried or agitated, the person does too. Children, even more than adults, must decide if they are safe based on the behavior of the adults around them. When parents maintain routines as closely as possible after a major disruption, children feel reassured that they can expect continuity of their relationship – their most important lifeboat. If their parents keep doing the things they are used to, children basically feel safe.

Simple aspects of sameness important to children are very familiar to pediatricians: always wanting the same spoon, the sandwich cut the same way, only chicken nuggets from a certain store. This tends to be true in typically developing toddlers, preschool, and some school-aged children. The desire to have the same story read to them multiple times – until parents are ready to scream! – is another sign of the importance of predictable routines to children. All of these are best accommodated during times of stress rather than trying to “avoid making a bad habit.” All disruptions of routine are even more disorienting for children with intellectual disabilities or those on the autism spectrum who are generally less able to understand or control their world. Children and adults with preexisting anxiety disorders also are more likely to have more severe reactions to major disruptions and need extra understanding.

Routines for eating at least something at regular times – even if the food is not as interesting as prior fare – provide a sense of security, as well as stabilizing blood sugar and bowel patterns. Keeping patterns of washing hands, sitting together as a family, and interacting in conversation, rather than watching TV news, allow an oasis of respite from ongoing stresses. Family meals are also known to promote learning, vocabulary growth, and better behavior.

Setting a schedule for schooling, play, hygiene, and exercise may seem silly when parents and children are home all day, but it instills a sense of meaning to the day. Making a visual schedule for younger children or a written or online one for older children can be a shared activity in itself. I remember hearing about how important changing clothes and cleaning teeth were to prisoners of war during World War II in maintaining a sense of normalcy in that time of chaos.

Exercise is particularly important to set as a routine as it directly reduces stress – even if it may need to take new forms. While there are lots of online exercise programs for adults, it is better for everyone to go outside if they can manage adequate personal spacing. There they can experience the orderly changing of the seasons and the weather, as well as soak up some sunshine. Interactive parent-child play serves multiple purposes of stress relief, seeing each other more relaxed, interacting, and having fun!

Routines for sleep are especially important. To fall asleep under normal circumstances requires a sense of safety, perhaps for evolutionary reasons because of the vulnerability of the paralysis that is part of REM sleep stages. Fear at bedtime is common in young children, as is disorientation in the elderly. Both respond to reassuring bedtime routines done the same way every night, such as brushing teeth, changing clothes, washing up, reading or being read to, and praying – if these were the previous habit. When there has been a major disruption, these routines take on added importance, even if some modifications need to be made in sleep location, privacy, etc. Keeping schedules for naps, bedtime, and wake time as stable as possible makes sleep onset easier and sleep maintenance more likely. It also increases the chances of adequate sleep duration. Getting enough sleep stabilizes mood, reduces irritability, and improves daytime concentration and problem-solving skills. These all are especially needed by adults as well as children when there are major disruptions.

Maintaining chores at times of disruption can be extra difficult, plus this may seem to parents like an added stress for their already-stressed child. But in fact, children are reassured by adults’ continuing these requirements. Not only is an expectation that chores be done a signal that life can be expected to proceed normally, but having children do things to help – such as cleaning up, restocking soap and towels, or emptying trash – gives them an active role and hence some sense of control.

Discipline is, in essence, also a routine. Maintaining standards for kindness to others and following rules can be especially difficult when life has been disrupted because emotional lability is more likely in both adults and children when severely stressed. It is important for parents to consider the source of the misbehavior as possibly stress related and to interrupt it in a gentle and understanding way. A parent might say: “I know you are upset by all the changes. It is even more important now than ever to be kind to your brother.” Under stressful conditions, it is especially important to ask how the child was feeling when acting up, but also to “speak for them” about possible stress-related reasons for their behavior. While parents may correctly say that their child will “take advantage of this excuse,” it is still a teaching opportunity. Children have little insight into these connections to their feelings and actions, but they can learn.

Times when old patterns are disrupted also are times for making new habits. The main new habit I recommend for stress relief and overall mental health are the practices of mindfulness or meditation. Mindfulness may be easier to teach children as it involves paying close attention to one’s thoughts, feelings, and sensations, but doing this without judgment. Children often are naturally better at this than adults, who have layered on more experiences to their thoughts. We pediatricians, as well as the parents we serve, can benefit – especially in stressful times – from sharing in the simple ways children experience the world.

Dr. Howard is assistant professor of pediatrics at Johns Hopkins University, Baltimore, and creator of CHADIS (www.CHADIS.com). She had no other relevant disclosures. Dr. Howard’s contribution to this publication was as a paid expert to MDedge News. Email her at [email protected].

A meta-analysis of four applicable studies found that the hemoglobin value was significantly lower in COVID-19 patients with severe disease, compared with those with milder forms, according to a letter to the editor of Hematology Transfusion and Cell Therapy by Giuseppe Lippi, MD, of the University of Verona (Italy) and colleague.

The four studies comprised 1,210 COVID-19 patients (224 with severe disease; 18.5%). The primary endpoint was defined as a composite of admission to the ICU, need of mechanical ventilation or death. The heterogeneity among the studies was high.

