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A pill for C. difficile works by increasing microbiome diversity
CP101, under development by Finch Therapeutics, proved more effective than a placebo in preventing recurrent infections for up to 24 weeks.
The CP101 capsules contain a powder of freeze-dried human stools from screened donors. They restore natural diversity that has been disrupted by antibiotics, said Jessica Allegretti, MD, MPH a gastroenterologist at Brigham and Women’s Hospital in Boston.
The treatment offers an alternative to fecal microbiota transplant, which can effectively treat antibiotic-resistant C. difficile infections but is difficult to standardize and administer – and doesn’t have full approval from the U.S. Food and Drug Administration, she added.
“I think this marks a moment in this space where we’re going to have better, safer, and more available options for patients,” she said in an interview. “It’s exciting.”
Dr. Allegretti is an author on three presentations of results from PRISM3, a phase 2 trial of CP101. They will be presented this week at the annual meeting of the American College of Gastroenterology. These results extend out to 24 weeks, whereas the 8-week results of this trial were presented a year ago at the same meeting.
Study details
The study enrolled 198 people who received antibiotics for recurrent C. difficile infections. Some patients had two or more recurrences, while others had only one recurrence but were 65 years of age or older.
“That was a unique aspect of this study, to see the effect of bringing a therapy like CP101 earlier in the treatment paradigm,” said Dr. Allegretti. “You can imagine for an older, frail, or more fragile patient that you would want to get rid of this [infection] earlier.”
After waiting 2-6 days for the antibiotics to wash out, the researchers randomly assigned 102 of these patients to take the CP101 pills orally and 96 to take placebo pills, both without bowel preparation.
The two groups were not significantly different in age, gender, comorbidities, the number of C. difficile recurrences, or the type of test used to diagnose the infection (PCR-based vs. toxin EIA-based).
After 8 weeks, 74.5% of those given the CP101 pills had not had a recurrence, compared with 61.5% of those given the placebo. The difference was just barely statistically significant (P = .0488).
Sixteen weeks later, the effect endured, with 73.5% of the CP101 group and 59.4% of the placebo group still free of recurrence. The statistical significance of the difference improved slightly (P = .0347).
Drug-related emergent adverse events were similar between the two groups: 16.3% for the CP101 group vs. 19.2% for the placebo group. These were mostly gastrointestinal symptoms, and none were serious.
Some of the patients received vancomycin as a first-line treatment for C. difficile infections, and the researchers wondered if the washout period was not sufficient to purge that antibiotic, leaving enough to interfere with the effectiveness of CP101.
Therefore, they separately analyzed 40 patients treated with fidaxomicin, which they expected to wash out more quickly. Among these patients, 81% who received CP101 were free of recurrences, at 8 weeks and 24 weeks. This compared with 42.1% of those who received the placebo, at both time points. This difference was more statistically significant (P = .0211).
Understanding how it works
To understand better how CP101 achieves its effects, the researchers collected stool samples from the patients and counted the number of different kinds organisms in each sample.
At baseline, the patients had about the same number, but after a week the diversity was greater in the patients treated with CP101, and that difference had increased at week 8. The researchers also found much less diversity of organisms in the stools of those patients who had recurrences of C. difficile infection.
The diversity of microbes in the successfully treated patients appeared to have been introduced by CP101. Dr. Allegretti and colleagues measured the number of organisms in the stool samples that came from CP101. They found that 96% of patients colonized by the CP101 organisms had avoided recurrence of the C. difficile infections, compared with 54.2% of those patients not colonized by these microbes.
“We now have some microbiome-based markers that show us as early as week 1 that the patient is going to be cured or not,” Dr. Allegretti said.
Based on these results, Finch plans to launch a phase 3 trial soon, she said.
The data on colonization is interesting because it has not been found with fecal microbiota transplants, said Purna Kashyap, MBBS, codirector of the Microbiome Program at the Mayo Clinic College of Medicine in Rochester, Minn., who was not involved in the study.
But to better interpret the data, it would be helpful to know more about how the placebo and CP101 groups compared at baseline with regard to medications, immunosuppression, and antibiotics used to treat the C. difficile infections, Dr. Kashyap said. He was struck by the lower cure rate in the portion of the placebo group treated with fidaxomicin.
“Overall, I think these are exciting observations based on the data but require careful review of the entire data to make sense of [them], which will happen when it goes through peer review,” he told this news organization in an email.
Several other standardized microbiota restoration products are under development, including at least two other capsules. In contrast to CP101, which is made up of whole stool, VE303 (Vedanta Biosciences) is a “rationally defined bacterial consortium,” and SER-109 (Seres Therapeutics) is a “consortium of highly purified Firmicutes spores.” VE303 has completed a phase 2 trial, and SER-109 has completed a phase 3 trial.
Dr. Allegretti is a consultant for Finch Therapeutics, which funded the trial. Dr. Kashyap has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
CP101, under development by Finch Therapeutics, proved more effective than a placebo in preventing recurrent infections for up to 24 weeks.
The CP101 capsules contain a powder of freeze-dried human stools from screened donors. They restore natural diversity that has been disrupted by antibiotics, said Jessica Allegretti, MD, MPH a gastroenterologist at Brigham and Women’s Hospital in Boston.
The treatment offers an alternative to fecal microbiota transplant, which can effectively treat antibiotic-resistant C. difficile infections but is difficult to standardize and administer – and doesn’t have full approval from the U.S. Food and Drug Administration, she added.
“I think this marks a moment in this space where we’re going to have better, safer, and more available options for patients,” she said in an interview. “It’s exciting.”
Dr. Allegretti is an author on three presentations of results from PRISM3, a phase 2 trial of CP101. They will be presented this week at the annual meeting of the American College of Gastroenterology. These results extend out to 24 weeks, whereas the 8-week results of this trial were presented a year ago at the same meeting.
Study details
The study enrolled 198 people who received antibiotics for recurrent C. difficile infections. Some patients had two or more recurrences, while others had only one recurrence but were 65 years of age or older.
“That was a unique aspect of this study, to see the effect of bringing a therapy like CP101 earlier in the treatment paradigm,” said Dr. Allegretti. “You can imagine for an older, frail, or more fragile patient that you would want to get rid of this [infection] earlier.”
After waiting 2-6 days for the antibiotics to wash out, the researchers randomly assigned 102 of these patients to take the CP101 pills orally and 96 to take placebo pills, both without bowel preparation.
The two groups were not significantly different in age, gender, comorbidities, the number of C. difficile recurrences, or the type of test used to diagnose the infection (PCR-based vs. toxin EIA-based).
After 8 weeks, 74.5% of those given the CP101 pills had not had a recurrence, compared with 61.5% of those given the placebo. The difference was just barely statistically significant (P = .0488).
Sixteen weeks later, the effect endured, with 73.5% of the CP101 group and 59.4% of the placebo group still free of recurrence. The statistical significance of the difference improved slightly (P = .0347).
Drug-related emergent adverse events were similar between the two groups: 16.3% for the CP101 group vs. 19.2% for the placebo group. These were mostly gastrointestinal symptoms, and none were serious.
Some of the patients received vancomycin as a first-line treatment for C. difficile infections, and the researchers wondered if the washout period was not sufficient to purge that antibiotic, leaving enough to interfere with the effectiveness of CP101.
Therefore, they separately analyzed 40 patients treated with fidaxomicin, which they expected to wash out more quickly. Among these patients, 81% who received CP101 were free of recurrences, at 8 weeks and 24 weeks. This compared with 42.1% of those who received the placebo, at both time points. This difference was more statistically significant (P = .0211).
Understanding how it works
To understand better how CP101 achieves its effects, the researchers collected stool samples from the patients and counted the number of different kinds organisms in each sample.
At baseline, the patients had about the same number, but after a week the diversity was greater in the patients treated with CP101, and that difference had increased at week 8. The researchers also found much less diversity of organisms in the stools of those patients who had recurrences of C. difficile infection.
The diversity of microbes in the successfully treated patients appeared to have been introduced by CP101. Dr. Allegretti and colleagues measured the number of organisms in the stool samples that came from CP101. They found that 96% of patients colonized by the CP101 organisms had avoided recurrence of the C. difficile infections, compared with 54.2% of those patients not colonized by these microbes.
“We now have some microbiome-based markers that show us as early as week 1 that the patient is going to be cured or not,” Dr. Allegretti said.
Based on these results, Finch plans to launch a phase 3 trial soon, she said.
The data on colonization is interesting because it has not been found with fecal microbiota transplants, said Purna Kashyap, MBBS, codirector of the Microbiome Program at the Mayo Clinic College of Medicine in Rochester, Minn., who was not involved in the study.
But to better interpret the data, it would be helpful to know more about how the placebo and CP101 groups compared at baseline with regard to medications, immunosuppression, and antibiotics used to treat the C. difficile infections, Dr. Kashyap said. He was struck by the lower cure rate in the portion of the placebo group treated with fidaxomicin.
“Overall, I think these are exciting observations based on the data but require careful review of the entire data to make sense of [them], which will happen when it goes through peer review,” he told this news organization in an email.
Several other standardized microbiota restoration products are under development, including at least two other capsules. In contrast to CP101, which is made up of whole stool, VE303 (Vedanta Biosciences) is a “rationally defined bacterial consortium,” and SER-109 (Seres Therapeutics) is a “consortium of highly purified Firmicutes spores.” VE303 has completed a phase 2 trial, and SER-109 has completed a phase 3 trial.
Dr. Allegretti is a consultant for Finch Therapeutics, which funded the trial. Dr. Kashyap has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
CP101, under development by Finch Therapeutics, proved more effective than a placebo in preventing recurrent infections for up to 24 weeks.
The CP101 capsules contain a powder of freeze-dried human stools from screened donors. They restore natural diversity that has been disrupted by antibiotics, said Jessica Allegretti, MD, MPH a gastroenterologist at Brigham and Women’s Hospital in Boston.
The treatment offers an alternative to fecal microbiota transplant, which can effectively treat antibiotic-resistant C. difficile infections but is difficult to standardize and administer – and doesn’t have full approval from the U.S. Food and Drug Administration, she added.
“I think this marks a moment in this space where we’re going to have better, safer, and more available options for patients,” she said in an interview. “It’s exciting.”
Dr. Allegretti is an author on three presentations of results from PRISM3, a phase 2 trial of CP101. They will be presented this week at the annual meeting of the American College of Gastroenterology. These results extend out to 24 weeks, whereas the 8-week results of this trial were presented a year ago at the same meeting.
Study details
The study enrolled 198 people who received antibiotics for recurrent C. difficile infections. Some patients had two or more recurrences, while others had only one recurrence but were 65 years of age or older.
