MDedge Neurology

No wonder we feel worse after naps

Some of us have hectic schedules that may make a nap feel more necessary. It’s common knowledge that naps shouldn’t be too long – maybe 20 minutes or so – but if you frequently take 3-hour naps and wake up thinking you’re late for school even though you’re 47 and have your PhD, this LOTME is for you.

Judith Shidlowsky/Pixabay

Studies have shown that there is a link between napping during the day and Alzheimer’s/cognitive decline, but now we’ve got a double whammy for you: Longer and more frequent napping is linked to worse cognition after a year, and in turn, those with cognitive decline and Alzheimer’s are known to nap longer and more frequently during the day.

“We now know that the pathology related to cognitive decline can cause other changes in function,” he said. “It’s really a multisystem disorder, also including difficulty sleeping, changes in movement, changes in body composition, depression symptoms, behavioral changes, etc.,” coauthor Aron Buchman, MD, said in a statement from Rush University Medical Center.

The investigators monitored 1,400 patients over the course of 14 years with wrist bracelets that recorded when a person was not active during the day and considered that a nap.

At the beginning of the study, 75% of the study subjects had no cognitive impairment, 19.5% had some cognitive impairment, and approximately 4% had Alzheimer’s. Napping during the day only increased about 11 minutes a year for those with no signs of cognitive impairment, but those who showed significantly more signs of cognitive decline doubled their nap time and those actually diagnosed with Alzheimer’s tripled theirs.

The investigators did not imply that napping causes Alzheimer’s, but they noted that people who are older and nap more than an hour a day are 40% more likely to be at risk. It is something to consider and monitor.

Sometimes, after all, a nap seems like the best idea ever, but more often than not we wake up feeling 10 times worse. Our bodies may be giving us a heads up.

Pokemon Go away depression

The summer of 2016 was a great time if you happened to be a fan of Pokemon. Which is quite a lot of people. For almost 20 years millions have enjoyed the games and animated series, but Pokemon Go brought the thrill of catching Pokemon to life in a whole new way. For the first time, you could go out into the world and pretend you were a real Pokemon trainer, and everywhere you went, there would be others like you.

Gerd Altmann/Pixabay

The ability to chase after Pikachu and Charizard in real life (well, augmented reality, but close enough) seemed to bring people a lot of joy, but seemed is never good enough for science. Can’t have anecdotes, we need data! So researchers at the London School of Economics and Political Science conducted a study into how Pokemon Go affected local Internet search rates of depression as the game was released slowly around the world.

Through analyzing Google Trend data of words like “depression,” “anxiety,” and “stress,” the researchers found that the release of Pokemon Go was significantly associated with a noticeable, though short-term, drop in depression-related Internet searches. Location-based augmented reality games may alleviate symptoms of mild depression, the researchers said, as they encourage physical activity, face-to-face socialization, and exposure to nature, though they added that simply going outside is likely not enough to combat clinical cases of severe depression.

Still, augmented reality games represent a viable target for public health investment, since they’re easy to use and inexpensive to make. That said, we’re not sure we want the FDA or CDC making a new Pokemon Go game. They’d probably end up filling the streets with Mr. Mime. And no one would leave their house for that.
 

And now a word from our sponsor

How many times has this happened to you? You need to repair a jet engine, inspect a nuclear reactor cooling system, AND perform bowel surgery, but you can’t carry around all the heavy, old-fashioned tools needed for those jobs.

Well, we’ve got one tool that can do it all! And that tool is a snake. No, it’s a robot.

Nottingham University

It’s both! It’s the COntinuum roBot for Remote Applications. COBRA is the robot that looks like a snake! A snake that’s 5 meters long but only as thick as a pencil (about 9 mm in diameter). A robot with “extraordinary manoeuvrability and responsiveness due to … a compliant-joint structure and multiple continuous sections that enable it to bend at around 90 degrees,” according to the team at the University of Nottingham (England) that developed it.

COBRA comes equipped with a stereovision camera and a miniature cutting tool to perform complex industrial repair, but other devices can be interchanged for possible medical use.

COBRA and its joystick-like controller were designed to be easy to use. Dr. Oladejo Olaleye, the ear, nose, and throat and robotic surgeon at University Hospitals of Leicester who is directing its surgical development, was able to use COBRA on a dummy after just 5 minutes of training. He called it “the future of diagnostic endoscopy and therapeutic surgery.”

Don’t be the last aircraft engineer/nuclear technician/surgeon on your block to have this ultraslender, ultramaneuverable reptilian repair robot. Get your COBRA now! Operators are standing by.

Disclaimer: Robot is still under development and not yet on sale.

Rule, (worm) Britannia!

As long as there have been people, there have been parasitic worms living in their guts. Helminth infection is a continuing and largely ignored crisis in poor, tropical nations, though worm-based diseases have been basically eliminated from wealthier countries.

English Heritage

This wasn’t always the case, however, as a study published in PLOS Neglected Tropical Diseases (now there’s a specific topic) has found. The researchers detail the glorious history of helminth infestation in the United Kingdom from the Victorian era all the way back to prehistory, scouring hundreds of skeletons found in 17 sites across the country for eggs, which can remain intact for thousands of years.

The researchers found that two eras in particular had very high rates of infection. Unsurprisingly, the late medieval era was one of them, but the other is less obvious. The Romans were famous for their hygiene, their baths, and their plumbing, but maybe they also should be famous for the abundance of worms in their bellies. That doesn’t make sense at first: Shouldn’t good hygiene lower infection? The benefits of a good sewer system, however, are lessened when the waste containing said infectious organisms is used to fertilize crops. Recycling is generally a good thing, but less so when you’re recycling parasitic worms.

Curiously, of the three sites from the industrial age, only the one in London had high levels of worm infestation. Considering how dirty and cramped 19th-century British cities were, one might expect disease to run rampant (tuberculosis certainly did), but the sites in Oxford and Birmingham were almost devoid of worms. The researchers theorized that this was because of access to clean well water. Or maybe worms just have a thing for London. [Editor’s note: It’s probably not that.]

No wonder we feel worse after naps

Some of us have hectic schedules that may make a nap feel more necessary. It’s common knowledge that naps shouldn’t be too long – maybe 20 minutes or so – but if you frequently take 3-hour naps and wake up thinking you’re late for school even though you’re 47 and have your PhD, this LOTME is for you.

Judith Shidlowsky/Pixabay

Studies have shown that there is a link between napping during the day and Alzheimer’s/cognitive decline, but now we’ve got a double whammy for you: Longer and more frequent napping is linked to worse cognition after a year, and in turn, those with cognitive decline and Alzheimer’s are known to nap longer and more frequently during the day.

“We now know that the pathology related to cognitive decline can cause other changes in function,” he said. “It’s really a multisystem disorder, also including difficulty sleeping, changes in movement, changes in body composition, depression symptoms, behavioral changes, etc.,” coauthor Aron Buchman, MD, said in a statement from Rush University Medical Center.

The investigators monitored 1,400 patients over the course of 14 years with wrist bracelets that recorded when a person was not active during the day and considered that a nap.

At the beginning of the study, 75% of the study subjects had no cognitive impairment, 19.5% had some cognitive impairment, and approximately 4% had Alzheimer’s. Napping during the day only increased about 11 minutes a year for those with no signs of cognitive impairment, but those who showed significantly more signs of cognitive decline doubled their nap time and those actually diagnosed with Alzheimer’s tripled theirs.

The investigators did not imply that napping causes Alzheimer’s, but they noted that people who are older and nap more than an hour a day are 40% more likely to be at risk. It is something to consider and monitor.

Sometimes, after all, a nap seems like the best idea ever, but more often than not we wake up feeling 10 times worse. Our bodies may be giving us a heads up.

Pokemon Go away depression

The summer of 2016 was a great time if you happened to be a fan of Pokemon. Which is quite a lot of people. For almost 20 years millions have enjoyed the games and animated series, but Pokemon Go brought the thrill of catching Pokemon to life in a whole new way. For the first time, you could go out into the world and pretend you were a real Pokemon trainer, and everywhere you went, there would be others like you.

Gerd Altmann/Pixabay

The ability to chase after Pikachu and Charizard in real life (well, augmented reality, but close enough) seemed to bring people a lot of joy, but seemed is never good enough for science. Can’t have anecdotes, we need data! So researchers at the London School of Economics and Political Science conducted a study into how Pokemon Go affected local Internet search rates of depression as the game was released slowly around the world.

Through analyzing Google Trend data of words like “depression,” “anxiety,” and “stress,” the researchers found that the release of Pokemon Go was significantly associated with a noticeable, though short-term, drop in depression-related Internet searches. Location-based augmented reality games may alleviate symptoms of mild depression, the researchers said, as they encourage physical activity, face-to-face socialization, and exposure to nature, though they added that simply going outside is likely not enough to combat clinical cases of severe depression.

Still, augmented reality games represent a viable target for public health investment, since they’re easy to use and inexpensive to make. That said, we’re not sure we want the FDA or CDC making a new Pokemon Go game. They’d probably end up filling the streets with Mr. Mime. And no one would leave their house for that.
 

And now a word from our sponsor

How many times has this happened to you? You need to repair a jet engine, inspect a nuclear reactor cooling system, AND perform bowel surgery, but you can’t carry around all the heavy, old-fashioned tools needed for those jobs.

Well, we’ve got one tool that can do it all! And that tool is a snake. No, it’s a robot.

Nottingham University

It’s both! It’s the COntinuum roBot for Remote Applications. COBRA is the robot that looks like a snake! A snake that’s 5 meters long but only as thick as a pencil (about 9 mm in diameter). A robot with “extraordinary manoeuvrability and responsiveness due to … a compliant-joint structure and multiple continuous sections that enable it to bend at around 90 degrees,” according to the team at the University of Nottingham (England) that developed it.

COBRA comes equipped with a stereovision camera and a miniature cutting tool to perform complex industrial repair, but other devices can be interchanged for possible medical use.

COBRA and its joystick-like controller were designed to be easy to use. Dr. Oladejo Olaleye, the ear, nose, and throat and robotic surgeon at University Hospitals of Leicester who is directing its surgical development, was able to use COBRA on a dummy after just 5 minutes of training. He called it “the future of diagnostic endoscopy and therapeutic surgery.”

Don’t be the last aircraft engineer/nuclear technician/surgeon on your block to have this ultraslender, ultramaneuverable reptilian repair robot. Get your COBRA now! Operators are standing by.

Disclaimer: Robot is still under development and not yet on sale.

Rule, (worm) Britannia!

As long as there have been people, there have been parasitic worms living in their guts. Helminth infection is a continuing and largely ignored crisis in poor, tropical nations, though worm-based diseases have been basically eliminated from wealthier countries.

English Heritage

This wasn’t always the case, however, as a study published in PLOS Neglected Tropical Diseases (now there’s a specific topic) has found. The researchers detail the glorious history of helminth infestation in the United Kingdom from the Victorian era all the way back to prehistory, scouring hundreds of skeletons found in 17 sites across the country for eggs, which can remain intact for thousands of years.

The researchers found that two eras in particular had very high rates of infection. Unsurprisingly, the late medieval era was one of them, but the other is less obvious. The Romans were famous for their hygiene, their baths, and their plumbing, but maybe they also should be famous for the abundance of worms in their bellies. That doesn’t make sense at first: Shouldn’t good hygiene lower infection? The benefits of a good sewer system, however, are lessened when the waste containing said infectious organisms is used to fertilize crops. Recycling is generally a good thing, but less so when you’re recycling parasitic worms.

Curiously, of the three sites from the industrial age, only the one in London had high levels of worm infestation. Considering how dirty and cramped 19th-century British cities were, one might expect disease to run rampant (tuberculosis certainly did), but the sites in Oxford and Birmingham were almost devoid of worms. The researchers theorized that this was because of access to clean well water. Or maybe worms just have a thing for London. [Editor’s note: It’s probably not that.]

No wonder we feel worse after naps

Some of us have hectic schedules that may make a nap feel more necessary. It’s common knowledge that naps shouldn’t be too long – maybe 20 minutes or so – but if you frequently take 3-hour naps and wake up thinking you’re late for school even though you’re 47 and have your PhD, this LOTME is for you.

Judith Shidlowsky/Pixabay

Studies have shown that there is a link between napping during the day and Alzheimer’s/cognitive decline, but now we’ve got a double whammy for you: Longer and more frequent napping is linked to worse cognition after a year, and in turn, those with cognitive decline and Alzheimer’s are known to nap longer and more frequently during the day.

“We now know that the pathology related to cognitive decline can cause other changes in function,” he said. “It’s really a multisystem disorder, also including difficulty sleeping, changes in movement, changes in body composition, depression symptoms, behavioral changes, etc.,” coauthor Aron Buchman, MD, said in a statement from Rush University Medical Center.

The investigators monitored 1,400 patients over the course of 14 years with wrist bracelets that recorded when a person was not active during the day and considered that a nap.

At the beginning of the study, 75% of the study subjects had no cognitive impairment, 19.5% had some cognitive impairment, and approximately 4% had Alzheimer’s. Napping during the day only increased about 11 minutes a year for those with no signs of cognitive impairment, but those who showed significantly more signs of cognitive decline doubled their nap time and those actually diagnosed with Alzheimer’s tripled theirs.

The investigators did not imply that napping causes Alzheimer’s, but they noted that people who are older and nap more than an hour a day are 40% more likely to be at risk. It is something to consider and monitor.

Sometimes, after all, a nap seems like the best idea ever, but more often than not we wake up feeling 10 times worse. Our bodies may be giving us a heads up.

Pokemon Go away depression

The summer of 2016 was a great time if you happened to be a fan of Pokemon. Which is quite a lot of people. For almost 20 years millions have enjoyed the games and animated series, but Pokemon Go brought the thrill of catching Pokemon to life in a whole new way. For the first time, you could go out into the world and pretend you were a real Pokemon trainer, and everywhere you went, there would be others like you.

Gerd Altmann/Pixabay

The ability to chase after Pikachu and Charizard in real life (well, augmented reality, but close enough) seemed to bring people a lot of joy, but seemed is never good enough for science. Can’t have anecdotes, we need data! So researchers at the London School of Economics and Political Science conducted a study into how Pokemon Go affected local Internet search rates of depression as the game was released slowly around the world.

Through analyzing Google Trend data of words like “depression,” “anxiety,” and “stress,” the researchers found that the release of Pokemon Go was significantly associated with a noticeable, though short-term, drop in depression-related Internet searches. Location-based augmented reality games may alleviate symptoms of mild depression, the researchers said, as they encourage physical activity, face-to-face socialization, and exposure to nature, though they added that simply going outside is likely not enough to combat clinical cases of severe depression.

Still, augmented reality games represent a viable target for public health investment, since they’re easy to use and inexpensive to make. That said, we’re not sure we want the FDA or CDC making a new Pokemon Go game. They’d probably end up filling the streets with Mr. Mime. And no one would leave their house for that.
 

And now a word from our sponsor

How many times has this happened to you? You need to repair a jet engine, inspect a nuclear reactor cooling system, AND perform bowel surgery, but you can’t carry around all the heavy, old-fashioned tools needed for those jobs.

Well, we’ve got one tool that can do it all! And that tool is a snake. No, it’s a robot.

Nottingham University

It’s both! It’s the COntinuum roBot for Remote Applications. COBRA is the robot that looks like a snake! A snake that’s 5 meters long but only as thick as a pencil (about 9 mm in diameter). A robot with “extraordinary manoeuvrability and responsiveness due to … a compliant-joint structure and multiple continuous sections that enable it to bend at around 90 degrees,” according to the team at the University of Nottingham (England) that developed it.

COBRA comes equipped with a stereovision camera and a miniature cutting tool to perform complex industrial repair, but other devices can be interchanged for possible medical use.

COBRA and its joystick-like controller were designed to be easy to use. Dr. Oladejo Olaleye, the ear, nose, and throat and robotic surgeon at University Hospitals of Leicester who is directing its surgical development, was able to use COBRA on a dummy after just 5 minutes of training. He called it “the future of diagnostic endoscopy and therapeutic surgery.”