Overall, the hemoglobin value was found to be significantly lower in COVID-19 patients with severe disease than in those with milder forms, yielding a weighted mean difference of −7.1 g/L, with a 95% confidence interval of −8.3 g/L to −5.9 g/L.

“Initial assessment and longitudinal monitoring of hemoglobin values seems advisable in patients with the SARS-CoV-2 infection, whereby a progressive decrease in the hemoglobin concentration may reflect a worse clinical progression,” the authors stated. They also suggested that studies should be “urgently planned to assess whether transfusion support (e.g., with administration of blood or packed red blood cells) may be helpful in this clinical setting to prevent evolution into severe disease and death.”

The authors declared the had no conflicts of interest.

[email protected]

SOURCE: Lippi G et al. Hematol Transfus Cell Ther. 2020 Apr 11; doi:10.1016/j.htct.2020.03.001.

A meta-analysis of four applicable studies found that the hemoglobin value was significantly lower in COVID-19 patients with severe disease, compared with those with milder forms, according to a letter to the editor of Hematology Transfusion and Cell Therapy by Giuseppe Lippi, MD, of the University of Verona (Italy) and colleague.

The four studies comprised 1,210 COVID-19 patients (224 with severe disease; 18.5%). The primary endpoint was defined as a composite of admission to the ICU, need of mechanical ventilation or death. The heterogeneity among the studies was high.

Overall, the hemoglobin value was found to be significantly lower in COVID-19 patients with severe disease than in those with milder forms, yielding a weighted mean difference of −7.1 g/L, with a 95% confidence interval of −8.3 g/L to −5.9 g/L.

“Initial assessment and longitudinal monitoring of hemoglobin values seems advisable in patients with the SARS-CoV-2 infection, whereby a progressive decrease in the hemoglobin concentration may reflect a worse clinical progression,” the authors stated. They also suggested that studies should be “urgently planned to assess whether transfusion support (e.g., with administration of blood or packed red blood cells) may be helpful in this clinical setting to prevent evolution into severe disease and death.”

The authors declared the had no conflicts of interest.

[email protected]

SOURCE: Lippi G et al. Hematol Transfus Cell Ther. 2020 Apr 11; doi:10.1016/j.htct.2020.03.001.

A meta-analysis of four applicable studies found that the hemoglobin value was significantly lower in COVID-19 patients with severe disease, compared with those with milder forms, according to a letter to the editor of Hematology Transfusion and Cell Therapy by Giuseppe Lippi, MD, of the University of Verona (Italy) and colleague.

The four studies comprised 1,210 COVID-19 patients (224 with severe disease; 18.5%). The primary endpoint was defined as a composite of admission to the ICU, need of mechanical ventilation or death. The heterogeneity among the studies was high.

Overall, the hemoglobin value was found to be significantly lower in COVID-19 patients with severe disease than in those with milder forms, yielding a weighted mean difference of −7.1 g/L, with a 95% confidence interval of −8.3 g/L to −5.9 g/L.

“Initial assessment and longitudinal monitoring of hemoglobin values seems advisable in patients with the SARS-CoV-2 infection, whereby a progressive decrease in the hemoglobin concentration may reflect a worse clinical progression,” the authors stated. They also suggested that studies should be “urgently planned to assess whether transfusion support (e.g., with administration of blood or packed red blood cells) may be helpful in this clinical setting to prevent evolution into severe disease and death.”

The authors declared the had no conflicts of interest.

[email protected]

SOURCE: Lippi G et al. Hematol Transfus Cell Ther. 2020 Apr 11; doi:10.1016/j.htct.2020.03.001.

As of April 9, at least 27 health care personnel had died from COVID-19 infection in the United States, according to the Centers for Disease Control and Prevention.

That number, however, is probably an underestimation because health care personnel (HCP) status was available for just over 49,000 of the 315,000 COVID-19 cases reported to the CDC as of April 9. Of the cases with known HCP status, 9,282 (19%) were health care personnel, Matthew J. Stuckey, PhD, and the CDC’s COVID-19 Response Team said.

“The number of cases in HCP reported here must be considered a lower bound because additional cases likely have gone unidentified or unreported,” they said.

The median age of the nearly 9,300 HCP with COVID-19 was 42 years, and the majority (55%) were aged 16-44 years; another 21% were 45-54, 18% were 55-64, and 6% were age 65 and over. The oldest group, however, represented 10 of the 27 known HCP deaths, the investigators reported in the Morbidity and Mortality Weekly Report.

The majority of infected HCP (55%) reported exposure to a COVID-19 patient in the health care setting, but “there were also known exposures in households and in the community, highlighting the potential for exposure in multiple settings, especially as community transmission increases,” the response team said.

Since “contact tracing after recognized occupational exposures likely will fail to identify many HCP at risk for developing COVID-19,” other measures will probably be needed to “reduce the risk for infected HCP transmitting the virus to colleagues and patients,” they added.