“That was a unique aspect of this study, to see the effect of bringing a therapy like CP101 earlier in the treatment paradigm,” said Dr. Allegretti. “You can imagine for an older, frail, or more fragile patient that you would want to get rid of this [infection] earlier.”
After waiting 2-6 days for the antibiotics to wash out, the researchers randomly assigned 102 of these patients to take the CP101 pills orally and 96 to take placebo pills, both without bowel preparation.
The two groups were not significantly different in age, gender, comorbidities, the number of C. difficile recurrences, or the type of test used to diagnose the infection (PCR-based vs. toxin EIA-based).
After 8 weeks, 74.5% of those given the CP101 pills had not had a recurrence, compared with 61.5% of those given the placebo. The difference was just barely statistically significant (P = .0488).
Sixteen weeks later, the effect endured, with 73.5% of the CP101 group and 59.4% of the placebo group still free of recurrence. The statistical significance of the difference improved slightly (P = .0347).
Drug-related emergent adverse events were similar between the two groups: 16.3% for the CP101 group vs. 19.2% for the placebo group. These were mostly gastrointestinal symptoms, and none were serious.
Some of the patients received vancomycin as a first-line treatment for C. difficile infections, and the researchers wondered if the washout period was not sufficient to purge that antibiotic, leaving enough to interfere with the effectiveness of CP101.
Therefore, they separately analyzed 40 patients treated with fidaxomicin, which they expected to wash out more quickly. Among these patients, 81% who received CP101 were free of recurrences, at 8 weeks and 24 weeks. This compared with 42.1% of those who received the placebo, at both time points. This difference was more statistically significant (P = .0211).
Understanding how it works
To understand better how CP101 achieves its effects, the researchers collected stool samples from the patients and counted the number of different kinds organisms in each sample.
At baseline, the patients had about the same number, but after a week the diversity was greater in the patients treated with CP101, and that difference had increased at week 8. The researchers also found much less diversity of organisms in the stools of those patients who had recurrences of C. difficile infection.
The diversity of microbes in the successfully treated patients appeared to have been introduced by CP101. Dr. Allegretti and colleagues measured the number of organisms in the stool samples that came from CP101. They found that 96% of patients colonized by the CP101 organisms had avoided recurrence of the C. difficile infections, compared with 54.2% of those patients not colonized by these microbes.
“We now have some microbiome-based markers that show us as early as week 1 that the patient is going to be cured or not,” Dr. Allegretti said.
Based on these results, Finch plans to launch a phase 3 trial soon, she said.
The data on colonization is interesting because it has not been found with fecal microbiota transplants, said Purna Kashyap, MBBS, codirector of the Microbiome Program at the Mayo Clinic College of Medicine in Rochester, Minn., who was not involved in the study.
But to better interpret the data, it would be helpful to know more about how the placebo and CP101 groups compared at baseline with regard to medications, immunosuppression, and antibiotics used to treat the C. difficile infections, Dr. Kashyap said. He was struck by the lower cure rate in the portion of the placebo group treated with fidaxomicin.
“Overall, I think these are exciting observations based on the data but require careful review of the entire data to make sense of [them], which will happen when it goes through peer review,” he told this news organization in an email.
Several other standardized microbiota restoration products are under development, including at least two other capsules. In contrast to CP101, which is made up of whole stool, VE303 (Vedanta Biosciences) is a “rationally defined bacterial consortium,” and SER-109 (Seres Therapeutics) is a “consortium of highly purified Firmicutes spores.” VE303 has completed a phase 2 trial, and SER-109 has completed a phase 3 trial.
Dr. Allegretti is a consultant for Finch Therapeutics, which funded the trial. Dr. Kashyap has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
AT ACG 2021
My experience as a family medicine resident in 2021
I did not get a medical school graduation; I was one of the many thousands of newly graduated students who simply left their 4th-year rotation sites one chilly day in March 2020 and just never went back. My medical school education didn’t end with me walking triumphantly across the stage – a first-generation college student finally achieving the greatest dream in her life. Instead, it ended with a Zoom “graduation” and a cross-country move from Georgia to Pennsylvania amidst the greatest pandemic in recent memory. To say my impostor syndrome was bad would be an understatement.
Residency in the COVID-19-era
The joy and the draw to family medicine for me has always been the broad scope of conditions that we see and treat. From day 1, however, much of my residency has been devoted to one very small subset of patients – those with COVID-19. At one point, our hospital was so strained that our family medicine program had to run a second inpatient service alongside our usual five-resident service team just to provide care to everybody. Patients were in the hallways. The ER was packed to the gills. We were sleepless, terrified, unvaccinated, and desperate to help our patients survive a disease that was incompletely understood, with very few tools in our toolbox to combat it.
I distinctly remember sitting in the workroom with a coresident of mine, our faces seemingly permanently lined from wearing N95s all shift, and saying to him, “I worry I will be a bad family medicine physician. I worry I haven’t seen enough, other than COVID.” It was midway through my intern year; the days were short, so I was driving to and from the hospital in chilly darkness. My patients, like many around the country, were doing poorly. Vaccines seemed like a promise too good to be true. Worst of all: Those of us who were interns, who had no triumphant podium moment to end our medical school education, were suffering with an intense sense of impostor syndrome which was strengthened by every “there is nothing else we can offer your loved one at this time,” conversation we had. My apprehension about not having seen a wider breadth of medicine during my training is a sentiment still widely shared by COVID-era residents.
Luckily, my coresident was supportive.
“We’re going to be great family medicine physicians,” he said. “We’re learning the hard stuff – the bread and butter of FM – up-front. You’ll see.”
In some ways, I think he was right. Clinical skills, empathy, humility, and forging strong relationships are at the center of every family medicine physician’s heart; my generation has had to learn these skills early and under pressure. Sometimes, there are no answers. Sometimes, the best thing a family doctor can do for a patient is to hear them, understand them, and hold their hand.
‘We watched Cinderella together’
Shortly after that conversation with my coresident, I had a particular case which moved me. This gentleman with intellectual disability and COVID had been declining steadily since his admission to the hospital. He was isolated from everybody he knew and loved, but it did not dampen his spirits. He was cheerful to every person who entered his room, clad in their shrouds of PPE, which more often than not felt more like mourning garb than protective wear. I remember very little about this patient’s clinical picture – the COVID, the superimposed pneumonia, the repeated intubations. What I do remember is he loved the Disney classic, Cinderella. I knew this because I developed a very close relationship with his family during the course of his hospitalization. Amidst the torrential onslaught of patients, I made sure to call families every day – not because I wanted to, but because my mentors and attendings and coresidents had all drilled into me from day 1 that we are family medicine, and a large part of our role is to advocate for our patients, and to communicate with their loved ones. So I called. I learned a lot about him; his likes, his dislikes, his close bond with his siblings, and of course his lifelong love for Cinderella. On the last week of my ICU rotation, my patient passed peacefully. His nurse and I were bedside. We held his hand. We told him his family loved him. We watched Cinderella together on an iPad encased in protective plastic.
My next rotation was an outpatient one and it looked more like the “bread and butter” of family medicine. But as I whisked in and out of patient rooms, attending to patients with diabetes, with depression, with pain, I could not stop thinking about my hospitalized patients who my coresidents had assumed care of. Each exam room I entered, I rather morbidly thought “this patient could be next on our hospital service.” Without realizing it, I made more of an effort to get to know each patient holistically. I learned who they were as people. I found myself writing small, medically low-yield details in the chart: “Margaret loves to sing in her church choir;” “Katherine is a self-published author.”
I learned from my attendings. As I sat at the precepting table with them, observing their conversations about patients, their collective decades of experience were apparent.
“I’ve been seeing this patient every few weeks since I was a resident,” said one of my attendings.
“I don’t even see my parents that often,” I thought.
The depth of her relationship with, understanding of, and compassion for this patient struck me deeply. This was why I went into family medicine. My attending knew her patients; they were not faceless unknowns in a hospital gown to her. She would have known to play Cinderella for them in the end.
This is a unique time for trainees. We have been challenged, terrified, overwhelmed, and heartbroken. But at no point have we been isolated. We’ve had the generations of doctors before us to lead the way, to teach us the “hard stuff.” We’ve had senior residents to lean on, who have taken us aside and told us, “I can do the goals-of-care talk today, you need a break.” While the plague seems to have passed over our hospital for now, it has left behind a class of family medicine residents who are proud to carry on our specialty’s long tradition of compassionate, empathetic, lifelong care. “We care for all life stages, from cradle to grave,” says every family medicine physician.
My class, for better or for worse, has cared more often for patients in the twilight of their lives, and while it has been hard, I believe it has made us all better doctors. Now, when I hold a newborn in my arms for a well-child check, I am exceptionally grateful – for the opportunities I have been given, for new beginnings amidst so much sadness, and for the great privilege of being a family medicine physician.
Dr. Persampiere is a 2nd-year resident in the family medicine residency program at Abington (Pa.) Jefferson Health. You can contact her directly at [email protected] or via [email protected].
I did not get a medical school graduation; I was one of the many thousands of newly graduated students who simply left their 4th-year rotation sites one chilly day in March 2020 and just never went back. My medical school education didn’t end with me walking triumphantly across the stage – a first-generation college student finally achieving the greatest dream in her life. Instead, it ended with a Zoom “graduation” and a cross-country move from Georgia to Pennsylvania amidst the greatest pandemic in recent memory. To say my impostor syndrome was bad would be an understatement.
Residency in the COVID-19-era
The joy and the draw to family medicine for me has always been the broad scope of conditions that we see and treat. From day 1, however, much of my residency has been devoted to one very small subset of patients – those with COVID-19. At one point, our hospital was so strained that our family medicine program had to run a second inpatient service alongside our usual five-resident service team just to provide care to everybody. Patients were in the hallways. The ER was packed to the gills. We were sleepless, terrified, unvaccinated, and desperate to help our patients survive a disease that was incompletely understood, with very few tools in our toolbox to combat it.
I distinctly remember sitting in the workroom with a coresident of mine, our faces seemingly permanently lined from wearing N95s all shift, and saying to him, “I worry I will be a bad family medicine physician. I worry I haven’t seen enough, other than COVID.” It was midway through my intern year; the days were short, so I was driving to and from the hospital in chilly darkness. My patients, like many around the country, were doing poorly. Vaccines seemed like a promise too good to be true. Worst of all: Those of us who were interns, who had no triumphant podium moment to end our medical school education, were suffering with an intense sense of impostor syndrome which was strengthened by every “there is nothing else we can offer your loved one at this time,” conversation we had. My apprehension about not having seen a wider breadth of medicine during my training is a sentiment still widely shared by COVID-era residents.