Don’t be the last aircraft engineer/nuclear technician/surgeon on your block to have this ultraslender, ultramaneuverable reptilian repair robot. Get your COBRA now! Operators are standing by.

Disclaimer: Robot is still under development and not yet on sale.

Rule, (worm) Britannia!

As long as there have been people, there have been parasitic worms living in their guts. Helminth infection is a continuing and largely ignored crisis in poor, tropical nations, though worm-based diseases have been basically eliminated from wealthier countries.

English Heritage

This wasn’t always the case, however, as a study published in PLOS Neglected Tropical Diseases (now there’s a specific topic) has found. The researchers detail the glorious history of helminth infestation in the United Kingdom from the Victorian era all the way back to prehistory, scouring hundreds of skeletons found in 17 sites across the country for eggs, which can remain intact for thousands of years.

The researchers found that two eras in particular had very high rates of infection. Unsurprisingly, the late medieval era was one of them, but the other is less obvious. The Romans were famous for their hygiene, their baths, and their plumbing, but maybe they also should be famous for the abundance of worms in their bellies. That doesn’t make sense at first: Shouldn’t good hygiene lower infection? The benefits of a good sewer system, however, are lessened when the waste containing said infectious organisms is used to fertilize crops. Recycling is generally a good thing, but less so when you’re recycling parasitic worms.

Curiously, of the three sites from the industrial age, only the one in London had high levels of worm infestation. Considering how dirty and cramped 19th-century British cities were, one might expect disease to run rampant (tuberculosis certainly did), but the sites in Oxford and Birmingham were almost devoid of worms. The researchers theorized that this was because of access to clean well water. Or maybe worms just have a thing for London. [Editor’s note: It’s probably not that.]

Dr Aaron Miller, from the Icahn School of Medicine at Mount Sinai in New York, discusses updates in relapsing-remitting multiple sclerosis (RRMS) presented at the 2022 American Academy of Neurology (AAN) Annual Meeting.

Dr Miller reports on compelling outcomes linking adherence to an MS-prescribed Mediterranean diet with increased thalamic volume and an enhanced predictability of functional composite scoring.

Next, Dr Miller turns to DMTs and discusses two abstracts looking at results of ublituximab in regard to expanded disability status scale (EDSS) scores and no evidence of disease activity (NEDA) status, and a third comparing ublituximab with teriflunomide.

Finally, Dr Miller presents promising data on Bruton tyrosine kinase inhibitors tolebrutinib and evobrutinib, and the latest results of the NOVA study on the monoclonal antibody natalizumab.

--

Professor, Department of Neurology; Medical Director, Corinne Goldsmith Dickinson Center for Multiple Sclerosis, Academic Medical Center, Icahn School of Medicine at Mount Sinai, New York, NY

Aaron Miller, MD, has disclosed no relevant financial relationships.

Dr Aaron Miller, from the Icahn School of Medicine at Mount Sinai in New York, discusses updates in relapsing-remitting multiple sclerosis (RRMS) presented at the 2022 American Academy of Neurology (AAN) Annual Meeting.

Dr Miller reports on compelling outcomes linking adherence to an MS-prescribed Mediterranean diet with increased thalamic volume and an enhanced predictability of functional composite scoring.

Next, Dr Miller turns to DMTs and discusses two abstracts looking at results of ublituximab in regard to expanded disability status scale (EDSS) scores and no evidence of disease activity (NEDA) status, and a third comparing ublituximab with teriflunomide.

Finally, Dr Miller presents promising data on Bruton tyrosine kinase inhibitors tolebrutinib and evobrutinib, and the latest results of the NOVA study on the monoclonal antibody natalizumab.

--

Professor, Department of Neurology; Medical Director, Corinne Goldsmith Dickinson Center for Multiple Sclerosis, Academic Medical Center, Icahn School of Medicine at Mount Sinai, New York, NY

Aaron Miller, MD, has disclosed no relevant financial relationships.

Dr Aaron Miller, from the Icahn School of Medicine at Mount Sinai in New York, discusses updates in relapsing-remitting multiple sclerosis (RRMS) presented at the 2022 American Academy of Neurology (AAN) Annual Meeting.

Dr Miller reports on compelling outcomes linking adherence to an MS-prescribed Mediterranean diet with increased thalamic volume and an enhanced predictability of functional composite scoring.

Next, Dr Miller turns to DMTs and discusses two abstracts looking at results of ublituximab in regard to expanded disability status scale (EDSS) scores and no evidence of disease activity (NEDA) status, and a third comparing ublituximab with teriflunomide.

Finally, Dr Miller presents promising data on Bruton tyrosine kinase inhibitors tolebrutinib and evobrutinib, and the latest results of the NOVA study on the monoclonal antibody natalizumab.

--

Professor, Department of Neurology; Medical Director, Corinne Goldsmith Dickinson Center for Multiple Sclerosis, Academic Medical Center, Icahn School of Medicine at Mount Sinai, New York, NY

Aaron Miller, MD, has disclosed no relevant financial relationships.

The percentage of Americans who have been infected with COVID-19 jumped from 34% in December 2021 to 58% in February 2022, a new study from the Centers for Disease Control and Prevention reveals.

This is the first time the seroprevalence of prior infection is more than 50% in the American population.

“I definitely expected that we were going to see an increase continue ... but I didn’t expect it to increase quite this much. But we follow the data ... and this is what the evidence is showing us,” lead study researcher Kristie E. N. Clarke, MD, said during a CDC media briefing April 26.

Researchers found that presence of antinucleocapsid (anti-N) antibodies from prior infection varied by age. The rate varied from as high as 75% in children and teenagers 17 years and younger to 33% in those 65 and older, for example.  

The study showed that the anti-N antibodies were more common in age groups with the lowest vaccination numbers.

Combined with up-to-date CDC data on deaths, hospitalizations, and cases, the study provides a clearer picture of where we are now and where we might be headed in terms of the pandemic.
 

Vaccination still valuable

The fact that nearly 60% of Americans have antibodies from prior infection is not a reason to think people with a history of COVID-19 should skip vaccination, said CDC director Rochelle P. Walensky, MD.

“I can’t underscore enough that those with detectable antibodies from previous infection, we encourage them to still get vaccinated,” Dr. Walensky said.

“We do know that reinfections happen,” she said, “so that’s important in terms of thinking forward.”

The CDC continues to encourage all Americans to stay up to date with their COVID-19 vaccinations, said Dr. Clarke, colead for the CDC’s COVID-19 Epidemiology and Surveillance Taskforce Seroprevalence Team. “Having infection-induced antibodies does not necessarily mean you are protected against future infections.”

The study, published in the CDC’s Morbidity and Mortality Weekly Report (MMWR), did not evaluate antibody protection from COVID-19 vaccination.

It should also be noted that the study looked at presence or absence of anti-N antibodies, and not whether certain levels were linked to less or more protection.
 

Where are we now?

Dr. Walensky used the media briefing as an opportunity to share current COVID-19 numbers.

“Overall, we can continue to have some mixed trends. Deaths, fortunately, are continuing to trend downward with a 7-day average of about 300 per day, which represents an estimated 18% decline from the prior week,” she said.

Hospital admissions also remain low, at about 1,500 per day. “But we should note that for the second week in a row, they are slowly trending upwards,” Dr. Walensky said. There was an increase of about 9% at press time compared with the prior week.

Cases remain “comparatively low” to even where we were a month ago, at 44,000 per day,” Dr. Walensky said. “Although this too represents an increase of about 25% in the past week.”

Dr. Walensky noted that positive test numbers are not as reliable a metric as they were before the growth in use of rapid home tests. But it’s not the only measure. “We continue to believe that our PCR testing data, especially when we corroborate it with information from our other surveillance systems – like wastewater surveillance and emergency department surveillance – provide us a reliable picture of the trajectory of COVID-19 across our country.”

She recommended that people continue to consult the CDC’s COVID-19 county tracker to monitor local levels of COVID-19.

Dr. Walensky also shared recent findings from genomic sequencing that continue to show the predominance of the Omicron variant. “Essentially a hundred percent of what we’re finding now is Omicron,” she said. In terms of individual variants, the Omicron BA.1 variant is about 3% of circulating virus, the BA.2 variant is about 68%, and BA.2.12.1 makes up about 35%.

“We’re just starting to learn about the impact of BA2.121,” Dr. Walensky said. “It appears it might have a transmission advantage of about 25% over the BA2 subvariant.”

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

The percentage of Americans who have been infected with COVID-19 jumped from 34% in December 2021 to 58% in February 2022, a new study from the Centers for Disease Control and Prevention reveals.

This is the first time the seroprevalence of prior infection is more than 50% in the American population.

“I definitely expected that we were going to see an increase continue ... but I didn’t expect it to increase quite this much. But we follow the data ... and this is what the evidence is showing us,” lead study researcher Kristie E. N. Clarke, MD, said during a CDC media briefing April 26.

Researchers found that presence of antinucleocapsid (anti-N) antibodies from prior infection varied by age. The rate varied from as high as 75% in children and teenagers 17 years and younger to 33% in those 65 and older, for example.  

The study showed that the anti-N antibodies were more common in age groups with the lowest vaccination numbers.

Combined with up-to-date CDC data on deaths, hospitalizations, and cases, the study provides a clearer picture of where we are now and where we might be headed in terms of the pandemic.
 

Vaccination still valuable

The fact that nearly 60% of Americans have antibodies from prior infection is not a reason to think people with a history of COVID-19 should skip vaccination, said CDC director Rochelle P. Walensky, MD.

“I can’t underscore enough that those with detectable antibodies from previous infection, we encourage them to still get vaccinated,” Dr. Walensky said.

“We do know that reinfections happen,” she said, “so that’s important in terms of thinking forward.”

The CDC continues to encourage all Americans to stay up to date with their COVID-19 vaccinations, said Dr. Clarke, colead for the CDC’s COVID-19 Epidemiology and Surveillance Taskforce Seroprevalence Team. “Having infection-induced antibodies does not necessarily mean you are protected against future infections.”

The study, published in the CDC’s Morbidity and Mortality Weekly Report (MMWR), did not evaluate antibody protection from COVID-19 vaccination.

It should also be noted that the study looked at presence or absence of anti-N antibodies, and not whether certain levels were linked to less or more protection.
 

Where are we now?

Dr. Walensky used the media briefing as an opportunity to share current COVID-19 numbers.

“Overall, we can continue to have some mixed trends. Deaths, fortunately, are continuing to trend downward with a 7-day average of about 300 per day, which represents an estimated 18% decline from the prior week,” she said.

Hospital admissions also remain low, at about 1,500 per day. “But we should note that for the second week in a row, they are slowly trending upwards,” Dr. Walensky said. There was an increase of about 9% at press time compared with the prior week.

Cases remain “comparatively low” to even where we were a month ago, at 44,000 per day,” Dr. Walensky said. “Although this too represents an increase of about 25% in the past week.”

Dr. Walensky noted that positive test numbers are not as reliable a metric as they were before the growth in use of rapid home tests. But it’s not the only measure. “We continue to believe that our PCR testing data, especially when we corroborate it with information from our other surveillance systems – like wastewater surveillance and emergency department surveillance – provide us a reliable picture of the trajectory of COVID-19 across our country.”

She recommended that people continue to consult the CDC’s COVID-19 county tracker to monitor local levels of COVID-19.

Dr. Walensky also shared recent findings from genomic sequencing that continue to show the predominance of the Omicron variant. “Essentially a hundred percent of what we’re finding now is Omicron,” she said. In terms of individual variants, the Omicron BA.1 variant is about 3% of circulating virus, the BA.2 variant is about 68%, and BA.2.12.1 makes up about 35%.

“We’re just starting to learn about the impact of BA2.121,” Dr. Walensky said. “It appears it might have a transmission advantage of about 25% over the BA2 subvariant.”

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

The percentage of Americans who have been infected with COVID-19 jumped from 34% in December 2021 to 58% in February 2022, a new study from the Centers for Disease Control and Prevention reveals.

This is the first time the seroprevalence of prior infection is more than 50% in the American population.

“I definitely expected that we were going to see an increase continue ... but I didn’t expect it to increase quite this much. But we follow the data ... and this is what the evidence is showing us,” lead study researcher Kristie E. N. Clarke, MD, said during a CDC media briefing April 26.

Researchers found that presence of antinucleocapsid (anti-N) antibodies from prior infection varied by age. The rate varied from as high as 75% in children and teenagers 17 years and younger to 33% in those 65 and older, for example.  

The study showed that the anti-N antibodies were more common in age groups with the lowest vaccination numbers.

Combined with up-to-date CDC data on deaths, hospitalizations, and cases, the study provides a clearer picture of where we are now and where we might be headed in terms of the pandemic.
 

Vaccination still valuable

The fact that nearly 60% of Americans have antibodies from prior infection is not a reason to think people with a history of COVID-19 should skip vaccination, said CDC director Rochelle P. Walensky, MD.

“I can’t underscore enough that those with detectable antibodies from previous infection, we encourage them to still get vaccinated,” Dr. Walensky said.

“We do know that reinfections happen,” she said, “so that’s important in terms of thinking forward.”

The CDC continues to encourage all Americans to stay up to date with their COVID-19 vaccinations, said Dr. Clarke, colead for the CDC’s COVID-19 Epidemiology and Surveillance Taskforce Seroprevalence Team. “Having infection-induced antibodies does not necessarily mean you are protected against future infections.”

The study, published in the CDC’s Morbidity and Mortality Weekly Report (MMWR), did not evaluate antibody protection from COVID-19 vaccination.

It should also be noted that the study looked at presence or absence of anti-N antibodies, and not whether certain levels were linked to less or more protection.
 

Where are we now?

Dr. Walensky used the media briefing as an opportunity to share current COVID-19 numbers.

“Overall, we can continue to have some mixed trends. Deaths, fortunately, are continuing to trend downward with a 7-day average of about 300 per day, which represents an estimated 18% decline from the prior week,” she said.

Hospital admissions also remain low, at about 1,500 per day. “But we should note that for the second week in a row, they are slowly trending upwards,” Dr. Walensky said. There was an increase of about 9% at press time compared with the prior week.

Cases remain “comparatively low” to even where we were a month ago, at 44,000 per day,” Dr. Walensky said. “Although this too represents an increase of about 25% in the past week.”

Dr. Walensky noted that positive test numbers are not as reliable a metric as they were before the growth in use of rapid home tests. But it’s not the only measure. “We continue to believe that our PCR testing data, especially when we corroborate it with information from our other surveillance systems – like wastewater surveillance and emergency department surveillance – provide us a reliable picture of the trajectory of COVID-19 across our country.”

She recommended that people continue to consult the CDC’s COVID-19 county tracker to monitor local levels of COVID-19.

Dr. Walensky also shared recent findings from genomic sequencing that continue to show the predominance of the Omicron variant. “Essentially a hundred percent of what we’re finding now is Omicron,” she said. In terms of individual variants, the Omicron BA.1 variant is about 3% of circulating virus, the BA.2 variant is about 68%, and BA.2.12.1 makes up about 35%.

“We’re just starting to learn about the impact of BA2.121,” Dr. Walensky said. “It appears it might have a transmission advantage of about 25% over the BA2 subvariant.”

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

One year after hospitalization for COVID-19 only a minority of people feel fully recovered, with being female, obesity, and having had mechanical ventilation in hospital risk factors for not feeling fully recovered.

In the new U.K. study of more than 2,000 patients, presented at this year’s European Congress of Clinical Microbiology & Infectious Diseases (ECCMID 2022), and published in The Lancet Respiratory Medicine, research showed that one in four patients feel fully well again 1 year after hospitalization for COVID-19.