HCP with COVID-19 were less likely to be hospitalized (8%-10%) than the overall population (21%-31%), which “might reflect the younger median age … of HCP patients, compared with that of reported COVID-19 patients overall, as well as prioritization of HCP for testing, which might identify less-severe illness,” the investigators suggested.

The prevalence of underlying conditions in HCP patients, 38%, was the same as all patients with COVID-19, and 92% of the HCP patients presented with fever, cough, or shortness of breath. Two-thirds of all HCP reported muscle aches, and 65% reported headache, the CDC response team noted.

“It is critical to make every effort to ensure the health and safety of this essential national workforce of approximately 18 million HCP, both at work and in the community,” they wrote.

[email protected]

SOURCE: Stuckey MJ et al. MMWR. Apr 14;69(early release):1-5.

As of April 9, at least 27 health care personnel had died from COVID-19 infection in the United States, according to the Centers for Disease Control and Prevention.

That number, however, is probably an underestimation because health care personnel (HCP) status was available for just over 49,000 of the 315,000 COVID-19 cases reported to the CDC as of April 9. Of the cases with known HCP status, 9,282 (19%) were health care personnel, Matthew J. Stuckey, PhD, and the CDC’s COVID-19 Response Team said.

“The number of cases in HCP reported here must be considered a lower bound because additional cases likely have gone unidentified or unreported,” they said.

The median age of the nearly 9,300 HCP with COVID-19 was 42 years, and the majority (55%) were aged 16-44 years; another 21% were 45-54, 18% were 55-64, and 6% were age 65 and over. The oldest group, however, represented 10 of the 27 known HCP deaths, the investigators reported in the Morbidity and Mortality Weekly Report.

The majority of infected HCP (55%) reported exposure to a COVID-19 patient in the health care setting, but “there were also known exposures in households and in the community, highlighting the potential for exposure in multiple settings, especially as community transmission increases,” the response team said.

Since “contact tracing after recognized occupational exposures likely will fail to identify many HCP at risk for developing COVID-19,” other measures will probably be needed to “reduce the risk for infected HCP transmitting the virus to colleagues and patients,” they added.

HCP with COVID-19 were less likely to be hospitalized (8%-10%) than the overall population (21%-31%), which “might reflect the younger median age … of HCP patients, compared with that of reported COVID-19 patients overall, as well as prioritization of HCP for testing, which might identify less-severe illness,” the investigators suggested.

The prevalence of underlying conditions in HCP patients, 38%, was the same as all patients with COVID-19, and 92% of the HCP patients presented with fever, cough, or shortness of breath. Two-thirds of all HCP reported muscle aches, and 65% reported headache, the CDC response team noted.

“It is critical to make every effort to ensure the health and safety of this essential national workforce of approximately 18 million HCP, both at work and in the community,” they wrote.

[email protected]

SOURCE: Stuckey MJ et al. MMWR. Apr 14;69(early release):1-5.

As of April 9, at least 27 health care personnel had died from COVID-19 infection in the United States, according to the Centers for Disease Control and Prevention.

That number, however, is probably an underestimation because health care personnel (HCP) status was available for just over 49,000 of the 315,000 COVID-19 cases reported to the CDC as of April 9. Of the cases with known HCP status, 9,282 (19%) were health care personnel, Matthew J. Stuckey, PhD, and the CDC’s COVID-19 Response Team said.

“The number of cases in HCP reported here must be considered a lower bound because additional cases likely have gone unidentified or unreported,” they said.

The median age of the nearly 9,300 HCP with COVID-19 was 42 years, and the majority (55%) were aged 16-44 years; another 21% were 45-54, 18% were 55-64, and 6% were age 65 and over. The oldest group, however, represented 10 of the 27 known HCP deaths, the investigators reported in the Morbidity and Mortality Weekly Report.

The majority of infected HCP (55%) reported exposure to a COVID-19 patient in the health care setting, but “there were also known exposures in households and in the community, highlighting the potential for exposure in multiple settings, especially as community transmission increases,” the response team said.

Since “contact tracing after recognized occupational exposures likely will fail to identify many HCP at risk for developing COVID-19,” other measures will probably be needed to “reduce the risk for infected HCP transmitting the virus to colleagues and patients,” they added.

HCP with COVID-19 were less likely to be hospitalized (8%-10%) than the overall population (21%-31%), which “might reflect the younger median age … of HCP patients, compared with that of reported COVID-19 patients overall, as well as prioritization of HCP for testing, which might identify less-severe illness,” the investigators suggested.

The prevalence of underlying conditions in HCP patients, 38%, was the same as all patients with COVID-19, and 92% of the HCP patients presented with fever, cough, or shortness of breath. Two-thirds of all HCP reported muscle aches, and 65% reported headache, the CDC response team noted.

“It is critical to make every effort to ensure the health and safety of this essential national workforce of approximately 18 million HCP, both at work and in the community,” they wrote.

[email protected]

SOURCE: Stuckey MJ et al. MMWR. Apr 14;69(early release):1-5.