Luckily, my coresident was supportive.
“We’re going to be great family medicine physicians,” he said. “We’re learning the hard stuff – the bread and butter of FM – up-front. You’ll see.”
In some ways, I think he was right. Clinical skills, empathy, humility, and forging strong relationships are at the center of every family medicine physician’s heart; my generation has had to learn these skills early and under pressure. Sometimes, there are no answers. Sometimes, the best thing a family doctor can do for a patient is to hear them, understand them, and hold their hand.
‘We watched Cinderella together’
Shortly after that conversation with my coresident, I had a particular case which moved me. This gentleman with intellectual disability and COVID had been declining steadily since his admission to the hospital. He was isolated from everybody he knew and loved, but it did not dampen his spirits. He was cheerful to every person who entered his room, clad in their shrouds of PPE, which more often than not felt more like mourning garb than protective wear. I remember very little about this patient’s clinical picture – the COVID, the superimposed pneumonia, the repeated intubations. What I do remember is he loved the Disney classic, Cinderella. I knew this because I developed a very close relationship with his family during the course of his hospitalization. Amidst the torrential onslaught of patients, I made sure to call families every day – not because I wanted to, but because my mentors and attendings and coresidents had all drilled into me from day 1 that we are family medicine, and a large part of our role is to advocate for our patients, and to communicate with their loved ones. So I called. I learned a lot about him; his likes, his dislikes, his close bond with his siblings, and of course his lifelong love for Cinderella. On the last week of my ICU rotation, my patient passed peacefully. His nurse and I were bedside. We held his hand. We told him his family loved him. We watched Cinderella together on an iPad encased in protective plastic.
My next rotation was an outpatient one and it looked more like the “bread and butter” of family medicine. But as I whisked in and out of patient rooms, attending to patients with diabetes, with depression, with pain, I could not stop thinking about my hospitalized patients who my coresidents had assumed care of. Each exam room I entered, I rather morbidly thought “this patient could be next on our hospital service.” Without realizing it, I made more of an effort to get to know each patient holistically. I learned who they were as people. I found myself writing small, medically low-yield details in the chart: “Margaret loves to sing in her church choir;” “Katherine is a self-published author.”
I learned from my attendings. As I sat at the precepting table with them, observing their conversations about patients, their collective decades of experience were apparent.
“I’ve been seeing this patient every few weeks since I was a resident,” said one of my attendings.
“I don’t even see my parents that often,” I thought.
The depth of her relationship with, understanding of, and compassion for this patient struck me deeply. This was why I went into family medicine. My attending knew her patients; they were not faceless unknowns in a hospital gown to her. She would have known to play Cinderella for them in the end.
This is a unique time for trainees. We have been challenged, terrified, overwhelmed, and heartbroken. But at no point have we been isolated. We’ve had the generations of doctors before us to lead the way, to teach us the “hard stuff.” We’ve had senior residents to lean on, who have taken us aside and told us, “I can do the goals-of-care talk today, you need a break.” While the plague seems to have passed over our hospital for now, it has left behind a class of family medicine residents who are proud to carry on our specialty’s long tradition of compassionate, empathetic, lifelong care. “We care for all life stages, from cradle to grave,” says every family medicine physician.
My class, for better or for worse, has cared more often for patients in the twilight of their lives, and while it has been hard, I believe it has made us all better doctors. Now, when I hold a newborn in my arms for a well-child check, I am exceptionally grateful – for the opportunities I have been given, for new beginnings amidst so much sadness, and for the great privilege of being a family medicine physician.
Dr. Persampiere is a 2nd-year resident in the family medicine residency program at Abington (Pa.) Jefferson Health. You can contact her directly at [email protected] or via [email protected].
I did not get a medical school graduation; I was one of the many thousands of newly graduated students who simply left their 4th-year rotation sites one chilly day in March 2020 and just never went back. My medical school education didn’t end with me walking triumphantly across the stage – a first-generation college student finally achieving the greatest dream in her life. Instead, it ended with a Zoom “graduation” and a cross-country move from Georgia to Pennsylvania amidst the greatest pandemic in recent memory. To say my impostor syndrome was bad would be an understatement.
Residency in the COVID-19-era
The joy and the draw to family medicine for me has always been the broad scope of conditions that we see and treat. From day 1, however, much of my residency has been devoted to one very small subset of patients – those with COVID-19. At one point, our hospital was so strained that our family medicine program had to run a second inpatient service alongside our usual five-resident service team just to provide care to everybody. Patients were in the hallways. The ER was packed to the gills. We were sleepless, terrified, unvaccinated, and desperate to help our patients survive a disease that was incompletely understood, with very few tools in our toolbox to combat it.
I distinctly remember sitting in the workroom with a coresident of mine, our faces seemingly permanently lined from wearing N95s all shift, and saying to him, “I worry I will be a bad family medicine physician. I worry I haven’t seen enough, other than COVID.” It was midway through my intern year; the days were short, so I was driving to and from the hospital in chilly darkness. My patients, like many around the country, were doing poorly. Vaccines seemed like a promise too good to be true. Worst of all: Those of us who were interns, who had no triumphant podium moment to end our medical school education, were suffering with an intense sense of impostor syndrome which was strengthened by every “there is nothing else we can offer your loved one at this time,” conversation we had. My apprehension about not having seen a wider breadth of medicine during my training is a sentiment still widely shared by COVID-era residents.
Luckily, my coresident was supportive.
“We’re going to be great family medicine physicians,” he said. “We’re learning the hard stuff – the bread and butter of FM – up-front. You’ll see.”
In some ways, I think he was right. Clinical skills, empathy, humility, and forging strong relationships are at the center of every family medicine physician’s heart; my generation has had to learn these skills early and under pressure. Sometimes, there are no answers. Sometimes, the best thing a family doctor can do for a patient is to hear them, understand them, and hold their hand.
‘We watched Cinderella together’
Shortly after that conversation with my coresident, I had a particular case which moved me. This gentleman with intellectual disability and COVID had been declining steadily since his admission to the hospital. He was isolated from everybody he knew and loved, but it did not dampen his spirits. He was cheerful to every person who entered his room, clad in their shrouds of PPE, which more often than not felt more like mourning garb than protective wear. I remember very little about this patient’s clinical picture – the COVID, the superimposed pneumonia, the repeated intubations. What I do remember is he loved the Disney classic, Cinderella. I knew this because I developed a very close relationship with his family during the course of his hospitalization. Amidst the torrential onslaught of patients, I made sure to call families every day – not because I wanted to, but because my mentors and attendings and coresidents had all drilled into me from day 1 that we are family medicine, and a large part of our role is to advocate for our patients, and to communicate with their loved ones. So I called. I learned a lot about him; his likes, his dislikes, his close bond with his siblings, and of course his lifelong love for Cinderella. On the last week of my ICU rotation, my patient passed peacefully. His nurse and I were bedside. We held his hand. We told him his family loved him. We watched Cinderella together on an iPad encased in protective plastic.
My next rotation was an outpatient one and it looked more like the “bread and butter” of family medicine. But as I whisked in and out of patient rooms, attending to patients with diabetes, with depression, with pain, I could not stop thinking about my hospitalized patients who my coresidents had assumed care of. Each exam room I entered, I rather morbidly thought “this patient could be next on our hospital service.” Without realizing it, I made more of an effort to get to know each patient holistically. I learned who they were as people. I found myself writing small, medically low-yield details in the chart: “Margaret loves to sing in her church choir;” “Katherine is a self-published author.”
I learned from my attendings. As I sat at the precepting table with them, observing their conversations about patients, their collective decades of experience were apparent.
“I’ve been seeing this patient every few weeks since I was a resident,” said one of my attendings.
“I don’t even see my parents that often,” I thought.
The depth of her relationship with, understanding of, and compassion for this patient struck me deeply. This was why I went into family medicine. My attending knew her patients; they were not faceless unknowns in a hospital gown to her. She would have known to play Cinderella for them in the end.
This is a unique time for trainees. We have been challenged, terrified, overwhelmed, and heartbroken. But at no point have we been isolated. We’ve had the generations of doctors before us to lead the way, to teach us the “hard stuff.” We’ve had senior residents to lean on, who have taken us aside and told us, “I can do the goals-of-care talk today, you need a break.” While the plague seems to have passed over our hospital for now, it has left behind a class of family medicine residents who are proud to carry on our specialty’s long tradition of compassionate, empathetic, lifelong care. “We care for all life stages, from cradle to grave,” says every family medicine physician.
My class, for better or for worse, has cared more often for patients in the twilight of their lives, and while it has been hard, I believe it has made us all better doctors. Now, when I hold a newborn in my arms for a well-child check, I am exceptionally grateful – for the opportunities I have been given, for new beginnings amidst so much sadness, and for the great privilege of being a family medicine physician.
Dr. Persampiere is a 2nd-year resident in the family medicine residency program at Abington (Pa.) Jefferson Health. You can contact her directly at [email protected] or via [email protected].
Benefit of combined ascorbic acid, corticosteroids, and thiamine in septic shock remains unproven
Background: Sepsis is a common reason for hospitalization, and studies of the combination of ascorbic acid, corticosteroids, and thiamine have had conflicting results.
Study design: Double-blind randomized controlled trial.
Setting: 14 hospitals in the United States.
Synopsis: A total of 205 patients were randomly assigned to receive parenteral ascorbic acid, hydrocortisone, and thiamine every 6 hours for 4 days or placebo in matching volumes and time points. The primary outcome was change in the Sequential Organ Failure Assessment (SOFA) score between enrollment and 72 hours. There was no statistically significant difference in SOFA scores (adjusted mean difference, –0.8; 95% CI, –1.7 to 0.2; P = .12), kidney failure (adjusted risk difference, 0.03; 95% CI, –0.1 to 0.2; P = .58), or 30-day mortality (HR, 1.3; 95% CI 0.8-2.2; P = .26) between the two groups. Adverse effects included hyperglycemia, hypernatremia, and new hospital-acquired infection.
Bottom line: The combination of ascorbic acid, corticosteroids, and thiamine in patients with septic shock does not improve SOFA score.
Citation: Moskowitz A et al. Effect of ascorbic acid, corticosteroids, and thiamine on organ injury in septic shock: The ACTS randomized clinical trial. JAMA. 2020;324(7):642-50.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
Background: Sepsis is a common reason for hospitalization, and studies of the combination of ascorbic acid, corticosteroids, and thiamine have had conflicting results.
Study design: Double-blind randomized controlled trial.
Setting: 14 hospitals in the United States.
