Post by Nadica (She/Her) on Oct 22, 2024 3:03:14 GMT
The Hidden Cognitive Costs of COVID-19: What Scientists Are Uncovering - Published Oct 21, 2024
A study reveals subtle, lasting cognitive impacts in healthy individuals following COVID-19 infection, highlighting the need for precise cognitive testing in future research.
A new analysis from Imperial College’s COVID-19 human challenge study has identified subtle changes in memory and cognition among healthy volunteers who were infected with SARS-CoV-2. These changes persisted for up to a year after infection.
Researchers noted that, despite the differences, all scores remained within the normal range for healthy individuals, and none of the participants reported lasting cognitive symptoms like brain fog.
Cognitive Impacts in Controlled Conditions
The study, published in eClinical Medicine, found small but measurable differences in cognitive performance between 18 young, healthy participants who contracted the virus and those who did not, all monitored under carefully controlled conditions.
The team explains that incorporating such sensitive cognitive testing into future studies could help reveal more detailed insights into how infections may alter brain function and could help to find ways to reduce these processes when they cause symptoms.
Challenges and Methodologies
Senior author Professor Adam Hampshire, from the Department of Brain Sciences at Imperial College London and now based at King’s College London, explained: “We know that COVID-19 can have lasting impacts on our memory and ability to carry out common cognitive tasks. However, much of the scientific evidence we have comes from large studies based on self-testing and reporting, or where there’s a range of variables that could increase or reduce these effects.
“Our work shows that these cognitive effects are replicated even under carefully controlled conditions in healthy individuals – including infection with a comparable dose of virus – and further highlights how respiratory infections can impact specific aspects of brain function.
“We were only able the detect some of these effects because of the trial design, which used very sensitive tests and controlled conditions, with participant performance compared to their own pre-inoculation baselines. This enabled us to pick up on subtle changes of which the participants themselves appear not to have been aware.”
COVID-19 and Cognition
Previous studies that included patients with a wide range of severities have shown COVID-19 can have a lasting impact on people’s brain function. One such study, led by Imperial and involving more than 140,000 people, found small deficits in the performance of cognitive and memory tasks in people who had recovered from COVID-19, with differences evident a year or more after infection.
In the latest study, researchers analyzed findings from a small group of healthy volunteers who were part of the world’s first human challenge study for COVID-19 in 2021. The findings reveal subtle differences in how they performed on the same tests, which lasted up to 12 months although later testing could have been affected by other and later factors.
Human Challenge Study Design and Results
During the trial, 36 healthy, young participants with no previous immunity to the virus were infected with SARS-CoV-2 and monitored under controlled clinical conditions. They were carefully monitored and remained at the facility until they were no longer infectious. From the group, 18 participants became infected and developed mild illness, one without symptoms.
Participants also performed sets of tasks to measure multiple distinct aspects of their brain function, including memory, planning, language, and problem-solving, using the Cognitron platform. Participants took the tests before exposure to the virus, during the two weeks they spent in the clinical facility, and then at multiple points for up to a year.
Analysis showed that those who became infected with SARS-CoV-2 had statistically lower cognitive scores than uninfected volunteers – compared to baseline scores – during their infection as well as during the follow-up period. The main differences in scores were seen in memory and executive function tasks (including working memory, attention, and problem-solving).
Lasting Impacts and Future Research Directions
Differences in scores between groups were seen up to one year after infection, with the uninfected group performing slightly better on tasks overall.
The researchers note that the observed differences were small and that none of the volunteers reported prolonged cognitive symptoms. They also highlight limitations of the study, including the small sample size and that the majority of participants were white males, and so caution is needed in extrapolating the findings to the general population.
They explain that future research could examine the biological links between respiratory infection and cognition in COVID-19, and even show how this impact compares with other conditions, such as Respiratory syncytial virus (RSV) or influenza.
Co-author Professor Christopher Chiu, from the Department of Infectious Disease at Imperial College London, who led the COVID-19 human challenge study, said: “These latest findings from our study add more fine detail to the picture we have of COVID-19 and other respiratory infectious diseases.
“Challenge studies can offer a tool to help us better understand how infections disrupt a range of biological functions. Here, by showing biological effects that fall below what could be considered symptoms or disease, we were able to identify the smallest changes in these pathways. This could ultimately help us to develop new treatments to reduce or even block some of these effects, which we know in other settings can have lasting impacts on people’s lives.”
Reference: “Changes in memory and cognition during the SARS-CoV-2 human challenge study” by William Trender, Peter J. Hellyer, Ben Killingley, Mariya Kalinova, Alex J. Mann, Andrew P. Catchpole, David Menon, Edward Needham, Ryan Thwaites, Christopher Chiu, Gregory Scott and Adam Hampshire, 21 September 2024, eClinicalMedicine.
DOI: 10.1016/j.eclinm.2024.102842
www.thelancet.com/journals/eclinm/article/PIIS2589-5370(24)00421-8/fulltext
This study was funded through the UK Vaccine Taskforce of the Department for Business, Energy and Industrial Strategy (BEIS).