For their study, researchers from the University of Leicester used data from the post-hospitalization COVID-19 (PHOSP-COVID) prospective, longitudinal cohort study, which assessed adults aged 18 years and over who had been hospitalized with COVID-19 across the United Kingdom and subsequently discharged. The researchers assessed the recovery of 2,320 participants discharged from 39 U.K. hospitals between March 7, 2020, and April 18, 2021, who were assessed via patient-reported outcome measures, physical performance, and organ function at 5 months and at 1 year after hospital discharge. Blood samples were taken at the 5-month visit to be analyzed for the presence of various inflammatory proteins.

All participants were assessed at 5 months after discharge and 807 participants (33%) completed both the 5-month and 1-year visits at the time of the analysis. The study is ongoing. The 807 patients were mean age of 59 years, 36% were women, and 28% received invasive mechanical ventilation. The proportion of patients reporting full recovery was similar between 5 months (26%) and 1 year (29%).
 

Female sex and obesity major risk factors for not recovering

Being female, obese, and having had mechanical ventilation in hospital makes someone 32%, 50%, and 58%, respectively, less likely to feel fully recovered 1 year after COVID-19 hospitalization, the authors said.

“We found female sex and obesity were major risk factors for not recovering at one year,” said the researchers, led by Rachael Evans, PhD, Louise V. Wain, and Christopher E. Brightling, PhD, National Institute for Health Research, Leicester Biomedical Research Centre, University of Leicester.

The authors said fatigue, muscle pain, physically slowing down, poor sleep, and breathlessness were most common ongoing long COVID symptoms. They noted how the total number and range of ongoing symptoms at 1 year was “striking,” positively associated with the severity of long COVID, and emphasizes the “multisystem nature of long COVID.”
 

Several inflammatory mediators increased

An earlier publication from this study identified four groups or “clusters” of symptom severity at 5 months, which were confirmed by this new study at 1 year, the authors said. They reported that 20% had very severe physical and mental health impairment, 30% had severe physical and mental health impairment, 11% had moderate physical health impairment with cognitive impairment, and 39% had mild mental and physical health impairment.

They added that having obesity, reduced exercise capacity, a greater number of symptoms, and increased levels of C-reactive protein were associated with the “more severe clusters.” In both the very severe and the moderate with cognitive impairment clusters, levels of interleukin-6 (IL-6) were higher when compared with the mild cluster.

“The limited recovery from 5 months to 1 year after hospitalisation in our study across symptoms, mental health, exercise capacity, organ impairment, and quality-of-life is striking,” the researchers noted.

“In our clusters, female sex and obesity were also associated with more severe ongoing health impairments including reduced exercise performance and health-related quality of life at one year,” and suggested that this potentially highlighted a group that “might need higher intensity interventions such as supervised rehabilitation,” they added.

There are no specific therapeutics for long COVID, the researchers said, noting that “effective interventions are urgently required.” The persistent systemic inflammation identified, particularly in those in the very severe and moderate with cognitive impairment clusters, suggested that these groups “might respond to anti-inflammatory strategies,” the authors wrote.

“We found that a minority of participants felt fully recovered 1 year after hospital discharge, with minimal improvement after a 5-month assessment,” they noted.

They added that the findings suggest the need for complex interventions that target both physical and mental health impairments to alleviate symptoms, and that specific therapeutic approaches to manage posttraumatic stress disorder might also be needed. The authors pointed out how “pharmacological and non-pharmacological interventions are urgently needed,” with a “precision-medicine approach with potential treatable traits of systemic inflammation and obesity.”

They said their study highlighted the “urgent need for health-care services to support the large and rapidly increasing patient population in whom a substantial burden of symptoms exist, including reduced exercise capacity and substantially decreased health-related quality of life one year after hospital discharge.”

They warned that without effective treatments, long COVID could become a “highly prevalent new long-term condition.”

A version of this article first appeared on Medscape UK.

One year after hospitalization for COVID-19 only a minority of people feel fully recovered, with being female, obesity, and having had mechanical ventilation in hospital risk factors for not feeling fully recovered.

In the new U.K. study of more than 2,000 patients, presented at this year’s European Congress of Clinical Microbiology & Infectious Diseases (ECCMID 2022), and published in The Lancet Respiratory Medicine, research showed that one in four patients feel fully well again 1 year after hospitalization for COVID-19.

For their study, researchers from the University of Leicester used data from the post-hospitalization COVID-19 (PHOSP-COVID) prospective, longitudinal cohort study, which assessed adults aged 18 years and over who had been hospitalized with COVID-19 across the United Kingdom and subsequently discharged. The researchers assessed the recovery of 2,320 participants discharged from 39 U.K. hospitals between March 7, 2020, and April 18, 2021, who were assessed via patient-reported outcome measures, physical performance, and organ function at 5 months and at 1 year after hospital discharge. Blood samples were taken at the 5-month visit to be analyzed for the presence of various inflammatory proteins.

All participants were assessed at 5 months after discharge and 807 participants (33%) completed both the 5-month and 1-year visits at the time of the analysis. The study is ongoing. The 807 patients were mean age of 59 years, 36% were women, and 28% received invasive mechanical ventilation. The proportion of patients reporting full recovery was similar between 5 months (26%) and 1 year (29%).
 

Female sex and obesity major risk factors for not recovering

Being female, obese, and having had mechanical ventilation in hospital makes someone 32%, 50%, and 58%, respectively, less likely to feel fully recovered 1 year after COVID-19 hospitalization, the authors said.

“We found female sex and obesity were major risk factors for not recovering at one year,” said the researchers, led by Rachael Evans, PhD, Louise V. Wain, and Christopher E. Brightling, PhD, National Institute for Health Research, Leicester Biomedical Research Centre, University of Leicester.

The authors said fatigue, muscle pain, physically slowing down, poor sleep, and breathlessness were most common ongoing long COVID symptoms. They noted how the total number and range of ongoing symptoms at 1 year was “striking,” positively associated with the severity of long COVID, and emphasizes the “multisystem nature of long COVID.”
 

Several inflammatory mediators increased

An earlier publication from this study identified four groups or “clusters” of symptom severity at 5 months, which were confirmed by this new study at 1 year, the authors said. They reported that 20% had very severe physical and mental health impairment, 30% had severe physical and mental health impairment, 11% had moderate physical health impairment with cognitive impairment, and 39% had mild mental and physical health impairment.

They added that having obesity, reduced exercise capacity, a greater number of symptoms, and increased levels of C-reactive protein were associated with the “more severe clusters.” In both the very severe and the moderate with cognitive impairment clusters, levels of interleukin-6 (IL-6) were higher when compared with the mild cluster.

“The limited recovery from 5 months to 1 year after hospitalisation in our study across symptoms, mental health, exercise capacity, organ impairment, and quality-of-life is striking,” the researchers noted.

“In our clusters, female sex and obesity were also associated with more severe ongoing health impairments including reduced exercise performance and health-related quality of life at one year,” and suggested that this potentially highlighted a group that “might need higher intensity interventions such as supervised rehabilitation,” they added.

There are no specific therapeutics for long COVID, the researchers said, noting that “effective interventions are urgently required.” The persistent systemic inflammation identified, particularly in those in the very severe and moderate with cognitive impairment clusters, suggested that these groups “might respond to anti-inflammatory strategies,” the authors wrote.

“We found that a minority of participants felt fully recovered 1 year after hospital discharge, with minimal improvement after a 5-month assessment,” they noted.

They added that the findings suggest the need for complex interventions that target both physical and mental health impairments to alleviate symptoms, and that specific therapeutic approaches to manage posttraumatic stress disorder might also be needed. The authors pointed out how “pharmacological and non-pharmacological interventions are urgently needed,” with a “precision-medicine approach with potential treatable traits of systemic inflammation and obesity.”

They said their study highlighted the “urgent need for health-care services to support the large and rapidly increasing patient population in whom a substantial burden of symptoms exist, including reduced exercise capacity and substantially decreased health-related quality of life one year after hospital discharge.”

They warned that without effective treatments, long COVID could become a “highly prevalent new long-term condition.”

A version of this article first appeared on Medscape UK.

One year after hospitalization for COVID-19 only a minority of people feel fully recovered, with being female, obesity, and having had mechanical ventilation in hospital risk factors for not feeling fully recovered.

In the new U.K. study of more than 2,000 patients, presented at this year’s European Congress of Clinical Microbiology & Infectious Diseases (ECCMID 2022), and published in The Lancet Respiratory Medicine, research showed that one in four patients feel fully well again 1 year after hospitalization for COVID-19.

For their study, researchers from the University of Leicester used data from the post-hospitalization COVID-19 (PHOSP-COVID) prospective, longitudinal cohort study, which assessed adults aged 18 years and over who had been hospitalized with COVID-19 across the United Kingdom and subsequently discharged. The researchers assessed the recovery of 2,320 participants discharged from 39 U.K. hospitals between March 7, 2020, and April 18, 2021, who were assessed via patient-reported outcome measures, physical performance, and organ function at 5 months and at 1 year after hospital discharge. Blood samples were taken at the 5-month visit to be analyzed for the presence of various inflammatory proteins.

All participants were assessed at 5 months after discharge and 807 participants (33%) completed both the 5-month and 1-year visits at the time of the analysis. The study is ongoing. The 807 patients were mean age of 59 years, 36% were women, and 28% received invasive mechanical ventilation. The proportion of patients reporting full recovery was similar between 5 months (26%) and 1 year (29%).
 

Female sex and obesity major risk factors for not recovering

Being female, obese, and having had mechanical ventilation in hospital makes someone 32%, 50%, and 58%, respectively, less likely to feel fully recovered 1 year after COVID-19 hospitalization, the authors said.

“We found female sex and obesity were major risk factors for not recovering at one year,” said the researchers, led by Rachael Evans, PhD, Louise V. Wain, and Christopher E. Brightling, PhD, National Institute for Health Research, Leicester Biomedical Research Centre, University of Leicester.

The authors said fatigue, muscle pain, physically slowing down, poor sleep, and breathlessness were most common ongoing long COVID symptoms. They noted how the total number and range of ongoing symptoms at 1 year was “striking,” positively associated with the severity of long COVID, and emphasizes the “multisystem nature of long COVID.”
 

Several inflammatory mediators increased

An earlier publication from this study identified four groups or “clusters” of symptom severity at 5 months, which were confirmed by this new study at 1 year, the authors said. They reported that 20% had very severe physical and mental health impairment, 30% had severe physical and mental health impairment, 11% had moderate physical health impairment with cognitive impairment, and 39% had mild mental and physical health impairment.

They added that having obesity, reduced exercise capacity, a greater number of symptoms, and increased levels of C-reactive protein were associated with the “more severe clusters.” In both the very severe and the moderate with cognitive impairment clusters, levels of interleukin-6 (IL-6) were higher when compared with the mild cluster.

“The limited recovery from 5 months to 1 year after hospitalisation in our study across symptoms, mental health, exercise capacity, organ impairment, and quality-of-life is striking,” the researchers noted.

“In our clusters, female sex and obesity were also associated with more severe ongoing health impairments including reduced exercise performance and health-related quality of life at one year,” and suggested that this potentially highlighted a group that “might need higher intensity interventions such as supervised rehabilitation,” they added.

There are no specific therapeutics for long COVID, the researchers said, noting that “effective interventions are urgently required.” The persistent systemic inflammation identified, particularly in those in the very severe and moderate with cognitive impairment clusters, suggested that these groups “might respond to anti-inflammatory strategies,” the authors wrote.

“We found that a minority of participants felt fully recovered 1 year after hospital discharge, with minimal improvement after a 5-month assessment,” they noted.

They added that the findings suggest the need for complex interventions that target both physical and mental health impairments to alleviate symptoms, and that specific therapeutic approaches to manage posttraumatic stress disorder might also be needed. The authors pointed out how “pharmacological and non-pharmacological interventions are urgently needed,” with a “precision-medicine approach with potential treatable traits of systemic inflammation and obesity.”

They said their study highlighted the “urgent need for health-care services to support the large and rapidly increasing patient population in whom a substantial burden of symptoms exist, including reduced exercise capacity and substantially decreased health-related quality of life one year after hospital discharge.”

They warned that without effective treatments, long COVID could become a “highly prevalent new long-term condition.”

A version of this article first appeared on Medscape UK.

Stem cell therapy improves motor impairment and is safe and well tolerated in patients with traumatic brain injury (TBI), results from a phase 2 trial indicate. “We proved for the first time that we can affect outcomes in moderately to severely disabled patients with TBI using stem cells,” said study investigator Peter McAllister, MD, cofounder and medical director of the New England Center for Neurology and Headache, Stamford, Conn.

“I think the potential of regenerative medicine was always out there, but we are now getting to the point where we’re living up to that potential,” said Dr. McAllister, associate professor of neurology at Yale University, New Haven, Conn.

The findings were presented at the 2022 annual meeting of the American Academy of Neurology.
 

No effective treatment to date

TBI can lead to motor deficits and chronic disability and currently there are no effective drugs to treat these deficits.

Researchers are increasingly focused on using somatic stem cells to restore lost function. Stem cells can differentiate or proliferate into different types of cells and are thought to promote repair and regeneration of tissues or organs damaged due to illness or injury.

The study included 61 patients with TBI with an average age of 34 years (70% were male and 69% were White). The mean time from injury was 8 years and Glasgow Outcome Scale Extended (GOS-E) ranged from 3 to 6.

Forty-six participants were randomly assigned to receive the stem cell therapy and 15 a sham procedure. In the treatment group, there were three different doses of cells (2.5 x 106, 5 x 106, and 10 x 106).

The treatment involved an investigational regenerative cell medicine comprised of bone marrow-derived mesenchymal stem cells (SB623). The allogeneic cells came from a male donor.

For the 20-minute procedure, a neurosurgeon drilled a tiny hole in the skull and, guided by MRI, injected the stem cells into the area of the lesion.

Patients receiving a surgical sham procedure were brought to the operating room, anesthetized, and had a hole drilled into the head over the area of the lesion. However, the surgeon went only halfway through the skull bone.

Participants were instructed to do specific physiotherapy exercises at home every morning and afternoon for the first 6 months of the study.

The primary efficacy endpoint was change in the Fugl-Meyer Motor Scale score (FMMS). This scale is widely used for clinical assessment of motor function, including range of motion, walking, lower limb movement, and dexterity.

At 24 weeks, the change in FMMS score for SB623-treated patients (least square [LS] mean increase 8.3) compared with controls (LS increase 2.3) was significant (P = .04).

“When we looked at all the data at 6 months, the folks who got the stem cells did statistically significantly better than the group that got the sham,” and that improvement began within the first week or two, said Dr. McAllister.
 

‘A real impact’

The treatment had a real impact on people’s lives, he said. “Some who couldn’t move their arm at all were able to put a nut on a bolt or brush their teeth, and some were able to button and unbutton where they couldn’t do that before.”

One teenager who was previously completely aphasic spoke an entire sentence.

The middle dose (5 x 106) had “by far” the best outcome, said Dr. McAllister. It’s not yet known whether the improvements will be permanent, he added.

At 48 weeks, treated patients experienced improvement over controls in secondary endpoints of the Action Research Arm Test (ARAT), which assesses grasp, grip, pinch, and gross movements; Gait Velocity (walking 10 meters); and NeuroQOL, a self-report measure of ability to carry out various activities.

However, although these endpoints were all numerically better in the stem cell groups, none reached statistical significance. This is likely because of the small study size and the fact the control group improved so much, said Dr. McAllister.

The exact mechanism of stem cell therapy is unclear, but researchers believe it “establishes a milieu of growth” for cells in the brain and promotes anti-inflammatory properties, said Dr. McAllister.

By 48 weeks, all study subjects had experienced at least one adverse event, with no differences between groups and no patient withdrawing as a result of adverse events. “There was no safety signal at all related to the stem cells,” said Dr. McAllister.

A larger phase 3 study of SB623 is planned.

The treatment may be useful in other conditions. A study of stroke survivors “just barely missed statistical significance” likely for methodological reasons and an older, sicker population, but the company plans to do another study in patients who were affected by stroke, said Dr. McAllister.

In addition, there may be potential for this approach with brain hemorrhage, Parkinson’s disease, multiple sclerosis, and other brain-related disorders, he said.
 