Synopsis: A total of 205 patients were randomly assigned to receive parenteral ascorbic acid, hydrocortisone, and thiamine every 6 hours for 4 days or placebo in matching volumes and time points. The primary outcome was change in the Sequential Organ Failure Assessment (SOFA) score between enrollment and 72 hours. There was no statistically significant difference in SOFA scores (adjusted mean difference, –0.8; 95% CI, –1.7 to 0.2; P = .12), kidney failure (adjusted risk difference, 0.03; 95% CI, –0.1 to 0.2; P = .58), or 30-day mortality (HR, 1.3; 95% CI 0.8-2.2; P = .26) between the two groups. Adverse effects included hyperglycemia, hypernatremia, and new hospital-acquired infection.
Bottom line: The combination of ascorbic acid, corticosteroids, and thiamine in patients with septic shock does not improve SOFA score.
Citation: Moskowitz A et al. Effect of ascorbic acid, corticosteroids, and thiamine on organ injury in septic shock: The ACTS randomized clinical trial. JAMA. 2020;324(7):642-50.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
Background: Sepsis is a common reason for hospitalization, and studies of the combination of ascorbic acid, corticosteroids, and thiamine have had conflicting results.
Study design: Double-blind randomized controlled trial.
Setting: 14 hospitals in the United States.
Synopsis: A total of 205 patients were randomly assigned to receive parenteral ascorbic acid, hydrocortisone, and thiamine every 6 hours for 4 days or placebo in matching volumes and time points. The primary outcome was change in the Sequential Organ Failure Assessment (SOFA) score between enrollment and 72 hours. There was no statistically significant difference in SOFA scores (adjusted mean difference, –0.8; 95% CI, –1.7 to 0.2; P = .12), kidney failure (adjusted risk difference, 0.03; 95% CI, –0.1 to 0.2; P = .58), or 30-day mortality (HR, 1.3; 95% CI 0.8-2.2; P = .26) between the two groups. Adverse effects included hyperglycemia, hypernatremia, and new hospital-acquired infection.
Bottom line: The combination of ascorbic acid, corticosteroids, and thiamine in patients with septic shock does not improve SOFA score.
Citation: Moskowitz A et al. Effect of ascorbic acid, corticosteroids, and thiamine on organ injury in septic shock: The ACTS randomized clinical trial. JAMA. 2020;324(7):642-50.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
New prescription for loop diuretic improves 30-day heart failure outcomes
Background: In patients with heart failure, loop diuretics are used to manage symptoms. However, the effect of loop diuretics on morbidity and mortality is not well studied.
Study design: Retrospective matched cohort study.
Setting: OPTIMIZE-HF registry.
Synopsis: Using the data from the OPTIMIZE-HF registry to develop a matched cohort of 2,191 pairs of patients, researchers showed that patients hospitalized for heart failure who were not previously taking any diuretic had significantly better 30-day clinical outcomes if they were discharged on a loop diuretic. Specifically, a loop diuretic on discharge resulted in a lower 30-day all-cause mortality (hazard ratio, 0.73; 95% CI, 0.57-0.94; P = .016) and a lower risk of 30-day heart failure readmission (HR, 0.79; 95% CI, 0.63-0.99; P = .037), compared with patients not discharged on a loop diuretic.
Neither of these associations was statistically significant during a 60-day follow-up, and the authors acknowledge that significant 30-day associations may be sensitive to an unmeasured confounder.
Bottom line: Starting an outpatient loop diuretic on discharge for patients hospitalized for heart failure improves 30-day all-cause mortality and lowers the risk of 30-day heart failure readmission.
Citation: Faselis C et al. Loop diuretic prescription and 30-day outcomes in older patients with heart failure. J Am Coll Cardiol. 2020;76:669-79.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
Background: In patients with heart failure, loop diuretics are used to manage symptoms. However, the effect of loop diuretics on morbidity and mortality is not well studied.
Study design: Retrospective matched cohort study.
Setting: OPTIMIZE-HF registry.
Synopsis: Using the data from the OPTIMIZE-HF registry to develop a matched cohort of 2,191 pairs of patients, researchers showed that patients hospitalized for heart failure who were not previously taking any diuretic had significantly better 30-day clinical outcomes if they were discharged on a loop diuretic. Specifically, a loop diuretic on discharge resulted in a lower 30-day all-cause mortality (hazard ratio, 0.73; 95% CI, 0.57-0.94; P = .016) and a lower risk of 30-day heart failure readmission (HR, 0.79; 95% CI, 0.63-0.99; P = .037), compared with patients not discharged on a loop diuretic.
Neither of these associations was statistically significant during a 60-day follow-up, and the authors acknowledge that significant 30-day associations may be sensitive to an unmeasured confounder.
Bottom line: Starting an outpatient loop diuretic on discharge for patients hospitalized for heart failure improves 30-day all-cause mortality and lowers the risk of 30-day heart failure readmission.
Citation: Faselis C et al. Loop diuretic prescription and 30-day outcomes in older patients with heart failure. J Am Coll Cardiol. 2020;76:669-79.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
Background: In patients with heart failure, loop diuretics are used to manage symptoms. However, the effect of loop diuretics on morbidity and mortality is not well studied.
Study design: Retrospective matched cohort study.
Setting: OPTIMIZE-HF registry.
Synopsis: Using the data from the OPTIMIZE-HF registry to develop a matched cohort of 2,191 pairs of patients, researchers showed that patients hospitalized for heart failure who were not previously taking any diuretic had significantly better 30-day clinical outcomes if they were discharged on a loop diuretic. Specifically, a loop diuretic on discharge resulted in a lower 30-day all-cause mortality (hazard ratio, 0.73; 95% CI, 0.57-0.94; P = .016) and a lower risk of 30-day heart failure readmission (HR, 0.79; 95% CI, 0.63-0.99; P = .037), compared with patients not discharged on a loop diuretic.
Neither of these associations was statistically significant during a 60-day follow-up, and the authors acknowledge that significant 30-day associations may be sensitive to an unmeasured confounder.
Bottom line: Starting an outpatient loop diuretic on discharge for patients hospitalized for heart failure improves 30-day all-cause mortality and lowers the risk of 30-day heart failure readmission.
Citation: Faselis C et al. Loop diuretic prescription and 30-day outcomes in older patients with heart failure. J Am Coll Cardiol. 2020;76:669-79.
Dr. Wallenhorst is a hospitalist and palliative medicine physician at the Lexington (Ky) VA Health Care System.
CDC panel backs COVID-19 boosters for nearly all adults
Editor’s note: This story was updated with the CDC director’s endorsement.
Centers for Disease Control and Prevention (CDC) Director Rochelle Walensky, MD, has signed off on an advisory panel’s earlier unanimous vote to recommend boosters for the Moderna and Johnson and Johnson COVID vaccines.
The decision now means that millions of Americans are eligible to get a booster shot for either the Pfizer, Moderna, or J&J COVID vaccines.
“The evidence shows that all three COVID-19 vaccines authorized in the United States are safe – as demonstrated by the over 400 million vaccine doses already given. And, they are all highly effective in reducing the risk of severe disease, hospitalization, and death, even in the midst of the widely circulating Delta variant,” Dr. Walensky said in a CDC news release.
She also signed off on the panel’s suggestion that individuals can mix or match the booster from any one of the three available COVID-19 vaccines.
The Advisory Committee on Immunization Practices (ACIP) recommended in a late afternoon 15-0 vote that everyone over age 18 who are at least 2 months past their Johnson & Johnson vaccine should get a booster, an endorsement that affects an estimated 13 million Americans.
Those eligible for a booster at least 6 months after their last Moderna shot are the same groups who can get a Pfizer booster.
They are:
- Anyone over age 65.
- Those over age 18 with an underlying health condition that puts them at risk of severe COVID-19.
- Those over age 18 who may be at higher risk of a COVID-19 infection because they live or work in a risky setting.
These recommendations are in line with the Food and Drug Administration’s Oct. 20 authorization of the boosters, along with the ability to mix-and-match vaccines.
There are an estimated 47 million Pfizer recipients and 39 million people vaccinated with Moderna who are now eligible for a booster dose, according to data presented by the CDC.
Questions, concerns
Before voting, some committee members expressed discomfort in broadly recommending boosters, stressing that there is very little evidence supporting the need for boosters in people younger than age 50.
“I can’t say that I am comfortable that anybody under 50 – an otherwise healthy individual – needs a booster vaccine at this time with either Moderna or Pfizer,” said ACIP member Sarah Long, MD, professor of pediatrics at Drexel University in Philadelphia.
She said she would try to mitigate any potential harm by having some kind of age restriction on the otherwise worried well.
“We don’t usually have the vaccines [for] the worried well. We give it because we have a need that’s worth the risk, and there’s a burden of severity of disease,” Dr. Long said.
The evidence to date shows that all the vaccines authorized for use in the U.S. continue to protect people well against severe COVID-19 outcomes, including hospitalization and death.
But breakthrough infections are on the rise, especially for people who initially received the Johnson and Johnson one-dose vaccine.
On Oct. 21, Pfizer released data from a study of more than 10,000 fully vaccinated people. Half were randomly assigned to get a booster of their Comirnaty vaccine, the other half were given a placebo.
Over the ensuing 2.5 months, there were 5 COVID-19 cases in the boosted group, and 109 in the group that got a placebo.
The data were posted in a press release and have not yet been peer reviewed, but are the first to show clinical effectiveness of boosters at preventing COVID-19 infections.
Data recently considered by the FDA and CDC for booster doses come from studies that were mostly shorter and smaller. These studies looked at biomarkers of immunity like the concentration of antibodies in a person’s blood and the percentage of study participants who saw a boost to those antibodies.
The studies demonstrated that boosters indeed restore high levels of antibodies, but unlike the newest Pfizer data they were not able to show that these antibodies prevented COVID-19.
These studies also weren’t powered to pick up on any less common safety problems that might arise after another dose of the shots.
“Real world” recommendations
In the end, however, the panel felt it was more important to be permissive in allowing boosters so that individuals and their doctors could be free to make their own decisions.
“The decision made by the FDA and the ACIP recommendations, I think, reflects the real world. The public is going to do what they feel driven to do. This at least adds a scientific review of the currently available data,” said Jay Varkey, MD, an infectious disease physician and associate professor at Emory University in Atlanta, who was not involved in the ACIP’s deliberations.
Dr. Varkey said he would recommend that anyone who is younger than 65, and who has no underlying medical conditions such as diabetes or obesity, speak with their doctor about their individual benefits and risks before getting a booster.
The CDC is planning to release a detailed suite of clinical considerations to help people weigh the risks and benefits of getting a booster.
Safety updates presented at the meeting show that serious adverse events after vaccination are extremely rare, but in some cases, they may rise above the risk for those problems generally seen in the population.