The work was supported by the NIHR Imperial Biomedical Research Centre.
A study reveals subtle, lasting cognitive impacts in healthy individuals following COVID-19 infection, highlighting the need for precise cognitive testing in future research.
A new analysis from Imperial College’s COVID-19 human challenge study has identified subtle changes in memory and cognition among healthy volunteers who were infected with SARS-CoV-2. These changes persisted for up to a year after infection.
Researchers noted that, despite the differences, all scores remained within the normal range for healthy individuals, and none of the participants reported lasting cognitive symptoms like brain fog.
Cognitive Impacts in Controlled Conditions
The study, published in eClinical Medicine, found small but measurable differences in cognitive performance between 18 young, healthy participants who contracted the virus and those who did not, all monitored under carefully controlled conditions.
The team explains that incorporating such sensitive cognitive testing into future studies could help reveal more detailed insights into how infections may alter brain function and could help to find ways to reduce these processes when they cause symptoms.
Challenges and Methodologies
Senior author Professor Adam Hampshire, from the Department of Brain Sciences at Imperial College London and now based at King’s College London, explained: “We know that COVID-19 can have lasting impacts on our memory and ability to carry out common cognitive tasks. However, much of the scientific evidence we have comes from large studies based on self-testing and reporting, or where there’s a range of variables that could increase or reduce these effects.
“Our work shows that these cognitive effects are replicated even under carefully controlled conditions in healthy individuals – including infection with a comparable dose of virus – and further highlights how respiratory infections can impact specific aspects of brain function.
“We were only able the detect some of these effects because of the trial design, which used very sensitive tests and controlled conditions, with participant performance compared to their own pre-inoculation baselines. This enabled us to pick up on subtle changes of which the participants themselves appear not to have been aware.”
COVID-19 and Cognition
Previous studies that included patients with a wide range of severities have shown COVID-19 can have a lasting impact on people’s brain function. One such study, led by Imperial and involving more than 140,000 people, found small deficits in the performance of cognitive and memory tasks in people who had recovered from COVID-19, with differences evident a year or more after infection.
In the latest study, researchers analyzed findings from a small group of healthy volunteers who were part of the world’s first human challenge study for COVID-19 in 2021. The findings reveal subtle differences in how they performed on the same tests, which lasted up to 12 months although later testing could have been affected by other and later factors.
Human Challenge Study Design and Results
During the trial, 36 healthy, young participants with no previous immunity to the virus were infected with SARS-CoV-2 and monitored under controlled clinical conditions. They were carefully monitored and remained at the facility until they were no longer infectious. From the group, 18 participants became infected and developed mild illness, one without symptoms.
Participants also performed sets of tasks to measure multiple distinct aspects of their brain function, including memory, planning, language, and problem-solving, using the Cognitron platform. Participants took the tests before exposure to the virus, during the two weeks they spent in the clinical facility, and then at multiple points for up to a year.
Analysis showed that those who became infected with SARS-CoV-2 had statistically lower cognitive scores than uninfected volunteers – compared to baseline scores – during their infection as well as during the follow-up period. The main differences in scores were seen in memory and executive function tasks (including working memory, attention, and problem-solving).
Lasting Impacts and Future Research Directions
Differences in scores between groups were seen up to one year after infection, with the uninfected group performing slightly better on tasks overall.
The researchers note that the observed differences were small and that none of the volunteers reported prolonged cognitive symptoms. They also highlight limitations of the study, including the small sample size and that the majority of participants were white males, and so caution is needed in extrapolating the findings to the general population.
They explain that future research could examine the biological links between respiratory infection and cognition in COVID-19, and even show how this impact compares with other conditions, such as Respiratory syncytial virus (RSV) or influenza.
Co-author Professor Christopher Chiu, from the Department of Infectious Disease at Imperial College London, who led the COVID-19 human challenge study, said: “These latest findings from our study add more fine detail to the picture we have of COVID-19 and other respiratory infectious diseases.
“Challenge studies can offer a tool to help us better understand how infections disrupt a range of biological functions. Here, by showing biological effects that fall below what could be considered symptoms or disease, we were able to identify the smallest changes in these pathways. This could ultimately help us to develop new treatments to reduce or even block some of these effects, which we know in other settings can have lasting impacts on people’s lives.”
Reference: “Changes in memory and cognition during the SARS-CoV-2 human challenge study” by William Trender, Peter J. Hellyer, Ben Killingley, Mariya Kalinova, Alex J. Mann, Andrew P. Catchpole, David Menon, Edward Needham, Ryan Thwaites, Christopher Chiu, Gregory Scott and Adam Hampshire, 21 September 2024, eClinicalMedicine.
DOI: 10.1016/j.eclinm.2024.102842
www.thelancet.com/journals/eclinm/article/PIIS2589-5370(24)00421-8/fulltext
This study was funded through the UK Vaccine Taskforce of the Department for Business, Energy and Industrial Strategy (BEIS).
The work was supported by the NIHR Imperial Biomedical Research Centre.