The effects of exercise on cognitive dysfunction in patients with Coronavirus and sports recommendations for their recovery

ABSTRACT

Background & Aims: Beginning in 2020, a deadly disease called COVID-19 spread throughout the world, plunging all countries into a viral infection. Viral infections are naturally associated with upper respiratory tract infections, which are commonly reported with fever, headache, and cough. COVID-19 virus can infect a person's respiratory system and lungs, eventually leading to death. The virus can first activate and infect macrophages. Macrophages then transfer COVID 19 to T cells and make them weak. In addition, by weakening T cells, T cell subsets are activated to increase cytokines to enhance the immune response. T cells, CD4 + T cells and CD8 + T cells play an important antiviral role in the body. It is noteworthy that CD4 + T cells in the body produce T cell-dependent (B) cells to increase virus-specific antibodies. On the other hand, CD8 + T cells are a toxic cell and can kill virus-infected cells. Most published studies have focused on the effect of aerobic exercise on immune system function. Recent studies have shown that tai chi and yoga exercises can also be beneficial for immune system function. Exercise has long been known as an important modulator of inflammatory processes. Exercise can apparently have both tonic and suppressive effects on the immune system. The effect of exercise on innate and acquired safety parameters depends on the intensity, load and duration of exercise. As the severity increases, immune function and ultimately the risk of infection increase. These risks depend on immune system regulators (genetics, nutritional status, psychological stress, circadian rhythms), environmental stressors (extreme temperatures, airway irritants) that increase inflammation. In response to exercise, immune cells grow, proliferate, and produce molecules such as cytokines and cytotoxic granules. Prolonged exercise, at least in healthy individuals, appears to reduce basal inflammatory status by reducing the circulation of inflammatory cytokines. Regular periods of short-term training (i.e., up to 45 minutes) with moderate intensity boost the immune system (increase T cells) while frequent periods of long-term high-intensity training (> 2 hours) can suppress the immune system. Acute exercise, even in healthy individuals, leads to a strong inflammatory response that is mediated by leukocyte mobilization (even for short periods of 6 minutes) and increases potent inflammatory mediators such as TNF-a, IL-1. The effect of increasing aerobic capacity on improving lung function and preventing lung injury can be summarized in four mechanisms. The first mechanism of aerobic exercise can prevent the suppression of the immune system by affecting the immune system and increase anti-inflammatory factors. The second mechanism contains the role of aerobic capacity in restoring the elasticity of lung tissue to normal and increasing the strength and endurance of the respiratory muscles, which helps increase ventilation, and reduce lung damage. The third mechanism includes the role of aerobic capacity as an antioxidant to limit the production of free radicals and oxidative damage. The fourth mechanism involves the role of aerobic capacity in reducing cough and clearing the airways by improving pulmonary safety and autonomic modulation.