Those rare events include the disabling autoimmune condition Guillain-Barré syndrome and the platelet disorder thrombosis with thrombocytopenia (TTS), which causes blood clots along with the risk of excess bleeding because of a low platelet count.
Both can occur after the J&J vaccine. Out of 15.3 million doses of the vaccine given to date, there have been 47 cases of TTS and five deaths. These events are more common in younger women.
The mRNA vaccines, such as those from Pfizer and Moderna, can cause heart inflammation called myocarditis or pericarditis. This side effect is more common in men 18-24 years old. The reported rate of myocarditis after vaccination is 39 cases for every 1 million doses.
In voting to permit boosters, committee member Wilbur Chen, MD, professor at the University of Maryland’s Center for Vaccine Development, said he hoped boosters wouldn’t give Americans false confidence.
Dr. Chen stressed that ending the pandemic would depend on “a multilayered approach” that includes masking, social distancing, avoiding large crowds indoors, and convincing more Americans to take their first doses of the vaccines.
“We’re not just going to vaccinate ourselves out of this situation,” Dr. Chen said.
A version of this article first appeared on WebMD.com.
Editor’s note: This story was updated with the CDC director’s endorsement.
Centers for Disease Control and Prevention (CDC) Director Rochelle Walensky, MD, has signed off on an advisory panel’s earlier unanimous vote to recommend boosters for the Moderna and Johnson and Johnson COVID vaccines.
The decision now means that millions of Americans are eligible to get a booster shot for either the Pfizer, Moderna, or J&J COVID vaccines.
“The evidence shows that all three COVID-19 vaccines authorized in the United States are safe – as demonstrated by the over 400 million vaccine doses already given. And, they are all highly effective in reducing the risk of severe disease, hospitalization, and death, even in the midst of the widely circulating Delta variant,” Dr. Walensky said in a CDC news release.
She also signed off on the panel’s suggestion that individuals can mix or match the booster from any one of the three available COVID-19 vaccines.
The Advisory Committee on Immunization Practices (ACIP) recommended in a late afternoon 15-0 vote that everyone over age 18 who are at least 2 months past their Johnson & Johnson vaccine should get a booster, an endorsement that affects an estimated 13 million Americans.
Those eligible for a booster at least 6 months after their last Moderna shot are the same groups who can get a Pfizer booster.
They are:
- Anyone over age 65.
- Those over age 18 with an underlying health condition that puts them at risk of severe COVID-19.
- Those over age 18 who may be at higher risk of a COVID-19 infection because they live or work in a risky setting.
These recommendations are in line with the Food and Drug Administration’s Oct. 20 authorization of the boosters, along with the ability to mix-and-match vaccines.
There are an estimated 47 million Pfizer recipients and 39 million people vaccinated with Moderna who are now eligible for a booster dose, according to data presented by the CDC.
Questions, concerns
Before voting, some committee members expressed discomfort in broadly recommending boosters, stressing that there is very little evidence supporting the need for boosters in people younger than age 50.
“I can’t say that I am comfortable that anybody under 50 – an otherwise healthy individual – needs a booster vaccine at this time with either Moderna or Pfizer,” said ACIP member Sarah Long, MD, professor of pediatrics at Drexel University in Philadelphia.
She said she would try to mitigate any potential harm by having some kind of age restriction on the otherwise worried well.
“We don’t usually have the vaccines [for] the worried well. We give it because we have a need that’s worth the risk, and there’s a burden of severity of disease,” Dr. Long said.
The evidence to date shows that all the vaccines authorized for use in the U.S. continue to protect people well against severe COVID-19 outcomes, including hospitalization and death.
But breakthrough infections are on the rise, especially for people who initially received the Johnson and Johnson one-dose vaccine.
On Oct. 21, Pfizer released data from a study of more than 10,000 fully vaccinated people. Half were randomly assigned to get a booster of their Comirnaty vaccine, the other half were given a placebo.
Over the ensuing 2.5 months, there were 5 COVID-19 cases in the boosted group, and 109 in the group that got a placebo.
The data were posted in a press release and have not yet been peer reviewed, but are the first to show clinical effectiveness of boosters at preventing COVID-19 infections.
Data recently considered by the FDA and CDC for booster doses come from studies that were mostly shorter and smaller. These studies looked at biomarkers of immunity like the concentration of antibodies in a person’s blood and the percentage of study participants who saw a boost to those antibodies.
The studies demonstrated that boosters indeed restore high levels of antibodies, but unlike the newest Pfizer data they were not able to show that these antibodies prevented COVID-19.
These studies also weren’t powered to pick up on any less common safety problems that might arise after another dose of the shots.
“Real world” recommendations
In the end, however, the panel felt it was more important to be permissive in allowing boosters so that individuals and their doctors could be free to make their own decisions.
“The decision made by the FDA and the ACIP recommendations, I think, reflects the real world. The public is going to do what they feel driven to do. This at least adds a scientific review of the currently available data,” said Jay Varkey, MD, an infectious disease physician and associate professor at Emory University in Atlanta, who was not involved in the ACIP’s deliberations.
Dr. Varkey said he would recommend that anyone who is younger than 65, and who has no underlying medical conditions such as diabetes or obesity, speak with their doctor about their individual benefits and risks before getting a booster.
The CDC is planning to release a detailed suite of clinical considerations to help people weigh the risks and benefits of getting a booster.
Safety updates presented at the meeting show that serious adverse events after vaccination are extremely rare, but in some cases, they may rise above the risk for those problems generally seen in the population.
Those rare events include the disabling autoimmune condition Guillain-Barré syndrome and the platelet disorder thrombosis with thrombocytopenia (TTS), which causes blood clots along with the risk of excess bleeding because of a low platelet count.
Both can occur after the J&J vaccine. Out of 15.3 million doses of the vaccine given to date, there have been 47 cases of TTS and five deaths. These events are more common in younger women.
The mRNA vaccines, such as those from Pfizer and Moderna, can cause heart inflammation called myocarditis or pericarditis. This side effect is more common in men 18-24 years old. The reported rate of myocarditis after vaccination is 39 cases for every 1 million doses.
In voting to permit boosters, committee member Wilbur Chen, MD, professor at the University of Maryland’s Center for Vaccine Development, said he hoped boosters wouldn’t give Americans false confidence.
Dr. Chen stressed that ending the pandemic would depend on “a multilayered approach” that includes masking, social distancing, avoiding large crowds indoors, and convincing more Americans to take their first doses of the vaccines.
“We’re not just going to vaccinate ourselves out of this situation,” Dr. Chen said.
A version of this article first appeared on WebMD.com.
Editor’s note: This story was updated with the CDC director’s endorsement.
Centers for Disease Control and Prevention (CDC) Director Rochelle Walensky, MD, has signed off on an advisory panel’s earlier unanimous vote to recommend boosters for the Moderna and Johnson and Johnson COVID vaccines.
The decision now means that millions of Americans are eligible to get a booster shot for either the Pfizer, Moderna, or J&J COVID vaccines.
“The evidence shows that all three COVID-19 vaccines authorized in the United States are safe – as demonstrated by the over 400 million vaccine doses already given. And, they are all highly effective in reducing the risk of severe disease, hospitalization, and death, even in the midst of the widely circulating Delta variant,” Dr. Walensky said in a CDC news release.
She also signed off on the panel’s suggestion that individuals can mix or match the booster from any one of the three available COVID-19 vaccines.
The Advisory Committee on Immunization Practices (ACIP) recommended in a late afternoon 15-0 vote that everyone over age 18 who are at least 2 months past their Johnson & Johnson vaccine should get a booster, an endorsement that affects an estimated 13 million Americans.
Those eligible for a booster at least 6 months after their last Moderna shot are the same groups who can get a Pfizer booster.
They are:
- Anyone over age 65.
- Those over age 18 with an underlying health condition that puts them at risk of severe COVID-19.
- Those over age 18 who may be at higher risk of a COVID-19 infection because they live or work in a risky setting.
These recommendations are in line with the Food and Drug Administration’s Oct. 20 authorization of the boosters, along with the ability to mix-and-match vaccines.
There are an estimated 47 million Pfizer recipients and 39 million people vaccinated with Moderna who are now eligible for a booster dose, according to data presented by the CDC.
Questions, concerns
Before voting, some committee members expressed discomfort in broadly recommending boosters, stressing that there is very little evidence supporting the need for boosters in people younger than age 50.
“I can’t say that I am comfortable that anybody under 50 – an otherwise healthy individual – needs a booster vaccine at this time with either Moderna or Pfizer,” said ACIP member Sarah Long, MD, professor of pediatrics at Drexel University in Philadelphia.
She said she would try to mitigate any potential harm by having some kind of age restriction on the otherwise worried well.
“We don’t usually have the vaccines [for] the worried well. We give it because we have a need that’s worth the risk, and there’s a burden of severity of disease,” Dr. Long said.
The evidence to date shows that all the vaccines authorized for use in the U.S. continue to protect people well against severe COVID-19 outcomes, including hospitalization and death.
But breakthrough infections are on the rise, especially for people who initially received the Johnson and Johnson one-dose vaccine.
On Oct. 21, Pfizer released data from a study of more than 10,000 fully vaccinated people. Half were randomly assigned to get a booster of their Comirnaty vaccine, the other half were given a placebo.
Over the ensuing 2.5 months, there were 5 COVID-19 cases in the boosted group, and 109 in the group that got a placebo.
The data were posted in a press release and have not yet been peer reviewed, but are the first to show clinical effectiveness of boosters at preventing COVID-19 infections.
Data recently considered by the FDA and CDC for booster doses come from studies that were mostly shorter and smaller. These studies looked at biomarkers of immunity like the concentration of antibodies in a person’s blood and the percentage of study participants who saw a boost to those antibodies.
The studies demonstrated that boosters indeed restore high levels of antibodies, but unlike the newest Pfizer data they were not able to show that these antibodies prevented COVID-19.
These studies also weren’t powered to pick up on any less common safety problems that might arise after another dose of the shots.
“Real world” recommendations
In the end, however, the panel felt it was more important to be permissive in allowing boosters so that individuals and their doctors could be free to make their own decisions.
“The decision made by the FDA and the ACIP recommendations, I think, reflects the real world. The public is going to do what they feel driven to do. This at least adds a scientific review of the currently available data,” said Jay Varkey, MD, an infectious disease physician and associate professor at Emory University in Atlanta, who was not involved in the ACIP’s deliberations.
Dr. Varkey said he would recommend that anyone who is younger than 65, and who has no underlying medical conditions such as diabetes or obesity, speak with their doctor about their individual benefits and risks before getting a booster.
The CDC is planning to release a detailed suite of clinical considerations to help people weigh the risks and benefits of getting a booster.