“Uncertainty creates weakness. Uncertainty makes one tentative, if not fearful, and tentative steps, even when in the right direction, may not overcome significant obstacles.”¹

Recently, I spent my vacation time quarantined reading “The Great Influenza,” which recounts the history of the 1918 pandemic. Despite over a century of scientific and medical progress, the parallels to our current situation are indisputable. Just as in 1918, we are limiting social gatherings, quarantining, wearing face masks, and living with the fear and anxiety of keeping ourselves and our families safe. In 1918, use of aspirin, quinine, and digitalis therapies in a desperate search for relief despite limited evidence mirror the current use of hydroxychloroquine, azithromycin, and lopinavir/ritonavir. While there are many similarities between the two situations, in this pandemic our channels for dissemination of scientific literature are better developed, and online networks are enabling physicians across the globe to communicate their experience and findings in near real time.

During this time of uncertainty, our understanding of COVID-19 evolves daily. Without the advantage of robust randomized, controlled trials and large-scale studies to guide us, we are forced to rely on pattern recognition for surveillance and anecdotal or limited case-based accounts to guide clinical care. Fortunately, free open-access medical education (FOAM) and social networks offer a significant advantage in our ability to collect and disseminate information.
 

Free open access medical education

The concept of FOAM started in 2012 with the intent of creating a collaborative and constantly evolving community to provide open-access medical education. It encompasses multiple platforms – blogs, podcasts, videos, and social media – and features content experts from across the globe. Since its inception, FOAM has grown in popularity and use, especially within emergency medicine and critical care communities, as an adjunct for asynchronous learning.^2,3

In a time where knowledge of COVID-19 is dynamically changing, traditional sources like textbooks, journals, and organizational guidelines often lag behind real-time clinical experience and needs. Additionally, many clinicians are now being tasked with taking care of patient populations and a new critical illness profile with which they are not comfortable. It is challenging to find a well-curated and updated repository of information to answer questions surrounding pathophysiology, critical care, ventilator management, caring for adult patients, and personal protective equipment (PPE). During this rapidly evolving reality, FOAM is becoming the ideal modality for timely and efficient sharing of reviews of current literature, expert discussions, and clinical practice guidelines.

A few self-directed hours on EMCrit’s Internet Book of Critical Care’s COVID-19 chapter reveals a bastion of content regarding diagnosis, pathophysiology, transmission, therapies, and ventilator strategies.⁴ It includes references to major journals and recommendations from international societies. Websites like EMCrit and REBEL EM are updated daily with podcasts, videos, and blog posts surrounding the latest highly debated topics in COVID-19 management.⁵ Podcasts like EM:RAP and Peds RAP have made COVID segments discussing important topics like pharmacotherapy, telemedicine, and pregnancy available for free.^6,7 Many networks, institutions, and individual physicians have created and posted videos online on critical care topics and refreshers.
 

Social networks

Online social networks composed of international physicians within Facebook and LinkedIn serve as miniature publishing houses. First-hand accounts of patient presentations and patient care act as case reports. As similar accounts accumulate, they become case series. Patterns emerge and new hypotheses are generated, debated, and critiqued through this informal peer review. Personal accounts of frustration with lack of PPE, fear of exposing loved ones, distress at being separated from family, and grief of witnessing multiple patients die alone are opinion and perspective articles.

These networks offer the space for sharing. Those who have had the experience of caring for the surge of COVID-19 patients offer advice and words of caution to those who have yet to experience it. Protocols from a multitude of institutions on triage, surge, disposition, and end-of-life care are disseminated, serving as templates for those that have not yet developed their own. There is an impressive variety of innovative, do-it-yourself projects surrounding PPE, intubation boxes, and three-dimensionally printed ventilator parts.

Finally, these networks provide emotional support. There are offers to ship additional PPE, videos of cities cheering as clinicians go to work, stories of triumph and recovery, pictures depicting ongoing wellness activities, and the occasional much-needed humorous anecdote or illustration. These networks reinforce the message that our lives continue despite this upheaval, and we are not alone in this struggle.

The end of the passage in The Great Influenza concludes with: “Ultimately a scientist has nothing to believe in but the process of inquiry. To move forcefully and aggressively even while uncertain requires a confidence and strength deeper than physical courage.”

FOAM and social networks are crucial channels for collecting and conveying up-to-date information during disasters. They represent a highly adaptable, evolving, and collaborative global community’s determination to persevere through time of uncertainty together.

Dr. Ren is a pediatric emergency medicine fellow at Children’s National Hospital, Washington. Dr. Simpson is a pediatric emergency medicine attending and medical director of emergency preparedness at the hospital. They reported that they do not have any disclosures or conflicts of interest. Email Dr. Ren and Dr. Simpson at [email protected].

References

1. “The Great Influenza: The Story of the Deadliest Pandemic in History.” (New York: Penguin Books, 2005, pp. 261-62).

2. Emerg Med J. 2014 Oct;31(e1):e76-7.

3. Acad Med. 2014 Apr;89(4):598-601.

4. “The Internet Book of Critical Care: COVID-19.” EMCrit Project.

5. “Covid-19.” REBEL EM-Emergency Medicine Blog.

