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Cognitive Impairment From Severe COVID-19 Equivalent to 20 Years of Aging – Losing 10 IQ Points

According to a team of scientists, cognitive impairment as a result of severe COVID-19 is similar to that sustained from the 20 years of aging between 50 and 70 and is the equivalent of losing 10 IQ points.

Cognitive impairment as a result of severe COVID-19First identified in 2019 in Wuhan, China, Coronavirus disease 2019 (COVID-19) is an infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). It has spread globally, resulting in the 2019–20 coronavirus pandemic.” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>COVID-19 is similar to that sustained between 50 and 70 years of age and is the equivalent to losing 10 IQ points, say a team of scientists from the University of Cambridge and Imperial College LondonEstablished on July 8, 1907, by Royal Charter, Imperial College London is a public research university in London with a focus on science, engineering, medicine, and business. Its main campus is located in South Kensington, and it has an innovation campus in White City, a research field station at Silwood Park, and teaching hospitals throughout London.” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>Imperial College London.

The findings, published recently in the journal eClinicalMedicine, emerge from the National Institute for Health and Care Research (NIHR) COVID-19 BioResource. The results of the study suggest the effects are still detectable more than six months after the acute illness, and that any recovery is at best gradual.

“Cognitive impairment is common to a wide range of neurological disorders, but the patterns we saw – the cognitive ‘fingerprint’ of COVID-19 – was distinct from all of these.” — David Menon

There is mounting evidence that COVID-19 can cause long-term cognitive and mental health issues, with recovered patients reporting symptoms including fatigue, “brain fog,” difficulty recalling words, sleep disturbances, anxiety, and even post-traumatic stress disorder (PTSDPost-traumatic stress disorder (PTSD) is a psychiatric disorder that develops in some people who have experienced or witnessed a shocking, scary, or dangerous event.” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>PTSD) months after infection. In the United Kingdom, a research study found that one in every seven people surveyed reported having symptoms such as cognitive difficulties 12 weeks after a positive COVID-19 test.

While even mild cases can lead to persistent cognitive symptoms, between a third and three-quarters of hospitalized patients report still suffering cognitive symptoms three to six months later.

To investigate this link in greater detail, researchers analyzed data from 46 people who received in-hospital care for COVID-19 at Addenbrooke’s Hospital, part of Cambridge University Hospitals NHS Foundation Trust. During their hospital stay, 16 patients were placed on mechanical ventilation. All of the patients were admitted between March and July of 2020 and were recruited to the NIHR COVID-19 BioResource.

The individuals underwent detailed computerized cognitive tests an average of six months after their acute illness using the Cognitron platform, which measures different aspects of mental faculties such as memory, attention, and reasoning. Scales measuring anxiety, depression, and post-traumatic stress disorder were also assessed. Their data were compared against matched controls.

This is the first time that such rigorous assessment and comparison has been carried out in relation to the aftereffects of severe COVID-19.

COVID-19 survivors were less accurate and with slower response times than the matched control population – and these deficits were still detectable when the patients were following up six months later. The effects were strongest for those who required mechanical ventilation. By comparing the patients to 66,008 members of the general public, the researchers estimate that the magnitude of cognitive loss is similar on average to that sustained with 20 years aging, between 50 and 70 years of age, and that this is equivalent to losing 10 IQ points.

Survivors scored particularly poorly on tasks such as verbal analogical reasoning, a finding that supports the commonly-reported problem of difficulty finding words. They also showed slower processing speeds, which aligns with previous observations post COVID-19 of decreased brain glucose consumption within the frontoparietal network of the brain, responsible for attention, complex problem-solving and working memory, among other functions.

Professor David Menon from the Division of Anaesthesia at the University of Cambridge, the study’s senior author, said: “Cognitive impairment is common to a wide range of neurological disorders, including dementia, and even routine aging, but the patterns we saw – the cognitive ‘fingerprint’ of COVID-19 – was distinct from all of these.”

While it is now well established that people who have recovered from severe COVID-19 illness can have a broad spectrum of symptoms of poor mental health – depression, anxiety, post-traumatic stress, low motivation, fatigue, low mood, and disturbed sleep – the team found that acute illness severity was better at predicting the cognitive deficits.

The patients’ scores and reaction times began to improve over time, but the researchers say that any recovery in cognitive faculties was at best gradual and likely to be influenced by a number of factors including illness severity and its neurological or psychological impacts.

Professor Menon added: “We followed some patients up as late as ten months after their acute infection, so we’re able to see a very slow improvement. While this was not statistically significant, it is at least heading in the right direction, but it is very possible that some of these individuals will never fully recover.”

There are several factors that could cause the cognitive deficits, say the researchers. Direct viral infection is possible, but unlikely to be a major cause; instead, it is more likely that a combination of factors contribute, including inadequate oxygen or blood supply to the brain, blockage of large or small blood vessels due to clotting, and microscopic bleeds. However, emerging evidence suggests that the most important mechanism may be damage caused by the body’s own inflammatory response and immune system.

While this study looked at hospitalized cases, the team say that even those patients not sick enough to be admitted may also have tell-tale signs of mild impairment.

Professor Adam Hampshire from the Department of Brain Sciences at Imperial College London, the study’s first author, said: “Around 40,000 people have been through intensive care with COVID-19 in England alone and many more will have been very sick, but not admitted to hospital. This means there is a large number of people out there still experiencing problems with cognition many months later. We urgently need to look at what can be done to help these people.”

Professor Menon and Professor Ed Bullmore from Cambridge’s Department of Psychiatry are co-leading working groups as part of the COVID-19 Clinical Neuroscience Study (COVID-CNS) that aim to identify biomarkers that relate to neurological impairments as a result of COVID-19, and the neuroimaging changes that are associated with these.

Reference: “Multivariate profile and acute-phase correlates of cognitive deficits in a COVID-19 hospitalised cohort” by Adam Hampshire, Doris A. Chatfield, Anne Manktelow MPhil, Amy Jolly, William Trender, Peter J. Hellyer, Martina Del Giovane, Virginia F.J. Newcombe, Joanne G. Outtrim, Ben Warne, Junaid Bhatti, Linda Pointon, Anne Elmer, Nyarie Sithole, John Bradley, Nathalie Kingston, Stephen J. Sawcer, Edward T. Bullmore, James B. Rowe, David K. Menon, the Cambridge NeuroCOVID Group, the NIHR COVID-19 BioResource, and Cambridge NIHR Clinical Research Facility, 28 April 2022, eClinicalMedicine.
DOI: 10.1016/j.eclinm.2022.101417

The research was funded by the NIHR BioResource, NIHR Cambridge Biomedical Research Centre and the Addenbrooke’s Charitable Trust, with support from the NIHR Cambridge Clinical Research Facility.

Source: SciTechDaily