Safety updates presented at the meeting show that serious adverse events after vaccination are extremely rare, but in some cases, they may rise above the risk for those problems generally seen in the population.
Those rare events include the disabling autoimmune condition Guillain-Barré syndrome and the platelet disorder thrombosis with thrombocytopenia (TTS), which causes blood clots along with the risk of excess bleeding because of a low platelet count.
Both can occur after the J&J vaccine. Out of 15.3 million doses of the vaccine given to date, there have been 47 cases of TTS and five deaths. These events are more common in younger women.
The mRNA vaccines, such as those from Pfizer and Moderna, can cause heart inflammation called myocarditis or pericarditis. This side effect is more common in men 18-24 years old. The reported rate of myocarditis after vaccination is 39 cases for every 1 million doses.
In voting to permit boosters, committee member Wilbur Chen, MD, professor at the University of Maryland’s Center for Vaccine Development, said he hoped boosters wouldn’t give Americans false confidence.
Dr. Chen stressed that ending the pandemic would depend on “a multilayered approach” that includes masking, social distancing, avoiding large crowds indoors, and convincing more Americans to take their first doses of the vaccines.
“We’re not just going to vaccinate ourselves out of this situation,” Dr. Chen said.
A version of this article first appeared on WebMD.com.
COVID-19 ICU visit restrictions add to staff stress, burnout
During the COVID-19 pandemic, visitation in intensive care units has been restricted for obvious safety reasons, but such restrictions have contributed to the already serious strains on staff, results of a survey indicate.
Among 91 residents, nurse practitioners, and physician assistants who work in ICUs in the Emory Healthcare system, in Atlanta, two-thirds agreed that visitation restrictions were necessary, but nearly three-fourths said that the restrictions had a negative effect on their job satisfaction, and slightly more than half reported experiencing symptoms of burnout, wrote Nicole Herbst, MD, and Joanne Kuntz, MD, from Emory University School of Medicine.
“Because families are not present at bedside, restrictive visitation policies have necessitated that communication with families be more intentional and planned than before the COVID-19 pandemic. Understanding the ways these restrictions impact providers and patients can help guide future interventions to improve communication with families and reduce provider burnout,” the authors wrote in a poster presentation at the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
Valid concerns, negative effects
“During the COVID pandemic, we fell back into old ways of doing things, where parents were restricted from the bedsides of patients in the intensive care unit. And I think we have shown over the last decade that family presence at the bedside significantly improves outcomes for patients and also helps clinicians caring for those patients,” commented Christopher Carroll, MD, FCCP, from Connecticut Children’s Medical Center, Hartford, in an interview.
“We had good reason to exclude visitors because we were worried about their own safety and their own health, but now 18 months into this pandemic, we know how to prevent COVID. We know now how to safely walk into the room of a patient who has COVID and walk out of it and not get infected. There’s no reason why we can’t relax these restrictions and allow families to be there with their loved ones,” continued Dr. Carroll, who was not involved in the study.
With visitation limited or banned outright, ICU staff have had to replace face-to-face discussion with more intentional, planned, and time-consuming methods, such as telephone calls and online video.
At the time of the survey, only two visitors were allowed to see patients in end-of-life situations in Emory ICUs. Exceptions to this rule were rare.
Study details
ICU staff members were asked about their communication practices, their attitudes about the effect of the restrictions on communication with families and job satisfaction, and about symptoms of burnout, using a validated single-item measure.
A total of 91 practitioners completed most of the survey questions. The results showed that more than half of all respondents (57.9%) reported spending more time communicating with families than they had the previous year.
A large majority (90.5%) also said that video communication (for example, with a tablet, personal device, or computer) was as effective or more effective than telephone communication.
In all, 64.3% of practitioners agreed that visitation restrictions were appropriate, but 71.4% said that the restrictions had a negative effect on their job satisfaction, and 51.8% reported experiencing symptoms of burnout, such as stress, low energy, exhaustion, or lack of motivation.
Casey Cable, MD, a pulmonary disease and critical care specialist at Virginia Commonwealth Medical Center, Richmond, Virginia, who was not involved in the study, did her fellowship at Emory. She told this news organization that the study findings might be skewed a bit by subjective impressions.
“I work in a level I trauma unit providing tertiary medical care, and we’re using more video to communicate with family members, more iPads,” she said. “Their finding is interesting that people felt that they were communicating more with family members, and I wonder if that’s a type of recall bias, because at the bedside, you can have a conversation, as opposed to actively talking to family members by calling them, videoing them, or whatnot, and I think that sticks in our head more, about putting in more effort. I don’t know if we are spending more time communicating with family or if that’s what we just recall.”
She agreed with the authors that visitation restrictions have a definite negative effect on job satisfaction and that they cause feelings of burnout.
“It’s tough not having families at bedside and offering them support. When visitors are not able to see how sick their family members are, it complicates discussions about end-of-life care, transitioning to comfort care, or maybe not doing everything,” she said.
No funding source for the study was reported. Dr. Herbst, Dr. Kuntz, Dr. Carroll, and Dr. Cable have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
During the COVID-19 pandemic, visitation in intensive care units has been restricted for obvious safety reasons, but such restrictions have contributed to the already serious strains on staff, results of a survey indicate.
Among 91 residents, nurse practitioners, and physician assistants who work in ICUs in the Emory Healthcare system, in Atlanta, two-thirds agreed that visitation restrictions were necessary, but nearly three-fourths said that the restrictions had a negative effect on their job satisfaction, and slightly more than half reported experiencing symptoms of burnout, wrote Nicole Herbst, MD, and Joanne Kuntz, MD, from Emory University School of Medicine.
“Because families are not present at bedside, restrictive visitation policies have necessitated that communication with families be more intentional and planned than before the COVID-19 pandemic. Understanding the ways these restrictions impact providers and patients can help guide future interventions to improve communication with families and reduce provider burnout,” the authors wrote in a poster presentation at the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
Valid concerns, negative effects
“During the COVID pandemic, we fell back into old ways of doing things, where parents were restricted from the bedsides of patients in the intensive care unit. And I think we have shown over the last decade that family presence at the bedside significantly improves outcomes for patients and also helps clinicians caring for those patients,” commented Christopher Carroll, MD, FCCP, from Connecticut Children’s Medical Center, Hartford, in an interview.
“We had good reason to exclude visitors because we were worried about their own safety and their own health, but now 18 months into this pandemic, we know how to prevent COVID. We know now how to safely walk into the room of a patient who has COVID and walk out of it and not get infected. There’s no reason why we can’t relax these restrictions and allow families to be there with their loved ones,” continued Dr. Carroll, who was not involved in the study.
With visitation limited or banned outright, ICU staff have had to replace face-to-face discussion with more intentional, planned, and time-consuming methods, such as telephone calls and online video.
At the time of the survey, only two visitors were allowed to see patients in end-of-life situations in Emory ICUs. Exceptions to this rule were rare.
Study details
ICU staff members were asked about their communication practices, their attitudes about the effect of the restrictions on communication with families and job satisfaction, and about symptoms of burnout, using a validated single-item measure.
A total of 91 practitioners completed most of the survey questions. The results showed that more than half of all respondents (57.9%) reported spending more time communicating with families than they had the previous year.
A large majority (90.5%) also said that video communication (for example, with a tablet, personal device, or computer) was as effective or more effective than telephone communication.
In all, 64.3% of practitioners agreed that visitation restrictions were appropriate, but 71.4% said that the restrictions had a negative effect on their job satisfaction, and 51.8% reported experiencing symptoms of burnout, such as stress, low energy, exhaustion, or lack of motivation.
Casey Cable, MD, a pulmonary disease and critical care specialist at Virginia Commonwealth Medical Center, Richmond, Virginia, who was not involved in the study, did her fellowship at Emory. She told this news organization that the study findings might be skewed a bit by subjective impressions.
“I work in a level I trauma unit providing tertiary medical care, and we’re using more video to communicate with family members, more iPads,” she said. “Their finding is interesting that people felt that they were communicating more with family members, and I wonder if that’s a type of recall bias, because at the bedside, you can have a conversation, as opposed to actively talking to family members by calling them, videoing them, or whatnot, and I think that sticks in our head more, about putting in more effort. I don’t know if we are spending more time communicating with family or if that’s what we just recall.”
She agreed with the authors that visitation restrictions have a definite negative effect on job satisfaction and that they cause feelings of burnout.
“It’s tough not having families at bedside and offering them support. When visitors are not able to see how sick their family members are, it complicates discussions about end-of-life care, transitioning to comfort care, or maybe not doing everything,” she said.
No funding source for the study was reported. Dr. Herbst, Dr. Kuntz, Dr. Carroll, and Dr. Cable have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
During the COVID-19 pandemic, visitation in intensive care units has been restricted for obvious safety reasons, but such restrictions have contributed to the already serious strains on staff, results of a survey indicate.
Among 91 residents, nurse practitioners, and physician assistants who work in ICUs in the Emory Healthcare system, in Atlanta, two-thirds agreed that visitation restrictions were necessary, but nearly three-fourths said that the restrictions had a negative effect on their job satisfaction, and slightly more than half reported experiencing symptoms of burnout, wrote Nicole Herbst, MD, and Joanne Kuntz, MD, from Emory University School of Medicine.
“Because families are not present at bedside, restrictive visitation policies have necessitated that communication with families be more intentional and planned than before the COVID-19 pandemic. Understanding the ways these restrictions impact providers and patients can help guide future interventions to improve communication with families and reduce provider burnout,” the authors wrote in a poster presentation at the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
Valid concerns, negative effects
“During the COVID pandemic, we fell back into old ways of doing things, where parents were restricted from the bedsides of patients in the intensive care unit. And I think we have shown over the last decade that family presence at the bedside significantly improves outcomes for patients and also helps clinicians caring for those patients,” commented Christopher Carroll, MD, FCCP, from Connecticut Children’s Medical Center, Hartford, in an interview.
“We had good reason to exclude visitors because we were worried about their own safety and their own health, but now 18 months into this pandemic, we know how to prevent COVID. We know now how to safely walk into the room of a patient who has COVID and walk out of it and not get infected. There’s no reason why we can’t relax these restrictions and allow families to be there with their loved ones,” continued Dr. Carroll, who was not involved in the study.
With visitation limited or banned outright, ICU staff have had to replace face-to-face discussion with more intentional, planned, and time-consuming methods, such as telephone calls and online video.
At the time of the survey, only two visitors were allowed to see patients in end-of-life situations in Emory ICUs. Exceptions to this rule were rare.
Study details
ICU staff members were asked about their communication practices, their attitudes about the effect of the restrictions on communication with families and job satisfaction, and about symptoms of burnout, using a validated single-item measure.