‘Modern-day holy grail’

Reached for a comment, TBI specialist Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, said stem cell therapy is the most promising potential treatment for brain injury. “It’s the modern-day ‘holy grail.’ “

In this study, “to see a modest improvement in gait in the primary outcome is impressive,” he said.

In addition, the fact the study didn’t have any significant or severe adverse outcomes “is promising,” he added.

Studies like this “are going to help to lay the groundwork for future studies and hopefully one day result in a safe, noninvasive treatment” for Parkinson’s disease, Alzheimer’s disease, and disorders that affect the central nervous system such as spinal cord injury, Dr. Conidi said.

This therapy involves an invasive procedure requiring implantation directly into the brain, he noted. “At present, there’s no way to get stem cells to cross the blood-brain barrier.”

In addition, although motor impairment is definitely a component of TBI, it’s not as prevalent as cognitive impairment, said Dr. Conidi.

The study was supported by SanBio Co Ltd. Dr. McAllister and Dr. Conidi have disclosed no relevant financial relationships.

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

Stem cell therapy improves motor impairment and is safe and well tolerated in patients with traumatic brain injury (TBI), results from a phase 2 trial indicate. “We proved for the first time that we can affect outcomes in moderately to severely disabled patients with TBI using stem cells,” said study investigator Peter McAllister, MD, cofounder and medical director of the New England Center for Neurology and Headache, Stamford, Conn.

“I think the potential of regenerative medicine was always out there, but we are now getting to the point where we’re living up to that potential,” said Dr. McAllister, associate professor of neurology at Yale University, New Haven, Conn.

The findings were presented at the 2022 annual meeting of the American Academy of Neurology.
 

No effective treatment to date

TBI can lead to motor deficits and chronic disability and currently there are no effective drugs to treat these deficits.

Researchers are increasingly focused on using somatic stem cells to restore lost function. Stem cells can differentiate or proliferate into different types of cells and are thought to promote repair and regeneration of tissues or organs damaged due to illness or injury.

The study included 61 patients with TBI with an average age of 34 years (70% were male and 69% were White). The mean time from injury was 8 years and Glasgow Outcome Scale Extended (GOS-E) ranged from 3 to 6.

Forty-six participants were randomly assigned to receive the stem cell therapy and 15 a sham procedure. In the treatment group, there were three different doses of cells (2.5 x 106, 5 x 106, and 10 x 106).

The treatment involved an investigational regenerative cell medicine comprised of bone marrow-derived mesenchymal stem cells (SB623). The allogeneic cells came from a male donor.

For the 20-minute procedure, a neurosurgeon drilled a tiny hole in the skull and, guided by MRI, injected the stem cells into the area of the lesion.

Patients receiving a surgical sham procedure were brought to the operating room, anesthetized, and had a hole drilled into the head over the area of the lesion. However, the surgeon went only halfway through the skull bone.

Participants were instructed to do specific physiotherapy exercises at home every morning and afternoon for the first 6 months of the study.

The primary efficacy endpoint was change in the Fugl-Meyer Motor Scale score (FMMS). This scale is widely used for clinical assessment of motor function, including range of motion, walking, lower limb movement, and dexterity.

At 24 weeks, the change in FMMS score for SB623-treated patients (least square [LS] mean increase 8.3) compared with controls (LS increase 2.3) was significant (P = .04).

“When we looked at all the data at 6 months, the folks who got the stem cells did statistically significantly better than the group that got the sham,” and that improvement began within the first week or two, said Dr. McAllister.
 

‘A real impact’

The treatment had a real impact on people’s lives, he said. “Some who couldn’t move their arm at all were able to put a nut on a bolt or brush their teeth, and some were able to button and unbutton where they couldn’t do that before.”

One teenager who was previously completely aphasic spoke an entire sentence.

The middle dose (5 x 106) had “by far” the best outcome, said Dr. McAllister. It’s not yet known whether the improvements will be permanent, he added.

At 48 weeks, treated patients experienced improvement over controls in secondary endpoints of the Action Research Arm Test (ARAT), which assesses grasp, grip, pinch, and gross movements; Gait Velocity (walking 10 meters); and NeuroQOL, a self-report measure of ability to carry out various activities.

However, although these endpoints were all numerically better in the stem cell groups, none reached statistical significance. This is likely because of the small study size and the fact the control group improved so much, said Dr. McAllister.

The exact mechanism of stem cell therapy is unclear, but researchers believe it “establishes a milieu of growth” for cells in the brain and promotes anti-inflammatory properties, said Dr. McAllister.

By 48 weeks, all study subjects had experienced at least one adverse event, with no differences between groups and no patient withdrawing as a result of adverse events. “There was no safety signal at all related to the stem cells,” said Dr. McAllister.

A larger phase 3 study of SB623 is planned.

The treatment may be useful in other conditions. A study of stroke survivors “just barely missed statistical significance” likely for methodological reasons and an older, sicker population, but the company plans to do another study in patients who were affected by stroke, said Dr. McAllister.

In addition, there may be potential for this approach with brain hemorrhage, Parkinson’s disease, multiple sclerosis, and other brain-related disorders, he said.
 

‘Modern-day holy grail’

Reached for a comment, TBI specialist Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, said stem cell therapy is the most promising potential treatment for brain injury. “It’s the modern-day ‘holy grail.’ “

In this study, “to see a modest improvement in gait in the primary outcome is impressive,” he said.

In addition, the fact the study didn’t have any significant or severe adverse outcomes “is promising,” he added.

Studies like this “are going to help to lay the groundwork for future studies and hopefully one day result in a safe, noninvasive treatment” for Parkinson’s disease, Alzheimer’s disease, and disorders that affect the central nervous system such as spinal cord injury, Dr. Conidi said.

This therapy involves an invasive procedure requiring implantation directly into the brain, he noted. “At present, there’s no way to get stem cells to cross the blood-brain barrier.”

In addition, although motor impairment is definitely a component of TBI, it’s not as prevalent as cognitive impairment, said Dr. Conidi.

The study was supported by SanBio Co Ltd. Dr. McAllister and Dr. Conidi have disclosed no relevant financial relationships.

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

Stem cell therapy improves motor impairment and is safe and well tolerated in patients with traumatic brain injury (TBI), results from a phase 2 trial indicate. “We proved for the first time that we can affect outcomes in moderately to severely disabled patients with TBI using stem cells,” said study investigator Peter McAllister, MD, cofounder and medical director of the New England Center for Neurology and Headache, Stamford, Conn.

“I think the potential of regenerative medicine was always out there, but we are now getting to the point where we’re living up to that potential,” said Dr. McAllister, associate professor of neurology at Yale University, New Haven, Conn.

The findings were presented at the 2022 annual meeting of the American Academy of Neurology.
 

No effective treatment to date

TBI can lead to motor deficits and chronic disability and currently there are no effective drugs to treat these deficits.

Researchers are increasingly focused on using somatic stem cells to restore lost function. Stem cells can differentiate or proliferate into different types of cells and are thought to promote repair and regeneration of tissues or organs damaged due to illness or injury.

The study included 61 patients with TBI with an average age of 34 years (70% were male and 69% were White). The mean time from injury was 8 years and Glasgow Outcome Scale Extended (GOS-E) ranged from 3 to 6.

Forty-six participants were randomly assigned to receive the stem cell therapy and 15 a sham procedure. In the treatment group, there were three different doses of cells (2.5 x 106, 5 x 106, and 10 x 106).

The treatment involved an investigational regenerative cell medicine comprised of bone marrow-derived mesenchymal stem cells (SB623). The allogeneic cells came from a male donor.

For the 20-minute procedure, a neurosurgeon drilled a tiny hole in the skull and, guided by MRI, injected the stem cells into the area of the lesion.

Patients receiving a surgical sham procedure were brought to the operating room, anesthetized, and had a hole drilled into the head over the area of the lesion. However, the surgeon went only halfway through the skull bone.

Participants were instructed to do specific physiotherapy exercises at home every morning and afternoon for the first 6 months of the study.

The primary efficacy endpoint was change in the Fugl-Meyer Motor Scale score (FMMS). This scale is widely used for clinical assessment of motor function, including range of motion, walking, lower limb movement, and dexterity.

At 24 weeks, the change in FMMS score for SB623-treated patients (least square [LS] mean increase 8.3) compared with controls (LS increase 2.3) was significant (P = .04).

“When we looked at all the data at 6 months, the folks who got the stem cells did statistically significantly better than the group that got the sham,” and that improvement began within the first week or two, said Dr. McAllister.
 

‘A real impact’

The treatment had a real impact on people’s lives, he said. “Some who couldn’t move their arm at all were able to put a nut on a bolt or brush their teeth, and some were able to button and unbutton where they couldn’t do that before.”

One teenager who was previously completely aphasic spoke an entire sentence.

The middle dose (5 x 106) had “by far” the best outcome, said Dr. McAllister. It’s not yet known whether the improvements will be permanent, he added.

At 48 weeks, treated patients experienced improvement over controls in secondary endpoints of the Action Research Arm Test (ARAT), which assesses grasp, grip, pinch, and gross movements; Gait Velocity (walking 10 meters); and NeuroQOL, a self-report measure of ability to carry out various activities.

However, although these endpoints were all numerically better in the stem cell groups, none reached statistical significance. This is likely because of the small study size and the fact the control group improved so much, said Dr. McAllister.

The exact mechanism of stem cell therapy is unclear, but researchers believe it “establishes a milieu of growth” for cells in the brain and promotes anti-inflammatory properties, said Dr. McAllister.

By 48 weeks, all study subjects had experienced at least one adverse event, with no differences between groups and no patient withdrawing as a result of adverse events. “There was no safety signal at all related to the stem cells,” said Dr. McAllister.

A larger phase 3 study of SB623 is planned.

The treatment may be useful in other conditions. A study of stroke survivors “just barely missed statistical significance” likely for methodological reasons and an older, sicker population, but the company plans to do another study in patients who were affected by stroke, said Dr. McAllister.

In addition, there may be potential for this approach with brain hemorrhage, Parkinson’s disease, multiple sclerosis, and other brain-related disorders, he said.
 

‘Modern-day holy grail’

Reached for a comment, TBI specialist Frank Conidi, MD, director of the Florida Center for Headache and Sports Neurology, said stem cell therapy is the most promising potential treatment for brain injury. “It’s the modern-day ‘holy grail.’ “

In this study, “to see a modest improvement in gait in the primary outcome is impressive,” he said.

In addition, the fact the study didn’t have any significant or severe adverse outcomes “is promising,” he added.

Studies like this “are going to help to lay the groundwork for future studies and hopefully one day result in a safe, noninvasive treatment” for Parkinson’s disease, Alzheimer’s disease, and disorders that affect the central nervous system such as spinal cord injury, Dr. Conidi said.

This therapy involves an invasive procedure requiring implantation directly into the brain, he noted. “At present, there’s no way to get stem cells to cross the blood-brain barrier.”

In addition, although motor impairment is definitely a component of TBI, it’s not as prevalent as cognitive impairment, said Dr. Conidi.

The study was supported by SanBio Co Ltd. Dr. McAllister and Dr. Conidi have disclosed no relevant financial relationships.

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

Treatment with deep brain stimulation improved motor function and quality of life, but depression scores increased after 1 year, based on data from 20 adults.

Subthalamic nucleus deep brain stimulation (STN-DBS) has emerged as an effective treatment for Parkinson’s disease symptoms, with evidence supporting improved motor symptoms and quality of life, wrote Francesca Mameli, PsyD, of Foundation IRCCS Ca’ Granda Ospedale Maggiore Policlinico, Milan, and colleagues.

Maggiore Policlinico Hospital of Milan

However, the effect of STN-DBS on personality in Parkinson’s disease (PD) has not been well investigated they said.

In a study published in Neuromodulation, the researchers reviewed data from 12 women and 8 men with PD who underwent bilateral STN-DBS.

Depression was assessed via the Montgomery-Asberg Depressive Rating Scale (MADRS), personality characteristics were assessed via the Minnesota Multiphasic Personality Inventory–2 (MMPI-2), and motor disabilities were assessed via UPDRS-III-Motor. The motor disabilities score was obtained in medication on and medication off conditions; the off condition followed a 12-hour overnight withdrawal of dopaminergic medication. Quality of life was assessed via the Parkinson’s Disease Questionnaire–8 (PDQ-8).

After 12 months, scores on the MMPI-2 were significantly higher on the D subscale, increased from a baseline mean of 56.05 to a 12-month mean of 61.90 (P = .015).

Other MMPI-2 scales showing significant increases included the DEP scale, LSE scale, WRK scale, and TRT scale. No differences appeared between male and female patients.

No significant changes occurred from pre-DBS baseline to the 12-month follow-up in MADRS scale assessment, with mean scores of 8.18 and 9.22, respectively.

A 40% improvement in UPDRS measures of motor function occurred among patients in the “medication-off” condition, although there was no significant change following DBS in the medication-on condition, the researchers said. Among 18 patients with PDQ-8 assessments, quality of life scores were significantly higher at 12 months’ post DBS compared to baseline pre DBS (40.15 vs. 30.73, P = .011).

The researchers also examined the relationship between the total electrical energy delivered (TEED) and the occurrence of personality trait shift. In the TEED analysis, “only the energy on the right side was inversely correlated with the changes in depression,” they wrote.

“Because of the complexity of psychiatric phenomena, it would be advisable to take a cautious approach by including psychiatric evaluation by interview for a better selection of patients who score close to the pathological cutoffs in MADRS and MMPI-2,” the researchers wrote in their discussion.

The study findings were limited by several factors including the small sample size, lack of data on the prevalence and severity of apathy, the use of scales based on self-reports, and inability to control for all factors that might affect depressive traits, the researchers noted. In addition, more research is needed to explore the correlation between TEED and personality trait changes, they said.

However, the results support the value of DBS in PD, but emphasize the need to manage expectations, they emphasized. “Expectations should never be unrealistic, and the caring team should ensure not only that patients fully understand the risks and potential benefits of the DBS but also that it will not stop the neurodegenerative progression of the disease,” they said.

The study was supported in part by the Italian Ministry of Health. The researchers had no financial conflicts to disclose.

Treatment with deep brain stimulation improved motor function and quality of life, but depression scores increased after 1 year, based on data from 20 adults.

Subthalamic nucleus deep brain stimulation (STN-DBS) has emerged as an effective treatment for Parkinson’s disease symptoms, with evidence supporting improved motor symptoms and quality of life, wrote Francesca Mameli, PsyD, of Foundation IRCCS Ca’ Granda Ospedale Maggiore Policlinico, Milan, and colleagues.

Maggiore Policlinico Hospital of Milan

However, the effect of STN-DBS on personality in Parkinson’s disease (PD) has not been well investigated they said.

In a study published in Neuromodulation, the researchers reviewed data from 12 women and 8 men with PD who underwent bilateral STN-DBS.

Depression was assessed via the Montgomery-Asberg Depressive Rating Scale (MADRS), personality characteristics were assessed via the Minnesota Multiphasic Personality Inventory–2 (MMPI-2), and motor disabilities were assessed via UPDRS-III-Motor. The motor disabilities score was obtained in medication on and medication off conditions; the off condition followed a 12-hour overnight withdrawal of dopaminergic medication. Quality of life was assessed via the Parkinson’s Disease Questionnaire–8 (PDQ-8).

After 12 months, scores on the MMPI-2 were significantly higher on the D subscale, increased from a baseline mean of 56.05 to a 12-month mean of 61.90 (P = .015).

Other MMPI-2 scales showing significant increases included the DEP scale, LSE scale, WRK scale, and TRT scale. No differences appeared between male and female patients.

No significant changes occurred from pre-DBS baseline to the 12-month follow-up in MADRS scale assessment, with mean scores of 8.18 and 9.22, respectively.