6. “EM:RAP COVID-19 Resources.” EM RAP: Emergency Medicine Reviews and Perspectives.

7. “Episodes.” Peds RAP, Hippo Education.

“Uncertainty creates weakness. Uncertainty makes one tentative, if not fearful, and tentative steps, even when in the right direction, may not overcome significant obstacles.”¹

Recently, I spent my vacation time quarantined reading “The Great Influenza,” which recounts the history of the 1918 pandemic. Despite over a century of scientific and medical progress, the parallels to our current situation are indisputable. Just as in 1918, we are limiting social gatherings, quarantining, wearing face masks, and living with the fear and anxiety of keeping ourselves and our families safe. In 1918, use of aspirin, quinine, and digitalis therapies in a desperate search for relief despite limited evidence mirror the current use of hydroxychloroquine, azithromycin, and lopinavir/ritonavir. While there are many similarities between the two situations, in this pandemic our channels for dissemination of scientific literature are better developed, and online networks are enabling physicians across the globe to communicate their experience and findings in near real time.

During this time of uncertainty, our understanding of COVID-19 evolves daily. Without the advantage of robust randomized, controlled trials and large-scale studies to guide us, we are forced to rely on pattern recognition for surveillance and anecdotal or limited case-based accounts to guide clinical care. Fortunately, free open-access medical education (FOAM) and social networks offer a significant advantage in our ability to collect and disseminate information.
 

Free open access medical education

The concept of FOAM started in 2012 with the intent of creating a collaborative and constantly evolving community to provide open-access medical education. It encompasses multiple platforms – blogs, podcasts, videos, and social media – and features content experts from across the globe. Since its inception, FOAM has grown in popularity and use, especially within emergency medicine and critical care communities, as an adjunct for asynchronous learning.^2,3

In a time where knowledge of COVID-19 is dynamically changing, traditional sources like textbooks, journals, and organizational guidelines often lag behind real-time clinical experience and needs. Additionally, many clinicians are now being tasked with taking care of patient populations and a new critical illness profile with which they are not comfortable. It is challenging to find a well-curated and updated repository of information to answer questions surrounding pathophysiology, critical care, ventilator management, caring for adult patients, and personal protective equipment (PPE). During this rapidly evolving reality, FOAM is becoming the ideal modality for timely and efficient sharing of reviews of current literature, expert discussions, and clinical practice guidelines.

A few self-directed hours on EMCrit’s Internet Book of Critical Care’s COVID-19 chapter reveals a bastion of content regarding diagnosis, pathophysiology, transmission, therapies, and ventilator strategies.⁴ It includes references to major journals and recommendations from international societies. Websites like EMCrit and REBEL EM are updated daily with podcasts, videos, and blog posts surrounding the latest highly debated topics in COVID-19 management.⁵ Podcasts like EM:RAP and Peds RAP have made COVID segments discussing important topics like pharmacotherapy, telemedicine, and pregnancy available for free.^6,7 Many networks, institutions, and individual physicians have created and posted videos online on critical care topics and refreshers.
 

Social networks

Online social networks composed of international physicians within Facebook and LinkedIn serve as miniature publishing houses. First-hand accounts of patient presentations and patient care act as case reports. As similar accounts accumulate, they become case series. Patterns emerge and new hypotheses are generated, debated, and critiqued through this informal peer review. Personal accounts of frustration with lack of PPE, fear of exposing loved ones, distress at being separated from family, and grief of witnessing multiple patients die alone are opinion and perspective articles.

These networks offer the space for sharing. Those who have had the experience of caring for the surge of COVID-19 patients offer advice and words of caution to those who have yet to experience it. Protocols from a multitude of institutions on triage, surge, disposition, and end-of-life care are disseminated, serving as templates for those that have not yet developed their own. There is an impressive variety of innovative, do-it-yourself projects surrounding PPE, intubation boxes, and three-dimensionally printed ventilator parts.

Finally, these networks provide emotional support. There are offers to ship additional PPE, videos of cities cheering as clinicians go to work, stories of triumph and recovery, pictures depicting ongoing wellness activities, and the occasional much-needed humorous anecdote or illustration. These networks reinforce the message that our lives continue despite this upheaval, and we are not alone in this struggle.

The end of the passage in The Great Influenza concludes with: “Ultimately a scientist has nothing to believe in but the process of inquiry. To move forcefully and aggressively even while uncertain requires a confidence and strength deeper than physical courage.”

FOAM and social networks are crucial channels for collecting and conveying up-to-date information during disasters. They represent a highly adaptable, evolving, and collaborative global community’s determination to persevere through time of uncertainty together.

Dr. Ren is a pediatric emergency medicine fellow at Children’s National Hospital, Washington. Dr. Simpson is a pediatric emergency medicine attending and medical director of emergency preparedness at the hospital. They reported that they do not have any disclosures or conflicts of interest. Email Dr. Ren and Dr. Simpson at [email protected].

References

1. “The Great Influenza: The Story of the Deadliest Pandemic in History.” (New York: Penguin Books, 2005, pp. 261-62).