A total of 91 practitioners completed most of the survey questions. The results showed that more than half of all respondents (57.9%) reported spending more time communicating with families than they had the previous year.
A large majority (90.5%) also said that video communication (for example, with a tablet, personal device, or computer) was as effective or more effective than telephone communication.
In all, 64.3% of practitioners agreed that visitation restrictions were appropriate, but 71.4% said that the restrictions had a negative effect on their job satisfaction, and 51.8% reported experiencing symptoms of burnout, such as stress, low energy, exhaustion, or lack of motivation.
Casey Cable, MD, a pulmonary disease and critical care specialist at Virginia Commonwealth Medical Center, Richmond, Virginia, who was not involved in the study, did her fellowship at Emory. She told this news organization that the study findings might be skewed a bit by subjective impressions.
“I work in a level I trauma unit providing tertiary medical care, and we’re using more video to communicate with family members, more iPads,” she said. “Their finding is interesting that people felt that they were communicating more with family members, and I wonder if that’s a type of recall bias, because at the bedside, you can have a conversation, as opposed to actively talking to family members by calling them, videoing them, or whatnot, and I think that sticks in our head more, about putting in more effort. I don’t know if we are spending more time communicating with family or if that’s what we just recall.”
She agreed with the authors that visitation restrictions have a definite negative effect on job satisfaction and that they cause feelings of burnout.
“It’s tough not having families at bedside and offering them support. When visitors are not able to see how sick their family members are, it complicates discussions about end-of-life care, transitioning to comfort care, or maybe not doing everything,” she said.
No funding source for the study was reported. Dr. Herbst, Dr. Kuntz, Dr. Carroll, and Dr. Cable have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Sepsis multiplies in-hospital mortality risk in COPD
Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.
Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.
“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.
COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
Nationwide sample
To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.
They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.
As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.
In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).
With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).
Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
Mortality risk for many patients
A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.
“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.
“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.
It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.
No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.
Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.
“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.
COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
Nationwide sample
To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.
They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.
As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.
In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).
With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).
Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
Mortality risk for many patients
A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.
“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.
“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.
It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.
No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.
Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.
“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.
COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
Nationwide sample
To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.
They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.
As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.
In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).
With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).
Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
Mortality risk for many patients
A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.
“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.
“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.
It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.
No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Symptoms persist in patients after acute COVID-19
Background: A large proportion of Italian patients with COVID-19 presented with symptoms, most commonly cough, fever, dyspnea, myalgias, anosmia, and gastrointestinal symptoms. Information is lacking on persistent symptoms after recovery.
Study design: Retrospective observational study.
Setting: Hospital system in Rome.
Synopsis: A postacute outpatient service for individuals discharged after recovery from COVID-19 was established. All patients who met World Health Organization criteria for discontinuation of quarantine (no fever for 3 consecutive days, improved symptoms, and two negative SARS-CoV-2 tests 24 hours apart) were offered a comprehensive medical assessment. Patients were asked to retrospectively recount the presence or absence of symptoms during the acute phase of COVID-19 and whether each symptom persisted at the time of the visit.
From April 21 to May 29, 2020, 179 patients were potentially eligible; 143 ultimately were included. During hospitalization, 72.7% of participants had evidence of interstitial pneumonia. Patients were assessed a mean of 60.3 days after onset of the first COVID-19 symptom. Only 18 (12.6%) were completely free of any COVID-19–related symptoms, 32% had one or two symptoms, and 55% had three or more. Worsened quality of life was observed among 44.1% of patients.
Bottom line: 87.4% of patients who had recovered from COVID-19 reported persistence of at least one symptom, particularly fatigue and dyspnea.
Citation: Carfi A et al. Persistent symptoms in patients after acute COVID-19. JAMA. 2020;324(6):603-5.
Dr. Walker is a hospitalist at the Lexington (Ky.) VA Health Care System.
Background: A large proportion of Italian patients with COVID-19 presented with symptoms, most commonly cough, fever, dyspnea, myalgias, anosmia, and gastrointestinal symptoms. Information is lacking on persistent symptoms after recovery.
Study design: Retrospective observational study.
Setting: Hospital system in Rome.
Synopsis: A postacute outpatient service for individuals discharged after recovery from COVID-19 was established. All patients who met World Health Organization criteria for discontinuation of quarantine (no fever for 3 consecutive days, improved symptoms, and two negative SARS-CoV-2 tests 24 hours apart) were offered a comprehensive medical assessment. Patients were asked to retrospectively recount the presence or absence of symptoms during the acute phase of COVID-19 and whether each symptom persisted at the time of the visit.
From April 21 to May 29, 2020, 179 patients were potentially eligible; 143 ultimately were included. During hospitalization, 72.7% of participants had evidence of interstitial pneumonia. Patients were assessed a mean of 60.3 days after onset of the first COVID-19 symptom. Only 18 (12.6%) were completely free of any COVID-19–related symptoms, 32% had one or two symptoms, and 55% had three or more. Worsened quality of life was observed among 44.1% of patients.
Bottom line: 87.4% of patients who had recovered from COVID-19 reported persistence of at least one symptom, particularly fatigue and dyspnea.
Citation: Carfi A et al. Persistent symptoms in patients after acute COVID-19. JAMA. 2020;324(6):603-5.
Dr. Walker is a hospitalist at the Lexington (Ky.) VA Health Care System.
Background: A large proportion of Italian patients with COVID-19 presented with symptoms, most commonly cough, fever, dyspnea, myalgias, anosmia, and gastrointestinal symptoms. Information is lacking on persistent symptoms after recovery.
Study design: Retrospective observational study.
Setting: Hospital system in Rome.
Synopsis: A postacute outpatient service for individuals discharged after recovery from COVID-19 was established. All patients who met World Health Organization criteria for discontinuation of quarantine (no fever for 3 consecutive days, improved symptoms, and two negative SARS-CoV-2 tests 24 hours apart) were offered a comprehensive medical assessment. Patients were asked to retrospectively recount the presence or absence of symptoms during the acute phase of COVID-19 and whether each symptom persisted at the time of the visit.
From April 21 to May 29, 2020, 179 patients were potentially eligible; 143 ultimately were included. During hospitalization, 72.7% of participants had evidence of interstitial pneumonia. Patients were assessed a mean of 60.3 days after onset of the first COVID-19 symptom. Only 18 (12.6%) were completely free of any COVID-19–related symptoms, 32% had one or two symptoms, and 55% had three or more. Worsened quality of life was observed among 44.1% of patients.
Bottom line: 87.4% of patients who had recovered from COVID-19 reported persistence of at least one symptom, particularly fatigue and dyspnea.
Citation: Carfi A et al. Persistent symptoms in patients after acute COVID-19. JAMA. 2020;324(6):603-5.
Dr. Walker is a hospitalist at the Lexington (Ky.) VA Health Care System.
Comorbidities larger factor than race in COVID ICU deaths?
Racial/ethnic disparities in COVID-19 mortality rates may be related more to comorbidities than to demographics, suggest authors of a new study.
Researchers compared the length of stay in intensive care units in two suburban hospitals for patients with severe SARS-CoV-2 infections. Their study shows that although the incidence of comorbidities and rates of use of mechanical ventilation and death were higher among Black patients than among patients of other races, length of stay in the ICU was generally similar for patients of all races. The study was conducted by Tripti Kumar, DO, from Lankenau Medical Center, Wynnewood, Pennsylvania, and colleagues.
“Racial disparities are observed in the United States concerning COVID-19, and studies have discovered that minority populations are at ongoing risk for health inequity,” Dr. Kumar said in a narrated e-poster presented during the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
“Primary prevention initiatives should take precedence in mitigating the effect that comorbidities have on these vulnerable populations to help reduce necessity for mechanical ventilation, hospital length of stay, and overall mortality,” she said.
Higher death rates for Black patients
At the time the study was conducted, the COVID-19 death rate in the United States had topped 500,000 (as of this writing, it stands at 726,000). Of those who died, 22.4% were Black, 18.1% were Hispanic, and 3.6% were of Asian descent. The numbers of COVID-19 diagnoses and deaths were significantly higher in U.S. counties where the proportions of Black residents were higher, the authors note.
To see whether differences in COVID-19 outcomes were reflected in ICU length of stay, the researchers conducted a retrospective chart review of data on 162 patients admitted to ICUs at Paoli Hospital and Lankenau Medical Center, both in the suburban Philadelphia town of Wynnewood.
All patients were diagnosed with COVID-19 from March through June 2020.
In all, 60% of the study population were Black, 35% were White, 3% were Asian, and 2% were Hispanic. Women composed 46% of the sample.
The average length of ICU stay, which was the primary endpoint, was similar among Black patients (15.4 days), White patients (15.5 days), and Asians (16 days). The shortest average hospital stay was among Hispanic patients, at 11.3 days.
The investigators determined that among all races, the prevalence of type 2 diabetes, obesity, hypertension, and smoking was highest among Black patients.
Overall, nearly 85% of patients required mechanical ventilation. Among the patients who required it, 86% were Black, 84% were White, 66% were Hispanic, and 75% were Asian.
Overall mortality was 62%. It was higher among Black patients, at 60%, than among White patients, at 33%. The investigators did not report mortality rates for Hispanic or Asian patients.
Missing data
Demondes Haynes, MD, FCCP, professor of medicine in the Division of Pulmonary and Critical Care and associate dean for admissions at the University of Mississippi Medical Center and School of Medicine, Jackson, who was not involved in the study, told this news organization that there are some gaps in the study that make it difficult to draw strong conclusions about the findings.
“For sure, comorbidities contribute a great deal to mortality, but is there something else going on? I think this poster is incomplete in that it cannot answer that question,” he said in an interview.
He noted that the use of retrospective rather than prospective data makes it hard to account for potential confounders.
“I agree that these findings show the potential contribution of comorbidities, but to me, this is a little incomplete to make that a definitive statement,” he said.
“I can’t argue with their recommendation for primary prevention – we definitely want to do primary prevention to decrease comorbidities. Would it decrease overall mortality? It might, it sure might, for just COVID-19 I’d say no, we need more information.”
No funding source for the study was reported. Dr. Kumar and colleagues and Dr. Haynes reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Racial/ethnic disparities in COVID-19 mortality rates may be related more to comorbidities than to demographics, suggest authors of a new study.
Researchers compared the length of stay in intensive care units in two suburban hospitals for patients with severe SARS-CoV-2 infections. Their study shows that although the incidence of comorbidities and rates of use of mechanical ventilation and death were higher among Black patients than among patients of other races, length of stay in the ICU was generally similar for patients of all races. The study was conducted by Tripti Kumar, DO, from Lankenau Medical Center, Wynnewood, Pennsylvania, and colleagues.