A 40% improvement in UPDRS measures of motor function occurred among patients in the “medication-off” condition, although there was no significant change following DBS in the medication-on condition, the researchers said. Among 18 patients with PDQ-8 assessments, quality of life scores were significantly higher at 12 months’ post DBS compared to baseline pre DBS (40.15 vs. 30.73, P = .011).

The researchers also examined the relationship between the total electrical energy delivered (TEED) and the occurrence of personality trait shift. In the TEED analysis, “only the energy on the right side was inversely correlated with the changes in depression,” they wrote.

“Because of the complexity of psychiatric phenomena, it would be advisable to take a cautious approach by including psychiatric evaluation by interview for a better selection of patients who score close to the pathological cutoffs in MADRS and MMPI-2,” the researchers wrote in their discussion.

The study findings were limited by several factors including the small sample size, lack of data on the prevalence and severity of apathy, the use of scales based on self-reports, and inability to control for all factors that might affect depressive traits, the researchers noted. In addition, more research is needed to explore the correlation between TEED and personality trait changes, they said.

However, the results support the value of DBS in PD, but emphasize the need to manage expectations, they emphasized. “Expectations should never be unrealistic, and the caring team should ensure not only that patients fully understand the risks and potential benefits of the DBS but also that it will not stop the neurodegenerative progression of the disease,” they said.

The study was supported in part by the Italian Ministry of Health. The researchers had no financial conflicts to disclose.

Treatment with deep brain stimulation improved motor function and quality of life, but depression scores increased after 1 year, based on data from 20 adults.

Subthalamic nucleus deep brain stimulation (STN-DBS) has emerged as an effective treatment for Parkinson’s disease symptoms, with evidence supporting improved motor symptoms and quality of life, wrote Francesca Mameli, PsyD, of Foundation IRCCS Ca’ Granda Ospedale Maggiore Policlinico, Milan, and colleagues.

Maggiore Policlinico Hospital of Milan

However, the effect of STN-DBS on personality in Parkinson’s disease (PD) has not been well investigated they said.

In a study published in Neuromodulation, the researchers reviewed data from 12 women and 8 men with PD who underwent bilateral STN-DBS.

Depression was assessed via the Montgomery-Asberg Depressive Rating Scale (MADRS), personality characteristics were assessed via the Minnesota Multiphasic Personality Inventory–2 (MMPI-2), and motor disabilities were assessed via UPDRS-III-Motor. The motor disabilities score was obtained in medication on and medication off conditions; the off condition followed a 12-hour overnight withdrawal of dopaminergic medication. Quality of life was assessed via the Parkinson’s Disease Questionnaire–8 (PDQ-8).

After 12 months, scores on the MMPI-2 were significantly higher on the D subscale, increased from a baseline mean of 56.05 to a 12-month mean of 61.90 (P = .015).

Other MMPI-2 scales showing significant increases included the DEP scale, LSE scale, WRK scale, and TRT scale. No differences appeared between male and female patients.

No significant changes occurred from pre-DBS baseline to the 12-month follow-up in MADRS scale assessment, with mean scores of 8.18 and 9.22, respectively.

A 40% improvement in UPDRS measures of motor function occurred among patients in the “medication-off” condition, although there was no significant change following DBS in the medication-on condition, the researchers said. Among 18 patients with PDQ-8 assessments, quality of life scores were significantly higher at 12 months’ post DBS compared to baseline pre DBS (40.15 vs. 30.73, P = .011).

The researchers also examined the relationship between the total electrical energy delivered (TEED) and the occurrence of personality trait shift. In the TEED analysis, “only the energy on the right side was inversely correlated with the changes in depression,” they wrote.

“Because of the complexity of psychiatric phenomena, it would be advisable to take a cautious approach by including psychiatric evaluation by interview for a better selection of patients who score close to the pathological cutoffs in MADRS and MMPI-2,” the researchers wrote in their discussion.

The study findings were limited by several factors including the small sample size, lack of data on the prevalence and severity of apathy, the use of scales based on self-reports, and inability to control for all factors that might affect depressive traits, the researchers noted. In addition, more research is needed to explore the correlation between TEED and personality trait changes, they said.

However, the results support the value of DBS in PD, but emphasize the need to manage expectations, they emphasized. “Expectations should never be unrealistic, and the caring team should ensure not only that patients fully understand the risks and potential benefits of the DBS but also that it will not stop the neurodegenerative progression of the disease,” they said.

The study was supported in part by the Italian Ministry of Health. The researchers had no financial conflicts to disclose.

Marcus Welby, MD, was a fictitious hometown doctor featured in a TV drama with the same name that was shown on ABC from 1969 to 1976. Played by actor Robert Young, Dr. Welby treated his patients through their bouts with breast cancer, impotence, and Alzheimer’s disease.

Dr. Welby likely wouldn’t recognize the practice of medicine today, where nearly three quarters (73.9%) of physicians are employed by hospitals, health systems, or corporate entities, according to a recent report sponsored by the Physicians Advocacy Institute and prepared by consulting firm Avalere Health.

“COVID-19 drove physicians to leave private practice for employment at an even more rapid pace than we’ve seen in recent years, and these trends continued to accelerate in 2021,” Kelly Kenney, chief executive officer of Physicians Advocacy Institute, said in an announcement. “This study underscores the fact that physicians across the nation are facing severe burnout and strain. The pressures of the pandemic forced many independent physicians to make difficult decisions to sell their practices, health insurers, or other corporate entities.”

Corporate entities are defined in the report as health insurers, private equity firms, and umbrella corporate entities that own multiple physician practices.

“The pandemic has been just brutal ... for nurses and physicians who are caring for patients,” Ms. Kenney told this news organization. “Between the financial stress that the pandemic certainly had on practices, because they certainly had little revenue for a while, and then also we know that the stress that physicians have felt mentally, you can’t overstate that.”

More than half of physician practices owned by hospitals, corporate entities

The Physicians Advocacy Institute has tracked changes in physician employment consistently since 2012, said Ms. Kenney. In 2012, 25% of physicians were employed; that has jumped to nearly 74%, which means the past decade has brought a world of change to the nation’s physicians.

“These are essentially small-business people ... and they were primarily trained to care for patients,” said Ms. Kenney, referring to physicians in independent practice. Still, she understands why physicians would seek employment in the face of “the crushing kind of pressure of having to deal with 20 different payers, pay overhead, and keep the lights on [at the practice].”

According to the report, 108,700 physicians left independent practice to enter employment with hospitals or other corporate entities in the 3-year period that ended in 2021. Seventy-six percent of that shift to employed status among physicians has occurred since the start of the COVID-19 pandemic in March 2020.

From a regional perspective, the report found continued growth among employed physicians across all U.S. regions in the last half of 2020. Hospital- or corporate-owned physician practices increased between 28% and 44%, while the percentage of hospital- or corporate-employed physicians increased between 13% and 24%.

Eighty percent of physicians in the Midwest are employed by hospitals or corporations, which leads the rest of the country, per the report. That’s followed by the Northeast, the West, and the South. Overall, the number of physicians working for such entities increased in all regions.

The report revealed that physician employment by corporations such as health insurers and venture capital firms grew from 92,400 in January 2019 to 142,900 in January 2022.

Hospitals and corporate entities acquired 36,200 physician practices (representing 38% growth) between 2019 and 2021, and the majority of these moves occurred since the pandemic’s start, according to the report.

Value-based care, venture capital firms driving change

Ms. Kenney pointed to value-based care as driving much of this activity by hospitals. “We all embrace [value-based payment], because we need to get a handle on cost, and we want better quality [but] those trends tend to favor integrated systems and systems that can handle a lot of risk and populations of patients.”

Still, the moves by private equity firms and health insurers in this space is relatively new, said Ms. Kenney, who added that her organization started tracking this trend 3 years ago. She pointed to a “marked acceleration” in the trend toward employing physicians and the sale of practices in the 18 months following the pandemic’s start; nonhospital corporate entities drove that steep increase, she said.

Ms. Kenney calls for further study and “guardrails” to respond to “that force in the health care system,” referring to the acquisition of practices by entities such as private equity firms. “Are these big [health care] systems going to continue to see patients in underserved areas, rural areas, and Medicaid patients if it doesn’t make sense financially to do so?

“That’s what we’re teeing up with this research,” added Ms. Kenney. “We are providing information that starts some conversations around what we might want to think about in terms of policies to ensure that we don’t impact patients’ access to care.”

The Physicians Advocacy Institute represents more than 170,000 physicians and medical students. Avalere Health used the IQVIA OneKey database for the report. The researchers studied the 3-year period from Jan. 1, 2019, to Jan. 1, 2022.

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

Marcus Welby, MD, was a fictitious hometown doctor featured in a TV drama with the same name that was shown on ABC from 1969 to 1976. Played by actor Robert Young, Dr. Welby treated his patients through their bouts with breast cancer, impotence, and Alzheimer’s disease.

Dr. Welby likely wouldn’t recognize the practice of medicine today, where nearly three quarters (73.9%) of physicians are employed by hospitals, health systems, or corporate entities, according to a recent report sponsored by the Physicians Advocacy Institute and prepared by consulting firm Avalere Health.

“COVID-19 drove physicians to leave private practice for employment at an even more rapid pace than we’ve seen in recent years, and these trends continued to accelerate in 2021,” Kelly Kenney, chief executive officer of Physicians Advocacy Institute, said in an announcement. “This study underscores the fact that physicians across the nation are facing severe burnout and strain. The pressures of the pandemic forced many independent physicians to make difficult decisions to sell their practices, health insurers, or other corporate entities.”

Corporate entities are defined in the report as health insurers, private equity firms, and umbrella corporate entities that own multiple physician practices.

“The pandemic has been just brutal ... for nurses and physicians who are caring for patients,” Ms. Kenney told this news organization. “Between the financial stress that the pandemic certainly had on practices, because they certainly had little revenue for a while, and then also we know that the stress that physicians have felt mentally, you can’t overstate that.”

More than half of physician practices owned by hospitals, corporate entities

The Physicians Advocacy Institute has tracked changes in physician employment consistently since 2012, said Ms. Kenney. In 2012, 25% of physicians were employed; that has jumped to nearly 74%, which means the past decade has brought a world of change to the nation’s physicians.

“These are essentially small-business people ... and they were primarily trained to care for patients,” said Ms. Kenney, referring to physicians in independent practice. Still, she understands why physicians would seek employment in the face of “the crushing kind of pressure of having to deal with 20 different payers, pay overhead, and keep the lights on [at the practice].”

According to the report, 108,700 physicians left independent practice to enter employment with hospitals or other corporate entities in the 3-year period that ended in 2021. Seventy-six percent of that shift to employed status among physicians has occurred since the start of the COVID-19 pandemic in March 2020.

From a regional perspective, the report found continued growth among employed physicians across all U.S. regions in the last half of 2020. Hospital- or corporate-owned physician practices increased between 28% and 44%, while the percentage of hospital- or corporate-employed physicians increased between 13% and 24%.

Eighty percent of physicians in the Midwest are employed by hospitals or corporations, which leads the rest of the country, per the report. That’s followed by the Northeast, the West, and the South. Overall, the number of physicians working for such entities increased in all regions.

The report revealed that physician employment by corporations such as health insurers and venture capital firms grew from 92,400 in January 2019 to 142,900 in January 2022.

Hospitals and corporate entities acquired 36,200 physician practices (representing 38% growth) between 2019 and 2021, and the majority of these moves occurred since the pandemic’s start, according to the report.

Value-based care, venture capital firms driving change

Ms. Kenney pointed to value-based care as driving much of this activity by hospitals. “We all embrace [value-based payment], because we need to get a handle on cost, and we want better quality [but] those trends tend to favor integrated systems and systems that can handle a lot of risk and populations of patients.”

Still, the moves by private equity firms and health insurers in this space is relatively new, said Ms. Kenney, who added that her organization started tracking this trend 3 years ago. She pointed to a “marked acceleration” in the trend toward employing physicians and the sale of practices in the 18 months following the pandemic’s start; nonhospital corporate entities drove that steep increase, she said.

Ms. Kenney calls for further study and “guardrails” to respond to “that force in the health care system,” referring to the acquisition of practices by entities such as private equity firms. “Are these big [health care] systems going to continue to see patients in underserved areas, rural areas, and Medicaid patients if it doesn’t make sense financially to do so?

“That’s what we’re teeing up with this research,” added Ms. Kenney. “We are providing information that starts some conversations around what we might want to think about in terms of policies to ensure that we don’t impact patients’ access to care.”

The Physicians Advocacy Institute represents more than 170,000 physicians and medical students. Avalere Health used the IQVIA OneKey database for the report. The researchers studied the 3-year period from Jan. 1, 2019, to Jan. 1, 2022.

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

Marcus Welby, MD, was a fictitious hometown doctor featured in a TV drama with the same name that was shown on ABC from 1969 to 1976. Played by actor Robert Young, Dr. Welby treated his patients through their bouts with breast cancer, impotence, and Alzheimer’s disease.

Dr. Welby likely wouldn’t recognize the practice of medicine today, where nearly three quarters (73.9%) of physicians are employed by hospitals, health systems, or corporate entities, according to a recent report sponsored by the Physicians Advocacy Institute and prepared by consulting firm Avalere Health.

“COVID-19 drove physicians to leave private practice for employment at an even more rapid pace than we’ve seen in recent years, and these trends continued to accelerate in 2021,” Kelly Kenney, chief executive officer of Physicians Advocacy Institute, said in an announcement. “This study underscores the fact that physicians across the nation are facing severe burnout and strain. The pressures of the pandemic forced many independent physicians to make difficult decisions to sell their practices, health insurers, or other corporate entities.”

Corporate entities are defined in the report as health insurers, private equity firms, and umbrella corporate entities that own multiple physician practices.

“The pandemic has been just brutal ... for nurses and physicians who are caring for patients,” Ms. Kenney told this news organization. “Between the financial stress that the pandemic certainly had on practices, because they certainly had little revenue for a while, and then also we know that the stress that physicians have felt mentally, you can’t overstate that.”

More than half of physician practices owned by hospitals, corporate entities

The Physicians Advocacy Institute has tracked changes in physician employment consistently since 2012, said Ms. Kenney. In 2012, 25% of physicians were employed; that has jumped to nearly 74%, which means the past decade has brought a world of change to the nation’s physicians.

“These are essentially small-business people ... and they were primarily trained to care for patients,” said Ms. Kenney, referring to physicians in independent practice. Still, she understands why physicians would seek employment in the face of “the crushing kind of pressure of having to deal with 20 different payers, pay overhead, and keep the lights on [at the practice].”

According to the report, 108,700 physicians left independent practice to enter employment with hospitals or other corporate entities in the 3-year period that ended in 2021. Seventy-six percent of that shift to employed status among physicians has occurred since the start of the COVID-19 pandemic in March 2020.

From a regional perspective, the report found continued growth among employed physicians across all U.S. regions in the last half of 2020. Hospital- or corporate-owned physician practices increased between 28% and 44%, while the percentage of hospital- or corporate-employed physicians increased between 13% and 24%.

Eighty percent of physicians in the Midwest are employed by hospitals or corporations, which leads the rest of the country, per the report. That’s followed by the Northeast, the West, and the South. Overall, the number of physicians working for such entities increased in all regions.

The report revealed that physician employment by corporations such as health insurers and venture capital firms grew from 92,400 in January 2019 to 142,900 in January 2022.

Hospitals and corporate entities acquired 36,200 physician practices (representing 38% growth) between 2019 and 2021, and the majority of these moves occurred since the pandemic’s start, according to the report.

Value-based care, venture capital firms driving change

Ms. Kenney pointed to value-based care as driving much of this activity by hospitals. “We all embrace [value-based payment], because we need to get a handle on cost, and we want better quality [but] those trends tend to favor integrated systems and systems that can handle a lot of risk and populations of patients.”

Still, the moves by private equity firms and health insurers in this space is relatively new, said Ms. Kenney, who added that her organization started tracking this trend 3 years ago. She pointed to a “marked acceleration” in the trend toward employing physicians and the sale of practices in the 18 months following the pandemic’s start; nonhospital corporate entities drove that steep increase, she said.

