ABSTRACT
Fatigue has been characterized as a post COVID-19 condition known to persist months after SARS-CoV-2 infection. COVID-19 has been reported to be associated with impaired cognitive function, including disorders in attention, memory, information processing, and executive functions. The objective of this study was to determine if post-COVID fatigue, manifested as tiredness while performing low-intensity physical activity, has a detrimental effect on neuropsychological performance, to achieve this, we randomly selected 20 participants with post-COVID fatigue and 20 SARS-CoV-2 negative age-matched controls from a database of 360 residents of Tijuana, Baja California in a cross-sectional study design. All 40 participants responded to a health survey, along with a neuropsychological assessment test via telephone call. Statistical analysis was performed using a multiple linear regression model including the following independent variables: study condition (post-COVID fatigue or negative control), sex, age, years of education, hypertension, asthma, administration of supplemental oxygen during COVID-19 recovery, and the hour at which the evaluation started. Significant regression analysis was obtained for all global parameters of the assessment, including BANFE-2 score (p = 0.021, R2 Adj. = 0.263), NEUROPSI score (p = 0.008, R2 Adj. = 0.319), and total errors (p = 0.021, R2 Adj. = 0.263), with significant regression coefficients for study condition on two global parameters, BANFE-2 score (p = 0.028, ß = - 0.371) and NEUROPSI score (p = 0.010, ß = -0.428). These findings suggest that the presence of post-COVID fatigue is a factor associated with a decrease in neuropsychological performance.
ABSTRACT
The AIDS or HIV associated dementia is a cognitive-motor disease, characterized by a strong deficit of several cognitive processes such as attention, memory, sensory perception, motor control among others. The HIV associated dementia affects 30% of adult to 50% of infant HIV positive subjects. Since neurons are not infected by HIV, its principal target in the brain is microglia. The pathophysiology of this syndrome, therefore, remains to be disclosed. Several hypothesis have been proposed, one of them suggests that opportunistic infections can affect the brain. Another hypothesis suggests that microglia secretes toxic products as a result of HIV infection and those are the ones causing the damage and finally, the hypothesis, suggesting that the brain is damaged as a result of the insult caused by HIV-derived proteins. In vitro studies suggest that the HIVgp120, a viral surface protein, is highly neurotoxic. For example HIVgp120 increases cytoplasmic Ca+2 by two ways: facilitating glutamate neurotransmission increasing Ca+2 conductance, and activating the IP3 pathway, facilitating Ca+2 release from the smooth endoplasmic reticulum. This Ca+2 in turn, activates several internal signaling pathways such as the MAPK pathway. We use an animal model to test the HIVgp120 effect on neurophysiological signals and behavior as well as several pharmacological approaches to prevent the HIVgp120 neurotoxic effects. This review updates with the most recent literature discussing the potential mechanisms implicated in the pathophysiology of the AIDS dementia complex. We, in addition, hope the reader will be able to correlate the clinical symptoms observed in the HIV infected subjects and the HIVgp120-induced behavioral changes observed in animal models. Likewise, we discuss the new drugs we are testing, in order to offer a new pharmacological treatment to the patient.