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Researchers have been gathering important and new insights about the effects of COVID-19 in brain and body for more than 18 months. These findings raise concerns about the potential long-term effects of the coronavirus on biological processes, such as aging.
My past research as a cognitive neuroscientist has been focused on how brain changes due to aging can affect people's ability to think and to move, especially in middle age. My research team began to explore how COVID-19 might affect natural aging as we saw more evidence that COVID-19 can cause brain and body damage for several months.
Observing the brain's response to COVID-19
A preliminary, but large-scale study that examined brain changes in COVID-19 patients was published in August 2021. It attracted a lot of attention from the neuroscience community.
Researchers used data from the UK Biobank to study brain imaging data for the study. This database contains brain imaging data from more than 45,000 individuals in the U.K. since 2014. This is crucial because there were baseline data and brain imaging for all those people who lived before the pandemic.
After analysing the brain imaging data, the research team brought back people who had been diagnosed as having COVID-19 to have additional brain scans. The researchers compared participants who had COVID-19 with those who hadn't. They carefully matched the groups based upon age, sex and study location as well as other risk factors such as socioeconomic status and health variables.
Researchers found significant differences in gray matter, which is composed of cells that make up the brain's information processing cells, between the COVID-19 infected and the uninfected. The COVID-19 patients had a reduced thickness of gray matter tissue in brain areas known as the frontal, temporal, and lateral lobes. This was in contrast to the usual patterns in those who hadn't been infected with COVID-19.
It is common for gray matter thickness to change over time in the general population. However, the changes in COVID-19 infected patients showed greater than normal changes.
The results of the research showed that patients with severe COVID-19 were not separated from those who needed hospitalization. This means that people infected by COVID-19 had brain volume loss even though the disease wasn't severe enough to warrant hospitalization.
Researchers also looked at cognitive performance and discovered that people with COVID-19 performed slower on information processing tasks than those without.
Although we need to be cautious in how these findings are interpreted as they await formal peer reviews, the large sample of pre- and post-illness data from the same people, and careful matching with people without COVID-19 make this preliminary work especially valuable.
What does this mean for brain volume?
One of the most frequent reports of COVID-19 infection was loss of senses of taste and smell.
Surprisingly, all the brain regions found to have been affected by COVID-19 were linked to the olfactory bulbs, a structure located near the front of brain that transmits signals about smells from the nose and other brain regions. There are connections between the olfactory bulbs and regions in the temporal lobe. Because the hippocampus is found in the temporal lobe, we often refer to it when discussing aging and Alzheimer's disease. Given its role in cognitive and memory processes, the hippocampus will likely play a significant role in aging.
Research on Alzheimers is important because some data suggests that people at high risk of developing the disease may have a diminished sense of smell. It is too early to draw conclusions about the long-term effects of COVID-19-related brain changes. However, it is worth investigating the possible connections between COVID-19 and memory changes. This is especially important considering the importance of the regions involved in memory and Alzheimer's disease.
Looking ahead
These findings raise important questions that remain unanswered. Is the brain able to recover from viral infection over time?
These are open and active areas of research that we are starting to do in our laboratory, in addition to our ongoing research on brain aging.
Our research shows that the brain processes and thinks differently as we age. We have also observed changes in the way people move over time and how they learn new motor skills. Over a period of decades, research has shown that older adults have difficulty processing and manipulating information like updating a mental grocery checklist. However, they still retain their vocabulary and knowledge. Motor skills are another area where we know older adults learn slower than young adults.
Adults over 65 experience a decline in brain size. This decline is not limited to one region. There are differences across the brain. Due to the loss in brain tissue, there is often an increase of cerebrospinal liquid that fills spaces. White matter is also less intact in older people, as well as the insulation on axons, long cables that transmit electrical impulses between nerve cell cells.
In the last decade, life expectancy has increased and more people are getting older. Although everyone wants to live long, healthy lives, it is not possible for everyone to age without any disability or disease. However, the older years can bring about changes in our thinking and movement.
Understanding how these pieces fit together will allow us to unravel the mysteries surrounding aging and help people with aging improve their quality of life. It will also help us to understand how the brain might recover from illness in the context COVID-19.
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