2. Emerg Med J. 2014 Oct;31(e1):e76-7.

3. Acad Med. 2014 Apr;89(4):598-601.

4. “The Internet Book of Critical Care: COVID-19.” EMCrit Project.

5. “Covid-19.” REBEL EM-Emergency Medicine Blog.

6. “EM:RAP COVID-19 Resources.” EM RAP: Emergency Medicine Reviews and Perspectives.

7. “Episodes.” Peds RAP, Hippo Education.

“Uncertainty creates weakness. Uncertainty makes one tentative, if not fearful, and tentative steps, even when in the right direction, may not overcome significant obstacles.”¹

Recently, I spent my vacation time quarantined reading “The Great Influenza,” which recounts the history of the 1918 pandemic. Despite over a century of scientific and medical progress, the parallels to our current situation are indisputable. Just as in 1918, we are limiting social gatherings, quarantining, wearing face masks, and living with the fear and anxiety of keeping ourselves and our families safe. In 1918, use of aspirin, quinine, and digitalis therapies in a desperate search for relief despite limited evidence mirror the current use of hydroxychloroquine, azithromycin, and lopinavir/ritonavir. While there are many similarities between the two situations, in this pandemic our channels for dissemination of scientific literature are better developed, and online networks are enabling physicians across the globe to communicate their experience and findings in near real time.

During this time of uncertainty, our understanding of COVID-19 evolves daily. Without the advantage of robust randomized, controlled trials and large-scale studies to guide us, we are forced to rely on pattern recognition for surveillance and anecdotal or limited case-based accounts to guide clinical care. Fortunately, free open-access medical education (FOAM) and social networks offer a significant advantage in our ability to collect and disseminate information.
 

Free open access medical education

The concept of FOAM started in 2012 with the intent of creating a collaborative and constantly evolving community to provide open-access medical education. It encompasses multiple platforms – blogs, podcasts, videos, and social media – and features content experts from across the globe. Since its inception, FOAM has grown in popularity and use, especially within emergency medicine and critical care communities, as an adjunct for asynchronous learning.^2,3

In a time where knowledge of COVID-19 is dynamically changing, traditional sources like textbooks, journals, and organizational guidelines often lag behind real-time clinical experience and needs. Additionally, many clinicians are now being tasked with taking care of patient populations and a new critical illness profile with which they are not comfortable. It is challenging to find a well-curated and updated repository of information to answer questions surrounding pathophysiology, critical care, ventilator management, caring for adult patients, and personal protective equipment (PPE). During this rapidly evolving reality, FOAM is becoming the ideal modality for timely and efficient sharing of reviews of current literature, expert discussions, and clinical practice guidelines.

A few self-directed hours on EMCrit’s Internet Book of Critical Care’s COVID-19 chapter reveals a bastion of content regarding diagnosis, pathophysiology, transmission, therapies, and ventilator strategies.⁴ It includes references to major journals and recommendations from international societies. Websites like EMCrit and REBEL EM are updated daily with podcasts, videos, and blog posts surrounding the latest highly debated topics in COVID-19 management.⁵ Podcasts like EM:RAP and Peds RAP have made COVID segments discussing important topics like pharmacotherapy, telemedicine, and pregnancy available for free.^6,7 Many networks, institutions, and individual physicians have created and posted videos online on critical care topics and refreshers.
 

Social networks

Online social networks composed of international physicians within Facebook and LinkedIn serve as miniature publishing houses. First-hand accounts of patient presentations and patient care act as case reports. As similar accounts accumulate, they become case series. Patterns emerge and new hypotheses are generated, debated, and critiqued through this informal peer review. Personal accounts of frustration with lack of PPE, fear of exposing loved ones, distress at being separated from family, and grief of witnessing multiple patients die alone are opinion and perspective articles.

These networks offer the space for sharing. Those who have had the experience of caring for the surge of COVID-19 patients offer advice and words of caution to those who have yet to experience it. Protocols from a multitude of institutions on triage, surge, disposition, and end-of-life care are disseminated, serving as templates for those that have not yet developed their own. There is an impressive variety of innovative, do-it-yourself projects surrounding PPE, intubation boxes, and three-dimensionally printed ventilator parts.

Finally, these networks provide emotional support. There are offers to ship additional PPE, videos of cities cheering as clinicians go to work, stories of triumph and recovery, pictures depicting ongoing wellness activities, and the occasional much-needed humorous anecdote or illustration. These networks reinforce the message that our lives continue despite this upheaval, and we are not alone in this struggle.

The end of the passage in The Great Influenza concludes with: “Ultimately a scientist has nothing to believe in but the process of inquiry. To move forcefully and aggressively even while uncertain requires a confidence and strength deeper than physical courage.”

FOAM and social networks are crucial channels for collecting and conveying up-to-date information during disasters. They represent a highly adaptable, evolving, and collaborative global community’s determination to persevere through time of uncertainty together.

Dr. Ren is a pediatric emergency medicine fellow at Children’s National Hospital, Washington. Dr. Simpson is a pediatric emergency medicine attending and medical director of emergency preparedness at the hospital. They reported that they do not have any disclosures or conflicts of interest. Email Dr. Ren and Dr. Simpson at [email protected].