Ms. Kenney calls for further study and “guardrails” to respond to “that force in the health care system,” referring to the acquisition of practices by entities such as private equity firms. “Are these big [health care] systems going to continue to see patients in underserved areas, rural areas, and Medicaid patients if it doesn’t make sense financially to do so?

“That’s what we’re teeing up with this research,” added Ms. Kenney. “We are providing information that starts some conversations around what we might want to think about in terms of policies to ensure that we don’t impact patients’ access to care.”

The Physicians Advocacy Institute represents more than 170,000 physicians and medical students. Avalere Health used the IQVIA OneKey database for the report. The researchers studied the 3-year period from Jan. 1, 2019, to Jan. 1, 2022.

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

Doctors love puzzles, they say. Especially neurologists.

The detective work on a case is part of the job’s appeal. Taking clues from the history, exam, and tests to formulate a diagnosis, then a treatment plan.

But I’m not talking about that.

As I’ve written before, I’ve tried hard to divorce myself from the news. In times where the world seems to have gone mad, I just don’t want to know what’s going on. I focus on my family, my job, and the weather forecast.

But, inevitably, I need something to do. At some point I run out of notes to type, tests to review, emails to answer, and bills to pay. I used to read the news, but now I don’t do that anymore. I even avoid my favorite satire sites, like Onion and Beaverton, because they just reflect the real news (I still read the Weekly World News, which has no relationship to reality, or pretty much anything, whatsoever).

So now, when I’m done with the day’s work, I shut down the computer (which isn’t easy after 25 years of habitual surfing) and sit down with a jigsaw puzzle. I haven’t done that since I was a resident.

It usually takes me 2-3 weeks to do one (500-1,000 pieces) in the 30 minutes or so I spend on it each evening. There’s solace in the quiet, methodical process of carefully looking for matching pieces, trying a few, the brief glee at getting a fit, and then moving to the next piece.

I know I can do this on my iPad, but it’s different with real pieces. Lifting up a piece and examining it for matching shapes and colors, sorting through the tray, wondering if I made a mistake somewhere. The cardboard doesn’t light up to let me know I got it right.

Inevitably, the mind wanders as I work on them. Sometimes back to a puzzle at the office, sometimes to my doing the same puzzle (I’ve had them for a while) at my parents’ house in my teens, sometimes to my kids away at college, or a book I once read.

But that’s the point. It’s almost a form of meditation. Focusing on each piece as my mind moves in other directions. It’s actually more relaxing than I thought, and a welcome escape from the day.

And, like other seemingly unrelated tasks (such as Leo Szilard waiting for a traffic light to change, albeit on a lesser scale), sometimes it brings me an answer I’ve been searching for. A light bulb will go on for a patient case I’ve been turning over for a few days. When that happens I grab my phone and email the thought to myself at work.

It puts my mind in neutral at the end of the day. When I finally go to bed I’m less focused on things that can keep me awake at night.

Though occasionally I do dream of puzzles.

Dr. Block has a solo neurology practice in Scottsdale, Ariz.

Doctors love puzzles, they say. Especially neurologists.

The detective work on a case is part of the job’s appeal. Taking clues from the history, exam, and tests to formulate a diagnosis, then a treatment plan.

But I’m not talking about that.

As I’ve written before, I’ve tried hard to divorce myself from the news. In times where the world seems to have gone mad, I just don’t want to know what’s going on. I focus on my family, my job, and the weather forecast.

But, inevitably, I need something to do. At some point I run out of notes to type, tests to review, emails to answer, and bills to pay. I used to read the news, but now I don’t do that anymore. I even avoid my favorite satire sites, like Onion and Beaverton, because they just reflect the real news (I still read the Weekly World News, which has no relationship to reality, or pretty much anything, whatsoever).

So now, when I’m done with the day’s work, I shut down the computer (which isn’t easy after 25 years of habitual surfing) and sit down with a jigsaw puzzle. I haven’t done that since I was a resident.

It usually takes me 2-3 weeks to do one (500-1,000 pieces) in the 30 minutes or so I spend on it each evening. There’s solace in the quiet, methodical process of carefully looking for matching pieces, trying a few, the brief glee at getting a fit, and then moving to the next piece.

I know I can do this on my iPad, but it’s different with real pieces. Lifting up a piece and examining it for matching shapes and colors, sorting through the tray, wondering if I made a mistake somewhere. The cardboard doesn’t light up to let me know I got it right.

Inevitably, the mind wanders as I work on them. Sometimes back to a puzzle at the office, sometimes to my doing the same puzzle (I’ve had them for a while) at my parents’ house in my teens, sometimes to my kids away at college, or a book I once read.

But that’s the point. It’s almost a form of meditation. Focusing on each piece as my mind moves in other directions. It’s actually more relaxing than I thought, and a welcome escape from the day.

And, like other seemingly unrelated tasks (such as Leo Szilard waiting for a traffic light to change, albeit on a lesser scale), sometimes it brings me an answer I’ve been searching for. A light bulb will go on for a patient case I’ve been turning over for a few days. When that happens I grab my phone and email the thought to myself at work.

It puts my mind in neutral at the end of the day. When I finally go to bed I’m less focused on things that can keep me awake at night.

Though occasionally I do dream of puzzles.

Dr. Block has a solo neurology practice in Scottsdale, Ariz.

Doctors love puzzles, they say. Especially neurologists.

The detective work on a case is part of the job’s appeal. Taking clues from the history, exam, and tests to formulate a diagnosis, then a treatment plan.

But I’m not talking about that.

As I’ve written before, I’ve tried hard to divorce myself from the news. In times where the world seems to have gone mad, I just don’t want to know what’s going on. I focus on my family, my job, and the weather forecast.

But, inevitably, I need something to do. At some point I run out of notes to type, tests to review, emails to answer, and bills to pay. I used to read the news, but now I don’t do that anymore. I even avoid my favorite satire sites, like Onion and Beaverton, because they just reflect the real news (I still read the Weekly World News, which has no relationship to reality, or pretty much anything, whatsoever).

So now, when I’m done with the day’s work, I shut down the computer (which isn’t easy after 25 years of habitual surfing) and sit down with a jigsaw puzzle. I haven’t done that since I was a resident.

It usually takes me 2-3 weeks to do one (500-1,000 pieces) in the 30 minutes or so I spend on it each evening. There’s solace in the quiet, methodical process of carefully looking for matching pieces, trying a few, the brief glee at getting a fit, and then moving to the next piece.

I know I can do this on my iPad, but it’s different with real pieces. Lifting up a piece and examining it for matching shapes and colors, sorting through the tray, wondering if I made a mistake somewhere. The cardboard doesn’t light up to let me know I got it right.

Inevitably, the mind wanders as I work on them. Sometimes back to a puzzle at the office, sometimes to my doing the same puzzle (I’ve had them for a while) at my parents’ house in my teens, sometimes to my kids away at college, or a book I once read.

But that’s the point. It’s almost a form of meditation. Focusing on each piece as my mind moves in other directions. It’s actually more relaxing than I thought, and a welcome escape from the day.

And, like other seemingly unrelated tasks (such as Leo Szilard waiting for a traffic light to change, albeit on a lesser scale), sometimes it brings me an answer I’ve been searching for. A light bulb will go on for a patient case I’ve been turning over for a few days. When that happens I grab my phone and email the thought to myself at work.

It puts my mind in neutral at the end of the day. When I finally go to bed I’m less focused on things that can keep me awake at night.

Though occasionally I do dream of puzzles.

Dr. Block has a solo neurology practice in Scottsdale, Ariz.

One of the largest studies to date on myocarditis after COVID-19 vaccination confirms an increased risk with both the Pfizer and Moderna vaccines in young men and shows that the risk is higher with the Moderna than with the Pfizer vaccine.

The study also suggests for the first time that in young men 16 to 24 years of age, the risk for myocarditis after vaccination with either the Pfizer or Moderna vaccine is higher than the risk for myocarditis after COVID-19 infection.

The population-based study involved data on 23.1 million residents across four Scandinavian countries – Denmark, Finland, Norway, and Sweden – 74% of whom had received two vaccine doses and 7% of whom had received one dose.

By linking data from high-quality nationwide health registers on COVID-19 vaccination, infection rates, and myocarditis diagnoses, the researchers were able to evaluate the risk for myocarditis by vaccine product, vaccination dose number, sex, and age.

The study was published online in JAMA Cardiology.

The results confirm that the risk for myocarditis after COVID-19 mRNA vaccines is highest in young men 16 to 24 years of age after the second dose.

For men in this age group who received two doses of the same vaccine, data were compatible, with between four and seven excess myocarditis events in 28 days per 100,000 individuals after the second dose of the Pfizer vaccine, and between nine and 28 per 100,000 individuals after the second dose of the Moderna vaccine.

“This is one of the largest studies on this topic to date. The first population studies were in Israel, with 5 million individuals, and looked at just the Pfizer vaccine. We have data on 23 million people from Scandinavia that include both the Pfizer and Moderna vaccines,” senior author Rickard Ljung, MD, Swedish Medical Products Agency, told this news organization.

“We show a clearly higher risk of myocarditis after the Moderna vaccine than after the Pfizer vaccine. This has been suggested before, but our data confirm definitively that the Moderna vaccine has a higher risk of myocarditis than the Pfizer vaccine,” he added.

“In the group at highest risk of myocarditis after COVID vaccination – young men aged 16 to 24 – the Pfizer vaccine shows a five times higher risk of myocarditis versus the unvaccinated cohort, while the Moderna vaccine shows a 15 times higher risk,” Dr. Ljung noted.

After seeing these data, the Swedish regulatory authority is no longer recommending use of the Moderna vaccine for people younger than 30 years, Dr. Ljung said. Similar recommendations have been made in Norway and Finland.

The researchers report that their finding of a higher risk for myocarditis after the Moderna vaccine than after the Pfizer vaccine in young men is in line with data from the Canada, France, the United Kingdom, and the United States. But they point out that, compared with previous studies, the current study had the advantage of data analyzed according to a common protocol from four different countries and that showed similar directions of associations, despite considerable differences in previous COVID-19 infection levels and lockdown policies.

Risk higher with vaccination than infection?

For what is believed to be the first time, the Scandinavian data also suggest a higher risk for myocarditis after COVID-19 vaccination with both the Pfizer and Moderna vaccines than after COVID-19 infection in young men 16 to 24 years.

Although previous studies have shown that males in this age group have the highest risk for myocarditis after vaccination, it has always been suggested that the risk after vaccination is lower than the risk after infection. The Scandinavian data suggest otherwise for this age group.

Dr. Ljung explained that the myocarditis risk after COVID infection is very hard to study.

“It is highly dependent on the testing strategy,” he said. “For example, in the first half of 2020, the only people being tested were those admitted to hospital, so studies would have included the sickest patients and would therefore likely have found a higher rate of myocarditis. But this current Scandinavian dataset only included individuals with a positive COVID test after August 2020, reflecting a broader range of people.”

The researchers found an excess rate of myocarditis of 3.26 per 100,000 individuals within 28 days of a positive COVID-19 test among all males, and 1.37 per 100,000 individuals among males 16 to 24 years of age.

“We show that the risk of myocarditis after COVID infection is lower in younger people and higher in older people, but the opposite is true after COVID vaccination, where the risk of myocarditis is higher in younger people and lower in older people,” Dr. Ljung said.

The study was not able to look at severity of myocarditis but did record length of hospital stay, which was similar in patients who developed myocarditis after vaccination and those in the unvaccinated cohort (4 to 5 days). Deaths were rare, with no deaths in people younger than 40 years.

“I think we can say that in people aged over 40, the risk of myocarditis is greater with infection than with vaccination, but in those under 40, it is not so clear. And our data suggest that for young men aged 16 to 24 years, the risk of myocarditis after COVID vaccination with either the Pfizer or Moderna vaccine is higher than after COVID infection,” Dr. Ljung commented.

Although the Swedish regulatory agency has already stopped recommending use of Moderna vaccine in those younger than 30 years on the basis of these data, Dr. Ljung was reluctant to make any recommendations regarding the use of the Pfizer vaccine in young males, saying it was up to individual public-health agencies to makes these decisions. 

But he pointed out that the current study only looked at myocarditis, and COVID infection can result in many other complications that can lead to hospitalization and death, which needs to be taken into account when assessing the risk and benefit of vaccination.

Dr. Ljung noted that the current data only applied to the first two doses of the vaccines; data after booster injections have not been included, although the researchers are looking at that now.

What to advise patients?

In an accompanying Editor’s Note, Ann Marie Navar, MD, University of Texas Southwestern Medical Center, Dallas, who is editor of JAMA Cardiology, and Robert Bonow, MD, Northwestern University Feinberg School of Medicine, Chicago, who is deputy editor of JAMA Cardiology, try to explain how these data can inform the way health care professionals communicate with their patients about vaccination.

They point out the “good news,” that older adults who are at highest risk for COVID-19 complications appear to be at extremely low risk for vaccine-associated myocarditis.

They note that for both men and women older than 40 years, the excess number of cases of myocarditis after vaccination was fewer than two in 100,000 vaccinees across all vaccines studied, and the death toll from COVID-19 in the United States as of March was more than 200 per 100,000 population.

“Given the high rates of morbidity and mortality from COVID-19 infection in older adults and the efficacy of the vaccine in preventing severe infection and death, the benefits of immunization in those older than 40 years clearly outweigh the risks,” the editors say.

But given these data in young men, they suggest that health care professionals consider recommending the Pfizer vaccine over the Moderna vaccine for certain populations, including young men and other individuals for whom concerns about myocarditis present a barrier to immunization.

The editors also point out that although the risk for myocarditis after COVID-19 immunization is real, this low risk must be considered in the context of the overall benefit of the vaccine.

“At the individual level, immunization prevents not only COVID-19-related myocarditis but also severe disease, hospitalization, long-term complications after COVID-19 infection, and death. At the population level, immunization helps to decrease community spread, decrease the chances of new variants emerging, protect people who are immunocompromised, and ensure our health care system can continue to provide for our communities,” they conclude.

Dr. Ljung reports grants from Sanofi Aventis paid to his institution outside the submitted work and personal fees from Pfizer outside the submitted work. Dr. Navar reports personal fees from Pfizer and AstraZeneca, outside the scope of this work.

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

One of the largest studies to date on myocarditis after COVID-19 vaccination confirms an increased risk with both the Pfizer and Moderna vaccines in young men and shows that the risk is higher with the Moderna than with the Pfizer vaccine.

The study also suggests for the first time that in young men 16 to 24 years of age, the risk for myocarditis after vaccination with either the Pfizer or Moderna vaccine is higher than the risk for myocarditis after COVID-19 infection.

The population-based study involved data on 23.1 million residents across four Scandinavian countries – Denmark, Finland, Norway, and Sweden – 74% of whom had received two vaccine doses and 7% of whom had received one dose.

By linking data from high-quality nationwide health registers on COVID-19 vaccination, infection rates, and myocarditis diagnoses, the researchers were able to evaluate the risk for myocarditis by vaccine product, vaccination dose number, sex, and age.

The study was published online in JAMA Cardiology.

The results confirm that the risk for myocarditis after COVID-19 mRNA vaccines is highest in young men 16 to 24 years of age after the second dose.

For men in this age group who received two doses of the same vaccine, data were compatible, with between four and seven excess myocarditis events in 28 days per 100,000 individuals after the second dose of the Pfizer vaccine, and between nine and 28 per 100,000 individuals after the second dose of the Moderna vaccine.

“This is one of the largest studies on this topic to date. The first population studies were in Israel, with 5 million individuals, and looked at just the Pfizer vaccine. We have data on 23 million people from Scandinavia that include both the Pfizer and Moderna vaccines,” senior author Rickard Ljung, MD, Swedish Medical Products Agency, told this news organization.

“We show a clearly higher risk of myocarditis after the Moderna vaccine than after the Pfizer vaccine. This has been suggested before, but our data confirm definitively that the Moderna vaccine has a higher risk of myocarditis than the Pfizer vaccine,” he added.