“Racial disparities are observed in the United States concerning COVID-19, and studies have discovered that minority populations are at ongoing risk for health inequity,” Dr. Kumar said in a narrated e-poster presented during the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
“Primary prevention initiatives should take precedence in mitigating the effect that comorbidities have on these vulnerable populations to help reduce necessity for mechanical ventilation, hospital length of stay, and overall mortality,” she said.
Higher death rates for Black patients
At the time the study was conducted, the COVID-19 death rate in the United States had topped 500,000 (as of this writing, it stands at 726,000). Of those who died, 22.4% were Black, 18.1% were Hispanic, and 3.6% were of Asian descent. The numbers of COVID-19 diagnoses and deaths were significantly higher in U.S. counties where the proportions of Black residents were higher, the authors note.
To see whether differences in COVID-19 outcomes were reflected in ICU length of stay, the researchers conducted a retrospective chart review of data on 162 patients admitted to ICUs at Paoli Hospital and Lankenau Medical Center, both in the suburban Philadelphia town of Wynnewood.
All patients were diagnosed with COVID-19 from March through June 2020.
In all, 60% of the study population were Black, 35% were White, 3% were Asian, and 2% were Hispanic. Women composed 46% of the sample.
The average length of ICU stay, which was the primary endpoint, was similar among Black patients (15.4 days), White patients (15.5 days), and Asians (16 days). The shortest average hospital stay was among Hispanic patients, at 11.3 days.
The investigators determined that among all races, the prevalence of type 2 diabetes, obesity, hypertension, and smoking was highest among Black patients.
Overall, nearly 85% of patients required mechanical ventilation. Among the patients who required it, 86% were Black, 84% were White, 66% were Hispanic, and 75% were Asian.
Overall mortality was 62%. It was higher among Black patients, at 60%, than among White patients, at 33%. The investigators did not report mortality rates for Hispanic or Asian patients.
Missing data
Demondes Haynes, MD, FCCP, professor of medicine in the Division of Pulmonary and Critical Care and associate dean for admissions at the University of Mississippi Medical Center and School of Medicine, Jackson, who was not involved in the study, told this news organization that there are some gaps in the study that make it difficult to draw strong conclusions about the findings.
“For sure, comorbidities contribute a great deal to mortality, but is there something else going on? I think this poster is incomplete in that it cannot answer that question,” he said in an interview.
He noted that the use of retrospective rather than prospective data makes it hard to account for potential confounders.
“I agree that these findings show the potential contribution of comorbidities, but to me, this is a little incomplete to make that a definitive statement,” he said.
“I can’t argue with their recommendation for primary prevention – we definitely want to do primary prevention to decrease comorbidities. Would it decrease overall mortality? It might, it sure might, for just COVID-19 I’d say no, we need more information.”
No funding source for the study was reported. Dr. Kumar and colleagues and Dr. Haynes reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Racial/ethnic disparities in COVID-19 mortality rates may be related more to comorbidities than to demographics, suggest authors of a new study.
Researchers compared the length of stay in intensive care units in two suburban hospitals for patients with severe SARS-CoV-2 infections. Their study shows that although the incidence of comorbidities and rates of use of mechanical ventilation and death were higher among Black patients than among patients of other races, length of stay in the ICU was generally similar for patients of all races. The study was conducted by Tripti Kumar, DO, from Lankenau Medical Center, Wynnewood, Pennsylvania, and colleagues.
“Racial disparities are observed in the United States concerning COVID-19, and studies have discovered that minority populations are at ongoing risk for health inequity,” Dr. Kumar said in a narrated e-poster presented during the American College of Chest Physicians (CHEST) 2021 Annual Meeting.
“Primary prevention initiatives should take precedence in mitigating the effect that comorbidities have on these vulnerable populations to help reduce necessity for mechanical ventilation, hospital length of stay, and overall mortality,” she said.
Higher death rates for Black patients
At the time the study was conducted, the COVID-19 death rate in the United States had topped 500,000 (as of this writing, it stands at 726,000). Of those who died, 22.4% were Black, 18.1% were Hispanic, and 3.6% were of Asian descent. The numbers of COVID-19 diagnoses and deaths were significantly higher in U.S. counties where the proportions of Black residents were higher, the authors note.
To see whether differences in COVID-19 outcomes were reflected in ICU length of stay, the researchers conducted a retrospective chart review of data on 162 patients admitted to ICUs at Paoli Hospital and Lankenau Medical Center, both in the suburban Philadelphia town of Wynnewood.
All patients were diagnosed with COVID-19 from March through June 2020.
In all, 60% of the study population were Black, 35% were White, 3% were Asian, and 2% were Hispanic. Women composed 46% of the sample.
The average length of ICU stay, which was the primary endpoint, was similar among Black patients (15.4 days), White patients (15.5 days), and Asians (16 days). The shortest average hospital stay was among Hispanic patients, at 11.3 days.
The investigators determined that among all races, the prevalence of type 2 diabetes, obesity, hypertension, and smoking was highest among Black patients.
Overall, nearly 85% of patients required mechanical ventilation. Among the patients who required it, 86% were Black, 84% were White, 66% were Hispanic, and 75% were Asian.
Overall mortality was 62%. It was higher among Black patients, at 60%, than among White patients, at 33%. The investigators did not report mortality rates for Hispanic or Asian patients.
Missing data
Demondes Haynes, MD, FCCP, professor of medicine in the Division of Pulmonary and Critical Care and associate dean for admissions at the University of Mississippi Medical Center and School of Medicine, Jackson, who was not involved in the study, told this news organization that there are some gaps in the study that make it difficult to draw strong conclusions about the findings.
“For sure, comorbidities contribute a great deal to mortality, but is there something else going on? I think this poster is incomplete in that it cannot answer that question,” he said in an interview.
He noted that the use of retrospective rather than prospective data makes it hard to account for potential confounders.
“I agree that these findings show the potential contribution of comorbidities, but to me, this is a little incomplete to make that a definitive statement,” he said.
“I can’t argue with their recommendation for primary prevention – we definitely want to do primary prevention to decrease comorbidities. Would it decrease overall mortality? It might, it sure might, for just COVID-19 I’d say no, we need more information.”
No funding source for the study was reported. Dr. Kumar and colleagues and Dr. Haynes reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FDA authorizes boosters for Moderna, J&J, allows mix-and-match
in people who are eligible to get them.
The move to amend the Emergency Use Authorization for these vaccines gives the vaccine experts on the Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices latitude to recommend a mix-and-match strategy if they feel the science supports it.
The committee convenes Oct. 21 for a day-long meeting to make its recommendations for additional doses.
People who’ve previously received two doses of the Moderna mRNA vaccine, which is now called Spikevax, are eligible for a third dose of any COVID-19 vaccine if they are 6 months past their second dose and are:
- 65 years of age or older
- 18 to 64 years of age, but at high risk for severe COVID-19 because of an underlying health condition
- 18 to 64 years of age and at high risk for exposure to the SARS-CoV-2 virus because they live in a group setting, such as a prison or care home, or work in a risky occupation, such as healthcare
People who’ve previously received a dose of the Johnson & Johnson vaccine are eligible for a second dose of any COVID-19 vaccine if they are over the age of 18 and at least 2 months past their vaccination.
“Today’s actions demonstrate our commitment to public health in proactively fighting against the COVID-19 pandemic,” said Acting FDA Commissioner Janet Woodcock, MD, in a news release. “As the pandemic continues to impact the country, science has shown that vaccination continues to be the safest and most effective way to prevent COVID-19, including the most serious consequences of the disease, such as hospitalization and death.
“The available data suggest waning immunity in some populations who are fully vaccinated. The availability of these authorized boosters is important for continued protection against COVID-19 disease.”
A version of this article was first published on Medscape.com.
in people who are eligible to get them.
The move to amend the Emergency Use Authorization for these vaccines gives the vaccine experts on the Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices latitude to recommend a mix-and-match strategy if they feel the science supports it.
The committee convenes Oct. 21 for a day-long meeting to make its recommendations for additional doses.
People who’ve previously received two doses of the Moderna mRNA vaccine, which is now called Spikevax, are eligible for a third dose of any COVID-19 vaccine if they are 6 months past their second dose and are:
- 65 years of age or older
- 18 to 64 years of age, but at high risk for severe COVID-19 because of an underlying health condition
- 18 to 64 years of age and at high risk for exposure to the SARS-CoV-2 virus because they live in a group setting, such as a prison or care home, or work in a risky occupation, such as healthcare
People who’ve previously received a dose of the Johnson & Johnson vaccine are eligible for a second dose of any COVID-19 vaccine if they are over the age of 18 and at least 2 months past their vaccination.
“Today’s actions demonstrate our commitment to public health in proactively fighting against the COVID-19 pandemic,” said Acting FDA Commissioner Janet Woodcock, MD, in a news release. “As the pandemic continues to impact the country, science has shown that vaccination continues to be the safest and most effective way to prevent COVID-19, including the most serious consequences of the disease, such as hospitalization and death.
“The available data suggest waning immunity in some populations who are fully vaccinated. The availability of these authorized boosters is important for continued protection against COVID-19 disease.”
A version of this article was first published on Medscape.com.
in people who are eligible to get them.
The move to amend the Emergency Use Authorization for these vaccines gives the vaccine experts on the Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices latitude to recommend a mix-and-match strategy if they feel the science supports it.
The committee convenes Oct. 21 for a day-long meeting to make its recommendations for additional doses.
People who’ve previously received two doses of the Moderna mRNA vaccine, which is now called Spikevax, are eligible for a third dose of any COVID-19 vaccine if they are 6 months past their second dose and are:
- 65 years of age or older
- 18 to 64 years of age, but at high risk for severe COVID-19 because of an underlying health condition
- 18 to 64 years of age and at high risk for exposure to the SARS-CoV-2 virus because they live in a group setting, such as a prison or care home, or work in a risky occupation, such as healthcare
People who’ve previously received a dose of the Johnson & Johnson vaccine are eligible for a second dose of any COVID-19 vaccine if they are over the age of 18 and at least 2 months past their vaccination.
“Today’s actions demonstrate our commitment to public health in proactively fighting against the COVID-19 pandemic,” said Acting FDA Commissioner Janet Woodcock, MD, in a news release. “As the pandemic continues to impact the country, science has shown that vaccination continues to be the safest and most effective way to prevent COVID-19, including the most serious consequences of the disease, such as hospitalization and death.
“The available data suggest waning immunity in some populations who are fully vaccinated. The availability of these authorized boosters is important for continued protection against COVID-19 disease.”
A version of this article was first published on Medscape.com.