References

1. “The Great Influenza: The Story of the Deadliest Pandemic in History.” (New York: Penguin Books, 2005, pp. 261-62).

2. Emerg Med J. 2014 Oct;31(e1):e76-7.

3. Acad Med. 2014 Apr;89(4):598-601.

4. “The Internet Book of Critical Care: COVID-19.” EMCrit Project.

5. “Covid-19.” REBEL EM-Emergency Medicine Blog.

6. “EM:RAP COVID-19 Resources.” EM RAP: Emergency Medicine Reviews and Perspectives.

7. “Episodes.” Peds RAP, Hippo Education.

As the race to develop rapid testing for COVID-19 expands, the Food and Drug Administration has granted emergency approval for an approach that uses saliva as the primary test biomaterial.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

According to a document provided to the FDA, the Rutgers Clinical Genomics Laboratory TaqPath SARS-CoV-2 Assay is intended for the qualitative detection of nucleic acid from SARS-CoV-2 in oropharyngeal (throat) swab, nasopharyngeal swab, anterior nasal swab, mid-turbinate nasal swab from individuals suspected of COVID-19 by their health care clinicians. To expand on this assay, Rutgers University–based RUCDR Infinite Biologics developed a saliva collection method in partnership with Spectrum Solutions and Accurate Diagnostic Labs.

The document states that collection of saliva specimens is limited to patients with symptoms of COVID-19 and should be performed in a health care setting under the supervision of a trained health care clinician. Samples are transported for RNA extraction and are tested within 48 hours of collection. In saliva samples obtained from 60 patients evaluated by the researchers, all were in agreement with the presence of COVID-19.

“If shown to be as accurate as nasopharyngeal and oropharyngeal samples, saliva as a biomatrix offers the advantage of not generating aerosols or creating as many respiratory droplets during specimen procurement, therefore decreasing the risk of transmission to the health care worker doing the testing,” said Matthew P. Cheng, MDCM, of the division of infectious diseases at McGill University Health Centre, Montreal, who was not involved in development of the test but who has written about diagnostic testing for the virus.

“Also, it may be easy enough for patients to do saliva self-collection at home. However, it is important to note that SARS-CoV-2 tests on saliva have not yet undergone the more rigorous evaluation of full FDA authorization, and saliva is not a preferred specimen type of the FDA nor the [Centers for Disease Control and Prevention] for respiratory virus testing.”

In a prepared statement, Andrew I. Brooks, PhD, chief operating officer at RUCDR Infinite Biologics, said the saliva collection method enables clinicians to preserve personal protective equipment for use in patient care instead of testing. “We can significantly increase the number of people tested each and every day as self-collection of saliva is quicker and more scalable than swab collections,” he said. “All of this combined will have a tremendous impact on testing in New Jersey and across the United States.”

The tests are currently available to the RWJBarnabas Health network, based in West Orange, N.J., which has partnered with Rutgers University.

[email protected]

As the race to develop rapid testing for COVID-19 expands, the Food and Drug Administration has granted emergency approval for an approach that uses saliva as the primary test biomaterial.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

According to a document provided to the FDA, the Rutgers Clinical Genomics Laboratory TaqPath SARS-CoV-2 Assay is intended for the qualitative detection of nucleic acid from SARS-CoV-2 in oropharyngeal (throat) swab, nasopharyngeal swab, anterior nasal swab, mid-turbinate nasal swab from individuals suspected of COVID-19 by their health care clinicians. To expand on this assay, Rutgers University–based RUCDR Infinite Biologics developed a saliva collection method in partnership with Spectrum Solutions and Accurate Diagnostic Labs.

The document states that collection of saliva specimens is limited to patients with symptoms of COVID-19 and should be performed in a health care setting under the supervision of a trained health care clinician. Samples are transported for RNA extraction and are tested within 48 hours of collection. In saliva samples obtained from 60 patients evaluated by the researchers, all were in agreement with the presence of COVID-19.

“If shown to be as accurate as nasopharyngeal and oropharyngeal samples, saliva as a biomatrix offers the advantage of not generating aerosols or creating as many respiratory droplets during specimen procurement, therefore decreasing the risk of transmission to the health care worker doing the testing,” said Matthew P. Cheng, MDCM, of the division of infectious diseases at McGill University Health Centre, Montreal, who was not involved in development of the test but who has written about diagnostic testing for the virus.

“Also, it may be easy enough for patients to do saliva self-collection at home. However, it is important to note that SARS-CoV-2 tests on saliva have not yet undergone the more rigorous evaluation of full FDA authorization, and saliva is not a preferred specimen type of the FDA nor the [Centers for Disease Control and Prevention] for respiratory virus testing.”

In a prepared statement, Andrew I. Brooks, PhD, chief operating officer at RUCDR Infinite Biologics, said the saliva collection method enables clinicians to preserve personal protective equipment for use in patient care instead of testing. “We can significantly increase the number of people tested each and every day as self-collection of saliva is quicker and more scalable than swab collections,” he said. “All of this combined will have a tremendous impact on testing in New Jersey and across the United States.”