“In the group at highest risk of myocarditis after COVID vaccination – young men aged 16 to 24 – the Pfizer vaccine shows a five times higher risk of myocarditis versus the unvaccinated cohort, while the Moderna vaccine shows a 15 times higher risk,” Dr. Ljung noted.

After seeing these data, the Swedish regulatory authority is no longer recommending use of the Moderna vaccine for people younger than 30 years, Dr. Ljung said. Similar recommendations have been made in Norway and Finland.

The researchers report that their finding of a higher risk for myocarditis after the Moderna vaccine than after the Pfizer vaccine in young men is in line with data from the Canada, France, the United Kingdom, and the United States. But they point out that, compared with previous studies, the current study had the advantage of data analyzed according to a common protocol from four different countries and that showed similar directions of associations, despite considerable differences in previous COVID-19 infection levels and lockdown policies.

Risk higher with vaccination than infection?

For what is believed to be the first time, the Scandinavian data also suggest a higher risk for myocarditis after COVID-19 vaccination with both the Pfizer and Moderna vaccines than after COVID-19 infection in young men 16 to 24 years.

Although previous studies have shown that males in this age group have the highest risk for myocarditis after vaccination, it has always been suggested that the risk after vaccination is lower than the risk after infection. The Scandinavian data suggest otherwise for this age group.

Dr. Ljung explained that the myocarditis risk after COVID infection is very hard to study.

“It is highly dependent on the testing strategy,” he said. “For example, in the first half of 2020, the only people being tested were those admitted to hospital, so studies would have included the sickest patients and would therefore likely have found a higher rate of myocarditis. But this current Scandinavian dataset only included individuals with a positive COVID test after August 2020, reflecting a broader range of people.”

The researchers found an excess rate of myocarditis of 3.26 per 100,000 individuals within 28 days of a positive COVID-19 test among all males, and 1.37 per 100,000 individuals among males 16 to 24 years of age.

“We show that the risk of myocarditis after COVID infection is lower in younger people and higher in older people, but the opposite is true after COVID vaccination, where the risk of myocarditis is higher in younger people and lower in older people,” Dr. Ljung said.

The study was not able to look at severity of myocarditis but did record length of hospital stay, which was similar in patients who developed myocarditis after vaccination and those in the unvaccinated cohort (4 to 5 days). Deaths were rare, with no deaths in people younger than 40 years.

“I think we can say that in people aged over 40, the risk of myocarditis is greater with infection than with vaccination, but in those under 40, it is not so clear. And our data suggest that for young men aged 16 to 24 years, the risk of myocarditis after COVID vaccination with either the Pfizer or Moderna vaccine is higher than after COVID infection,” Dr. Ljung commented.

Although the Swedish regulatory agency has already stopped recommending use of Moderna vaccine in those younger than 30 years on the basis of these data, Dr. Ljung was reluctant to make any recommendations regarding the use of the Pfizer vaccine in young males, saying it was up to individual public-health agencies to makes these decisions. 

But he pointed out that the current study only looked at myocarditis, and COVID infection can result in many other complications that can lead to hospitalization and death, which needs to be taken into account when assessing the risk and benefit of vaccination.

Dr. Ljung noted that the current data only applied to the first two doses of the vaccines; data after booster injections have not been included, although the researchers are looking at that now.

What to advise patients?

In an accompanying Editor’s Note, Ann Marie Navar, MD, University of Texas Southwestern Medical Center, Dallas, who is editor of JAMA Cardiology, and Robert Bonow, MD, Northwestern University Feinberg School of Medicine, Chicago, who is deputy editor of JAMA Cardiology, try to explain how these data can inform the way health care professionals communicate with their patients about vaccination.

They point out the “good news,” that older adults who are at highest risk for COVID-19 complications appear to be at extremely low risk for vaccine-associated myocarditis.

They note that for both men and women older than 40 years, the excess number of cases of myocarditis after vaccination was fewer than two in 100,000 vaccinees across all vaccines studied, and the death toll from COVID-19 in the United States as of March was more than 200 per 100,000 population.

“Given the high rates of morbidity and mortality from COVID-19 infection in older adults and the efficacy of the vaccine in preventing severe infection and death, the benefits of immunization in those older than 40 years clearly outweigh the risks,” the editors say.

But given these data in young men, they suggest that health care professionals consider recommending the Pfizer vaccine over the Moderna vaccine for certain populations, including young men and other individuals for whom concerns about myocarditis present a barrier to immunization.

The editors also point out that although the risk for myocarditis after COVID-19 immunization is real, this low risk must be considered in the context of the overall benefit of the vaccine.

“At the individual level, immunization prevents not only COVID-19-related myocarditis but also severe disease, hospitalization, long-term complications after COVID-19 infection, and death. At the population level, immunization helps to decrease community spread, decrease the chances of new variants emerging, protect people who are immunocompromised, and ensure our health care system can continue to provide for our communities,” they conclude.

Dr. Ljung reports grants from Sanofi Aventis paid to his institution outside the submitted work and personal fees from Pfizer outside the submitted work. Dr. Navar reports personal fees from Pfizer and AstraZeneca, outside the scope of this work.

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

One of the largest studies to date on myocarditis after COVID-19 vaccination confirms an increased risk with both the Pfizer and Moderna vaccines in young men and shows that the risk is higher with the Moderna than with the Pfizer vaccine.

The study also suggests for the first time that in young men 16 to 24 years of age, the risk for myocarditis after vaccination with either the Pfizer or Moderna vaccine is higher than the risk for myocarditis after COVID-19 infection.

The population-based study involved data on 23.1 million residents across four Scandinavian countries – Denmark, Finland, Norway, and Sweden – 74% of whom had received two vaccine doses and 7% of whom had received one dose.

By linking data from high-quality nationwide health registers on COVID-19 vaccination, infection rates, and myocarditis diagnoses, the researchers were able to evaluate the risk for myocarditis by vaccine product, vaccination dose number, sex, and age.

The study was published online in JAMA Cardiology.

The results confirm that the risk for myocarditis after COVID-19 mRNA vaccines is highest in young men 16 to 24 years of age after the second dose.

For men in this age group who received two doses of the same vaccine, data were compatible, with between four and seven excess myocarditis events in 28 days per 100,000 individuals after the second dose of the Pfizer vaccine, and between nine and 28 per 100,000 individuals after the second dose of the Moderna vaccine.

“This is one of the largest studies on this topic to date. The first population studies were in Israel, with 5 million individuals, and looked at just the Pfizer vaccine. We have data on 23 million people from Scandinavia that include both the Pfizer and Moderna vaccines,” senior author Rickard Ljung, MD, Swedish Medical Products Agency, told this news organization.

“We show a clearly higher risk of myocarditis after the Moderna vaccine than after the Pfizer vaccine. This has been suggested before, but our data confirm definitively that the Moderna vaccine has a higher risk of myocarditis than the Pfizer vaccine,” he added.

“In the group at highest risk of myocarditis after COVID vaccination – young men aged 16 to 24 – the Pfizer vaccine shows a five times higher risk of myocarditis versus the unvaccinated cohort, while the Moderna vaccine shows a 15 times higher risk,” Dr. Ljung noted.

After seeing these data, the Swedish regulatory authority is no longer recommending use of the Moderna vaccine for people younger than 30 years, Dr. Ljung said. Similar recommendations have been made in Norway and Finland.

The researchers report that their finding of a higher risk for myocarditis after the Moderna vaccine than after the Pfizer vaccine in young men is in line with data from the Canada, France, the United Kingdom, and the United States. But they point out that, compared with previous studies, the current study had the advantage of data analyzed according to a common protocol from four different countries and that showed similar directions of associations, despite considerable differences in previous COVID-19 infection levels and lockdown policies.

Risk higher with vaccination than infection?

For what is believed to be the first time, the Scandinavian data also suggest a higher risk for myocarditis after COVID-19 vaccination with both the Pfizer and Moderna vaccines than after COVID-19 infection in young men 16 to 24 years.

Although previous studies have shown that males in this age group have the highest risk for myocarditis after vaccination, it has always been suggested that the risk after vaccination is lower than the risk after infection. The Scandinavian data suggest otherwise for this age group.

Dr. Ljung explained that the myocarditis risk after COVID infection is very hard to study.

“It is highly dependent on the testing strategy,” he said. “For example, in the first half of 2020, the only people being tested were those admitted to hospital, so studies would have included the sickest patients and would therefore likely have found a higher rate of myocarditis. But this current Scandinavian dataset only included individuals with a positive COVID test after August 2020, reflecting a broader range of people.”

The researchers found an excess rate of myocarditis of 3.26 per 100,000 individuals within 28 days of a positive COVID-19 test among all males, and 1.37 per 100,000 individuals among males 16 to 24 years of age.

“We show that the risk of myocarditis after COVID infection is lower in younger people and higher in older people, but the opposite is true after COVID vaccination, where the risk of myocarditis is higher in younger people and lower in older people,” Dr. Ljung said.

The study was not able to look at severity of myocarditis but did record length of hospital stay, which was similar in patients who developed myocarditis after vaccination and those in the unvaccinated cohort (4 to 5 days). Deaths were rare, with no deaths in people younger than 40 years.

“I think we can say that in people aged over 40, the risk of myocarditis is greater with infection than with vaccination, but in those under 40, it is not so clear. And our data suggest that for young men aged 16 to 24 years, the risk of myocarditis after COVID vaccination with either the Pfizer or Moderna vaccine is higher than after COVID infection,” Dr. Ljung commented.

Although the Swedish regulatory agency has already stopped recommending use of Moderna vaccine in those younger than 30 years on the basis of these data, Dr. Ljung was reluctant to make any recommendations regarding the use of the Pfizer vaccine in young males, saying it was up to individual public-health agencies to makes these decisions. 

But he pointed out that the current study only looked at myocarditis, and COVID infection can result in many other complications that can lead to hospitalization and death, which needs to be taken into account when assessing the risk and benefit of vaccination.

Dr. Ljung noted that the current data only applied to the first two doses of the vaccines; data after booster injections have not been included, although the researchers are looking at that now.

What to advise patients?

In an accompanying Editor’s Note, Ann Marie Navar, MD, University of Texas Southwestern Medical Center, Dallas, who is editor of JAMA Cardiology, and Robert Bonow, MD, Northwestern University Feinberg School of Medicine, Chicago, who is deputy editor of JAMA Cardiology, try to explain how these data can inform the way health care professionals communicate with their patients about vaccination.

They point out the “good news,” that older adults who are at highest risk for COVID-19 complications appear to be at extremely low risk for vaccine-associated myocarditis.

They note that for both men and women older than 40 years, the excess number of cases of myocarditis after vaccination was fewer than two in 100,000 vaccinees across all vaccines studied, and the death toll from COVID-19 in the United States as of March was more than 200 per 100,000 population.

“Given the high rates of morbidity and mortality from COVID-19 infection in older adults and the efficacy of the vaccine in preventing severe infection and death, the benefits of immunization in those older than 40 years clearly outweigh the risks,” the editors say.

But given these data in young men, they suggest that health care professionals consider recommending the Pfizer vaccine over the Moderna vaccine for certain populations, including young men and other individuals for whom concerns about myocarditis present a barrier to immunization.

The editors also point out that although the risk for myocarditis after COVID-19 immunization is real, this low risk must be considered in the context of the overall benefit of the vaccine.

“At the individual level, immunization prevents not only COVID-19-related myocarditis but also severe disease, hospitalization, long-term complications after COVID-19 infection, and death. At the population level, immunization helps to decrease community spread, decrease the chances of new variants emerging, protect people who are immunocompromised, and ensure our health care system can continue to provide for our communities,” they conclude.

Dr. Ljung reports grants from Sanofi Aventis paid to his institution outside the submitted work and personal fees from Pfizer outside the submitted work. Dr. Navar reports personal fees from Pfizer and AstraZeneca, outside the scope of this work.

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

Extraverts and individuals who are disciplined are less likely to experience cognitive decline later in life, whereas those with neuroticism have an increased risk for cognitive dysfunction, new research shows.

Investigators analyzed data from almost 2,000 individuals enrolled in the Rush Memory and Aging Project (MAP) – a longitudinal study of older adults living in the greater Chicago metropolitan region and northeastern Illinois – with recruitment that began in 1997 and continues through today. Participants received a personality assessment as well as annual assessments of their cognitive abilities.

Those with high scores on measures of conscientiousness were significantly less likely to progress from normal cognition to mild cognitive impairment (MCI) during the study. In fact, scoring an extra 1 standard deviation on the conscientiousness scale was associated with a 22% lower risk of transitioning from no cognitive impairment (NCI) to MCI. On the other hand, scoring an additional 1 SD on a neuroticism scale was associated with a 12% increased risk of transitioning to MCI.

Participants who scored high on extraversion, as well as those who scored high on conscientiousness or low on neuroticism, tended to maintain normal cognitive functioning longer than other participants.

“Personality traits reflect relatively enduring patterns of thinking and behaving, which may cumulatively affect engagement in healthy and unhealthy behaviors and thought patterns across the lifespan,” lead author Tomiko Yoneda, PhD, a postdoctoral researcher in the department of medical social sciences, Northwestern University, Chicago, said in an interview.

“The accumulation of lifelong experiences may then contribute to susceptibility of particular diseases or disorders, such as mild cognitive impairment, or contribute to individual differences in the ability to withstand age-related neurological changes,” she added.

The study was published online in the Journal of Personality and Social Psychology.
 

Competing risk factors

Personality traits “reflect an individual’s persistent patterns of thinking, feeling, and behaving,” Dr. Yoneda said.

“For example, conscientiousness is characterized by competence, dutifulness, and self-discipline, while neuroticism is characterized by anxiety, depressive symptoms, and emotional instability. Likewise, individuals high in extraversion tend to be enthusiastic, gregarious, talkative, and assertive,” she added.

Previous research “suggests that low conscientiousness and high neuroticism are associated with an increased risk of cognitive impairment,” she continued. However, “there is also an increased risk of death in older adulthood – in other words, these outcomes are ‘competing risk factors.’”

Dr. Yoneda said her team wanted to “examine the impact of personality traits on the simultaneous risk of transitioning to mild cognitive impairment, dementia, and death.”  

For the study, the researchers analyzed data from 1,954 participants in MAP (mean age at baseline 80 years, 73.7% female, 86.8% White), who received a personality assessment and annual assessments of their cognitive abilities.

To assess personality traits – in particular, conscientiousness, neuroticism, and extraversion – the researchers used the NEO Five Factor Inventory (NEO-FFI). They also used multistate survival modeling to examine the potential association between these traits and transitions from one cognitive status category to another (NCI, MCI, and dementia) and to death.
 

Cognitive healthspan

By the end of the study, over half of the sample (54%) had died.

Most transitions showed “relative stability in cognitive status across measurement occasions.”

• NCI to NCI (n = 7,368)
• MCI to MCI (n = 1,244)
• Dementia to dementia (n = 876)

There were 725 “backward transitions” from MCI to NCI, “which may reflect improvement or within-person variability in cognitive functioning, or learning effects,” the authors note.

There were only 114 “backward transitions” from dementia to MCI and only 12 from dementia to NCI, “suggesting that improvement in cognitive status was relatively rare, particularly once an individual progresses to dementia.”

After adjusting for demographics, depressive symptoms, and apolipoprotein (APOE) ε4 allele, the researchers found that personality traits were the most important factors in the transition from NCI to MCI.

Higher conscientiousness was associated with a decreased risk of transitioning from NCI to MCI (hazard ratio, 0.78; 95% confidence interval, 0.72-0.85). Conversely, higher neuroticism was associated with an increased risk of transitioning from NCI to MCI (HR, 1.12; 95% CI, 1.04-1.21) and a significantly decreased likelihood of transition back from MCI to NCI (HR, 0.90; 95% CI, 0.81-1.00).

