Assessment of Cognitive Function in Patients After COVID-19 Infection

People who have survived COVID-19 frequently complain of cognitive dysfunction, which has been described as brain fog. The prevalence of post–COVID-19 cognitive impairment and the association with disease severity are not well characterized. Previous studies on the topic have been limited by small sample sizes and suboptimal measurement of cognitive functioning.1 We investigated rates of cognitive impairment in survivors of COVID-19 who were treated in outpatient, emergency department (ED), or inpatient hospital settings.


Introduction
People who have survived COVID-19 frequently complain of cognitive dysfunction, which has been described as brain fog. The prevalence of post-COVID-19 cognitive impairment and the association with disease severity are not well characterized. Previous studies on the topic have been limited by small sample sizes and suboptimal measurement of cognitive functioning. 1 We investigated rates of cognitive impairment in survivors of COVID-19 who were treated in outpatient, emergency department (ED), or inpatient hospital settings.

Methods
We analyzed data in this cross-sectional study from April 2020 through May 2021 from a cohort of patients with COVID-19 followed up through a Mount Sinai Health System registry. Study participants were 18 years or older, spoke English or Spanish, tested positive for SARS-CoV-2 or had serum antibody positivity, and had no history of dementia. Participant demographic characteristics (eg, age, race, and ethnicity) were collected via self-report. Cognitive functioning was assessed using wellvalidated neuropsychological measures: Number Span forward (attention) and backward (working memory), Trail Making Test Part A and Part B (processing speed and executive functioning, respectively), phonemic and category fluency (language), and the Hopkins Verbal Learning Test-Revised (memory encoding, recall, and recognition). The Mount Sinai Health System Institutional Review Board approved this study, and informed consent was obtained from study participants. The study followed the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) reporting guideline.
We calculated the frequency of impairment on each measure, defined as a z score of less than or equal to 1.5 SDs below measure-specific age-, educational level-, and sex-adjusted norms. 2,3 Logistic regression assessed the association between cognitive impairment and COVID-19 care site (outpatient, ED, or hospital), adjusting for race and ethnicity, smoking, body mass index, comorbidities, and depression. The threshold for statistical significance was α = .05, and the tests were 2-tailed. Analyses were performed using SAS, version 9.4 (SAS Institute).
In adjusted analyses, hospitalized patients were more likely to have impairments in attention   Abbreviation: ED, emergency department.
a Adjusted for race and ethnicity, smoking history, body mass index (calculated as weight in kilograms divided by height in meters squared), comorbidities, and depressive symptoms.

Discussion
In this study, we found a relatively high frequency of cognitive impairment several months after patients contracted COVID-19. Impairments in executive functioning, processing speed, category fluency, memory encoding, and recall were predominant among hospitalized patients. The relative sparing of memory recognition in the context of impaired encoding and recall suggests an executive pattern. This pattern is consistent with early reports describing a dysexecutive syndrome after COVID-19 4 and has considerable implications for occupational, psychological, and functional outcomes. It is well known that certain populations (eg, older adults) may be particularly susceptible to cognitive impairment after critical illness 5 ; however, in the relatively young cohort in the present study, a substantial proportion exhibited cognitive dysfunction several months after recovering from COVID-19. The findings of this study are generally consistent with those of research on other viruses (eg, influenza). 6 Limitations of this study include a potential sampling bias, as some participants may have presented to Mount Sinai Health System because of health concerns. Future studies should investigate long-term post-COVID-19 cognitive trajectories and the association with neuroimaging findings to assess potential mechanisms.

Conclusions
The association of COVID-19 with executive functioning raises key questions regarding patients' longterm treatment. Future studies are needed to identify the risk factors and mechanisms underlying cognitive dysfunction as well as options for rehabilitation.