The tests are currently available to the RWJBarnabas Health network, based in West Orange, N.J., which has partnered with Rutgers University.

[email protected]

As the race to develop rapid testing for COVID-19 expands, the Food and Drug Administration has granted emergency approval for an approach that uses saliva as the primary test biomaterial.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

According to a document provided to the FDA, the Rutgers Clinical Genomics Laboratory TaqPath SARS-CoV-2 Assay is intended for the qualitative detection of nucleic acid from SARS-CoV-2 in oropharyngeal (throat) swab, nasopharyngeal swab, anterior nasal swab, mid-turbinate nasal swab from individuals suspected of COVID-19 by their health care clinicians. To expand on this assay, Rutgers University–based RUCDR Infinite Biologics developed a saliva collection method in partnership with Spectrum Solutions and Accurate Diagnostic Labs.

The document states that collection of saliva specimens is limited to patients with symptoms of COVID-19 and should be performed in a health care setting under the supervision of a trained health care clinician. Samples are transported for RNA extraction and are tested within 48 hours of collection. In saliva samples obtained from 60 patients evaluated by the researchers, all were in agreement with the presence of COVID-19.

“If shown to be as accurate as nasopharyngeal and oropharyngeal samples, saliva as a biomatrix offers the advantage of not generating aerosols or creating as many respiratory droplets during specimen procurement, therefore decreasing the risk of transmission to the health care worker doing the testing,” said Matthew P. Cheng, MDCM, of the division of infectious diseases at McGill University Health Centre, Montreal, who was not involved in development of the test but who has written about diagnostic testing for the virus.

“Also, it may be easy enough for patients to do saliva self-collection at home. However, it is important to note that SARS-CoV-2 tests on saliva have not yet undergone the more rigorous evaluation of full FDA authorization, and saliva is not a preferred specimen type of the FDA nor the [Centers for Disease Control and Prevention] for respiratory virus testing.”

In a prepared statement, Andrew I. Brooks, PhD, chief operating officer at RUCDR Infinite Biologics, said the saliva collection method enables clinicians to preserve personal protective equipment for use in patient care instead of testing. “We can significantly increase the number of people tested each and every day as self-collection of saliva is quicker and more scalable than swab collections,” he said. “All of this combined will have a tremendous impact on testing in New Jersey and across the United States.”

The tests are currently available to the RWJBarnabas Health network, based in West Orange, N.J., which has partnered with Rutgers University.

[email protected]

Empty shelves that once cradled toilet paper rolls; lines of shoppers, some with masks; waiting 6 feet or at least a shopping cart length apart to get into grocery stores; hazmat-suited workers loading body bags into makeshift mortuaries ... These are the images we have come to associate with the COVID-19 pandemic. But then there also are the graphs and charts, none of them bearing good news. Some are difficult to interpret because they may be missing a key ingredient, such as a scale. Day to day fluctuations in the timeliness of the data points can make valid comparisons impossible. In most cases, it is too early to look at the graphs and hope for the big picture. Whether you are concerned about the stock market or the number of new cases of the virus in your county, you are hoping to see some graphic depiction of a favorable trend.

Richard McMillin/iStock Editorial/Getty Images

We have suddenly learned about the urgency of a process called “flattening the curve.” Are we doing as good a job of flattening as we could be? Are we doing better than France or Spain? Or are we heading toward an Italianesque apocalypse? Who is going to tell us when the flattening is for real and not just a 2- or 3-day statistical aberration?

The curves we are obsessed with today are those showing us new cases and new deaths. But there is another curve that we will need to concentrate on long after the much yearned for flattening of the death curve has been achieved. And we won’t be seeing this curve in four-color graphics on the front page of our newspapers. It is the learning curve, and we want it to be as steep as we can make it without any hint of flattening in the foreseeable future.

We need to learn more about corona-like viruses. Why are some of us more vulnerable? We need to learn more about contagion. Does the 6-foot guideline make any sense? How long are viral particles floating in the air capable of initiating disease? What about air flow and dilution? Can we build a cruise ship or airplane that will be less of a health hazard?

More importantly, we need to learn to be better prepared. Even before the pandemic there have been shortages in intravenous solutions and drugs of critical importance to common diseases. Can we learn how to create reliable and affordable supply chains that allow researchers and developers to make a reasonable profit? Can we relearn to value science? Can we learn to invest more heavily in epidemiology and make it a specialty that attracts our best thinkers and communicators? Then can we elect officials who will share our trust in their recommendations?

Can we do a better job of resolving the tension between those who believe in a strong federal government and those who believe in local autonomy because we are seeing every day that this is an issue of survival, not just coexistence? Can we learn that the globalization that has allowed this viral spread can also be leveraged to beat it into submission?

Over the last half century there has been an unfortunate flattening of the learning curve. Ironically we have seen exponential growth among hi-tech industries that have forced us to keep abreast of new developments. But along with this has been a growing skepticism about value of scientific investigation. It is time we climbed back on that steep learning curve. The view gets better the higher we climb.