Scoring ~6 points on a conscientiousness scale ranging from 0-48 (that is, 1 SD on the scale) was significantly associated with ~22% lower risk of transitioning forward from NCI to MCI, while scoring ~7 more points on a neuroticism scale (1 SD) was significantly associated with ~12% higher risk of transitioning from NCI to MCI.

Higher extraversion was associated with an increased likelihood of transitioning from MCI back to NCI (HR, 1.12; 95% CI, 1.03-1.22), and although extraversion was not associated with a longer total lifespan, participants who scored high on extraversion, as well as those who scored low on conscientiousness or low on neuroticism, maintained normal cognitive function longer than other participants.

“Our results suggest that high conscientiousness and low neuroticism may protect individuals against mild cognitive impairment,” said Dr. Yoneda.

Importantly, individuals who were either higher in conscientiousness, higher in extraversion, or lower in neuroticism had more years of “cognitive healthspan,” meaning more years without cognitive impairment,” she added.

In addition, “individuals lower in neuroticism and higher in extraversion were more likely to recover after receiving an MCI diagnosis, suggesting that these traits may be protective even after an individual starts to progress to dementia,” she said.

The authors note that the study focused on only three of the Big Five personality traits, while the other 2 – openness to experience and agreeableness – may also be associated with cognitive aging processes and mortality.

Nevertheless, given the current results, alongside extensive research in the personality field, aiming to increase conscientiousness through persistent behavioral change is one potential strategy for promoting healthy cognitive aging, Dr. Yoneda said.
 

‘Invaluable window’

In a comment, Brent Roberts, PhD, professor of psychology, University of Illinois Urbana-Champaign, said the study provides an “invaluable window into how personality affects the process of decline and either accelerates it, as in the role of neuroticism, or decelerates it, as in the role of conscientiousness.”

“I think the most fascinating finding was the fact that extraversion was related to transitioning from MCI back to NCI. These types of transitions have simply not been part of prior research, and it provides utterly unique insights and opportunities for interventions that may actually help people recover from a decline,” said Dr. Roberts, who was not involved in the research.

Claire Sexton, DPhil, Alzheimer’s Association director of scientific programs and outreach, called the paper “novel” because it investigated the transitions between normal cognition and mild impairment and between mild impairment and dementia.

Dr. Sexton, who was associated with this research team, cautioned that is it observational, “so it can illuminate associations or correlations, but not causes. As a result, we can’t say for sure what the mechanisms are behind these potential connections between personality and cognition, and more research is needed.”

The research was supported by the Alzheimer Society Research Program, Social Sciences and Humanities Research Council, and the National Institute on Aging of the National Institutes of Health. Dr. Yoneda and co-authors, Dr. Roberts, and Dr. Sexton have disclosed no relevant financial relationships.

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

Extraverts and individuals who are disciplined are less likely to experience cognitive decline later in life, whereas those with neuroticism have an increased risk for cognitive dysfunction, new research shows.

Investigators analyzed data from almost 2,000 individuals enrolled in the Rush Memory and Aging Project (MAP) – a longitudinal study of older adults living in the greater Chicago metropolitan region and northeastern Illinois – with recruitment that began in 1997 and continues through today. Participants received a personality assessment as well as annual assessments of their cognitive abilities.

Those with high scores on measures of conscientiousness were significantly less likely to progress from normal cognition to mild cognitive impairment (MCI) during the study. In fact, scoring an extra 1 standard deviation on the conscientiousness scale was associated with a 22% lower risk of transitioning from no cognitive impairment (NCI) to MCI. On the other hand, scoring an additional 1 SD on a neuroticism scale was associated with a 12% increased risk of transitioning to MCI.

Participants who scored high on extraversion, as well as those who scored high on conscientiousness or low on neuroticism, tended to maintain normal cognitive functioning longer than other participants.

“Personality traits reflect relatively enduring patterns of thinking and behaving, which may cumulatively affect engagement in healthy and unhealthy behaviors and thought patterns across the lifespan,” lead author Tomiko Yoneda, PhD, a postdoctoral researcher in the department of medical social sciences, Northwestern University, Chicago, said in an interview.

“The accumulation of lifelong experiences may then contribute to susceptibility of particular diseases or disorders, such as mild cognitive impairment, or contribute to individual differences in the ability to withstand age-related neurological changes,” she added.

The study was published online in the Journal of Personality and Social Psychology.
 

Competing risk factors

Personality traits “reflect an individual’s persistent patterns of thinking, feeling, and behaving,” Dr. Yoneda said.

“For example, conscientiousness is characterized by competence, dutifulness, and self-discipline, while neuroticism is characterized by anxiety, depressive symptoms, and emotional instability. Likewise, individuals high in extraversion tend to be enthusiastic, gregarious, talkative, and assertive,” she added.

Previous research “suggests that low conscientiousness and high neuroticism are associated with an increased risk of cognitive impairment,” she continued. However, “there is also an increased risk of death in older adulthood – in other words, these outcomes are ‘competing risk factors.’”

Dr. Yoneda said her team wanted to “examine the impact of personality traits on the simultaneous risk of transitioning to mild cognitive impairment, dementia, and death.”  

For the study, the researchers analyzed data from 1,954 participants in MAP (mean age at baseline 80 years, 73.7% female, 86.8% White), who received a personality assessment and annual assessments of their cognitive abilities.

To assess personality traits – in particular, conscientiousness, neuroticism, and extraversion – the researchers used the NEO Five Factor Inventory (NEO-FFI). They also used multistate survival modeling to examine the potential association between these traits and transitions from one cognitive status category to another (NCI, MCI, and dementia) and to death.
 

Cognitive healthspan

By the end of the study, over half of the sample (54%) had died.

Most transitions showed “relative stability in cognitive status across measurement occasions.”

• NCI to NCI (n = 7,368)
• MCI to MCI (n = 1,244)
• Dementia to dementia (n = 876)

There were 725 “backward transitions” from MCI to NCI, “which may reflect improvement or within-person variability in cognitive functioning, or learning effects,” the authors note.

There were only 114 “backward transitions” from dementia to MCI and only 12 from dementia to NCI, “suggesting that improvement in cognitive status was relatively rare, particularly once an individual progresses to dementia.”

After adjusting for demographics, depressive symptoms, and apolipoprotein (APOE) ε4 allele, the researchers found that personality traits were the most important factors in the transition from NCI to MCI.

Higher conscientiousness was associated with a decreased risk of transitioning from NCI to MCI (hazard ratio, 0.78; 95% confidence interval, 0.72-0.85). Conversely, higher neuroticism was associated with an increased risk of transitioning from NCI to MCI (HR, 1.12; 95% CI, 1.04-1.21) and a significantly decreased likelihood of transition back from MCI to NCI (HR, 0.90; 95% CI, 0.81-1.00).

Scoring ~6 points on a conscientiousness scale ranging from 0-48 (that is, 1 SD on the scale) was significantly associated with ~22% lower risk of transitioning forward from NCI to MCI, while scoring ~7 more points on a neuroticism scale (1 SD) was significantly associated with ~12% higher risk of transitioning from NCI to MCI.

Higher extraversion was associated with an increased likelihood of transitioning from MCI back to NCI (HR, 1.12; 95% CI, 1.03-1.22), and although extraversion was not associated with a longer total lifespan, participants who scored high on extraversion, as well as those who scored low on conscientiousness or low on neuroticism, maintained normal cognitive function longer than other participants.

“Our results suggest that high conscientiousness and low neuroticism may protect individuals against mild cognitive impairment,” said Dr. Yoneda.

Importantly, individuals who were either higher in conscientiousness, higher in extraversion, or lower in neuroticism had more years of “cognitive healthspan,” meaning more years without cognitive impairment,” she added.

In addition, “individuals lower in neuroticism and higher in extraversion were more likely to recover after receiving an MCI diagnosis, suggesting that these traits may be protective even after an individual starts to progress to dementia,” she said.

The authors note that the study focused on only three of the Big Five personality traits, while the other 2 – openness to experience and agreeableness – may also be associated with cognitive aging processes and mortality.

Nevertheless, given the current results, alongside extensive research in the personality field, aiming to increase conscientiousness through persistent behavioral change is one potential strategy for promoting healthy cognitive aging, Dr. Yoneda said.
 

‘Invaluable window’

In a comment, Brent Roberts, PhD, professor of psychology, University of Illinois Urbana-Champaign, said the study provides an “invaluable window into how personality affects the process of decline and either accelerates it, as in the role of neuroticism, or decelerates it, as in the role of conscientiousness.”

“I think the most fascinating finding was the fact that extraversion was related to transitioning from MCI back to NCI. These types of transitions have simply not been part of prior research, and it provides utterly unique insights and opportunities for interventions that may actually help people recover from a decline,” said Dr. Roberts, who was not involved in the research.

Claire Sexton, DPhil, Alzheimer’s Association director of scientific programs and outreach, called the paper “novel” because it investigated the transitions between normal cognition and mild impairment and between mild impairment and dementia.

Dr. Sexton, who was associated with this research team, cautioned that is it observational, “so it can illuminate associations or correlations, but not causes. As a result, we can’t say for sure what the mechanisms are behind these potential connections between personality and cognition, and more research is needed.”

The research was supported by the Alzheimer Society Research Program, Social Sciences and Humanities Research Council, and the National Institute on Aging of the National Institutes of Health. Dr. Yoneda and co-authors, Dr. Roberts, and Dr. Sexton have disclosed no relevant financial relationships.

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

Extraverts and individuals who are disciplined are less likely to experience cognitive decline later in life, whereas those with neuroticism have an increased risk for cognitive dysfunction, new research shows.

Investigators analyzed data from almost 2,000 individuals enrolled in the Rush Memory and Aging Project (MAP) – a longitudinal study of older adults living in the greater Chicago metropolitan region and northeastern Illinois – with recruitment that began in 1997 and continues through today. Participants received a personality assessment as well as annual assessments of their cognitive abilities.

Those with high scores on measures of conscientiousness were significantly less likely to progress from normal cognition to mild cognitive impairment (MCI) during the study. In fact, scoring an extra 1 standard deviation on the conscientiousness scale was associated with a 22% lower risk of transitioning from no cognitive impairment (NCI) to MCI. On the other hand, scoring an additional 1 SD on a neuroticism scale was associated with a 12% increased risk of transitioning to MCI.

Participants who scored high on extraversion, as well as those who scored high on conscientiousness or low on neuroticism, tended to maintain normal cognitive functioning longer than other participants.

“Personality traits reflect relatively enduring patterns of thinking and behaving, which may cumulatively affect engagement in healthy and unhealthy behaviors and thought patterns across the lifespan,” lead author Tomiko Yoneda, PhD, a postdoctoral researcher in the department of medical social sciences, Northwestern University, Chicago, said in an interview.

“The accumulation of lifelong experiences may then contribute to susceptibility of particular diseases or disorders, such as mild cognitive impairment, or contribute to individual differences in the ability to withstand age-related neurological changes,” she added.

The study was published online in the Journal of Personality and Social Psychology.
 

Competing risk factors

Personality traits “reflect an individual’s persistent patterns of thinking, feeling, and behaving,” Dr. Yoneda said.

“For example, conscientiousness is characterized by competence, dutifulness, and self-discipline, while neuroticism is characterized by anxiety, depressive symptoms, and emotional instability. Likewise, individuals high in extraversion tend to be enthusiastic, gregarious, talkative, and assertive,” she added.

Previous research “suggests that low conscientiousness and high neuroticism are associated with an increased risk of cognitive impairment,” she continued. However, “there is also an increased risk of death in older adulthood – in other words, these outcomes are ‘competing risk factors.’”

Dr. Yoneda said her team wanted to “examine the impact of personality traits on the simultaneous risk of transitioning to mild cognitive impairment, dementia, and death.”  

For the study, the researchers analyzed data from 1,954 participants in MAP (mean age at baseline 80 years, 73.7% female, 86.8% White), who received a personality assessment and annual assessments of their cognitive abilities.

To assess personality traits – in particular, conscientiousness, neuroticism, and extraversion – the researchers used the NEO Five Factor Inventory (NEO-FFI). They also used multistate survival modeling to examine the potential association between these traits and transitions from one cognitive status category to another (NCI, MCI, and dementia) and to death.
 

Cognitive healthspan

By the end of the study, over half of the sample (54%) had died.

Most transitions showed “relative stability in cognitive status across measurement occasions.”

• NCI to NCI (n = 7,368)
• MCI to MCI (n = 1,244)
• Dementia to dementia (n = 876)

There were 725 “backward transitions” from MCI to NCI, “which may reflect improvement or within-person variability in cognitive functioning, or learning effects,” the authors note.

There were only 114 “backward transitions” from dementia to MCI and only 12 from dementia to NCI, “suggesting that improvement in cognitive status was relatively rare, particularly once an individual progresses to dementia.”

After adjusting for demographics, depressive symptoms, and apolipoprotein (APOE) ε4 allele, the researchers found that personality traits were the most important factors in the transition from NCI to MCI.

Higher conscientiousness was associated with a decreased risk of transitioning from NCI to MCI (hazard ratio, 0.78; 95% confidence interval, 0.72-0.85). Conversely, higher neuroticism was associated with an increased risk of transitioning from NCI to MCI (HR, 1.12; 95% CI, 1.04-1.21) and a significantly decreased likelihood of transition back from MCI to NCI (HR, 0.90; 95% CI, 0.81-1.00).

Scoring ~6 points on a conscientiousness scale ranging from 0-48 (that is, 1 SD on the scale) was significantly associated with ~22% lower risk of transitioning forward from NCI to MCI, while scoring ~7 more points on a neuroticism scale (1 SD) was significantly associated with ~12% higher risk of transitioning from NCI to MCI.

Higher extraversion was associated with an increased likelihood of transitioning from MCI back to NCI (HR, 1.12; 95% CI, 1.03-1.22), and although extraversion was not associated with a longer total lifespan, participants who scored high on extraversion, as well as those who scored low on conscientiousness or low on neuroticism, maintained normal cognitive function longer than other participants.

“Our results suggest that high conscientiousness and low neuroticism may protect individuals against mild cognitive impairment,” said Dr. Yoneda.

Importantly, individuals who were either higher in conscientiousness, higher in extraversion, or lower in neuroticism had more years of “cognitive healthspan,” meaning more years without cognitive impairment,” she added.

In addition, “individuals lower in neuroticism and higher in extraversion were more likely to recover after receiving an MCI diagnosis, suggesting that these traits may be protective even after an individual starts to progress to dementia,” she said.

The authors note that the study focused on only three of the Big Five personality traits, while the other 2 – openness to experience and agreeableness – may also be associated with cognitive aging processes and mortality.

Nevertheless, given the current results, alongside extensive research in the personality field, aiming to increase conscientiousness through persistent behavioral change is one potential strategy for promoting healthy cognitive aging, Dr. Yoneda said.
 

‘Invaluable window’

In a comment, Brent Roberts, PhD, professor of psychology, University of Illinois Urbana-Champaign, said the study provides an “invaluable window into how personality affects the process of decline and either accelerates it, as in the role of neuroticism, or decelerates it, as in the role of conscientiousness.”

“I think the most fascinating finding was the fact that extraversion was related to transitioning from MCI back to NCI. These types of transitions have simply not been part of prior research, and it provides utterly unique insights and opportunities for interventions that may actually help people recover from a decline,” said Dr. Roberts, who was not involved in the research.

Claire Sexton, DPhil, Alzheimer’s Association director of scientific programs and outreach, called the paper “novel” because it investigated the transitions between normal cognition and mild impairment and between mild impairment and dementia.

Dr. Sexton, who was associated with this research team, cautioned that is it observational, “so it can illuminate associations or correlations, but not causes. As a result, we can’t say for sure what the mechanisms are behind these potential connections between personality and cognition, and more research is needed.”

The research was supported by the Alzheimer Society Research Program, Social Sciences and Humanities Research Council, and the National Institute on Aging of the National Institutes of Health. Dr. Yoneda and co-authors, Dr. Roberts, and Dr. Sexton have disclosed no relevant financial relationships.

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