4/30/2023 0 Comments Residual effects of covid![]() Here, neuroscience help evidence-based policymaking. A major task would be to employ neuroscience to mitigate the impacts of physiological and psychological stresses to prevent long-term impairment. how big a load can the brain stand in terms of COVID-19 infection and the various countermeasures from medicine and society? What are the prospects for repair and restoration and how can reparative processes be promoted? Developmental aspects are important as both the immature brain and aged brain are expectedly more vulnerable to long-term effects while the aged are typically more severely affected by the acute COVID-19 infection than are children. ![]() Brain resilience and plasticity are expected to be main topics, e.g. changed life expectations from increased social, political, and financial uncertainty during the COVID-19 pandemic. ![]() However, much more subtle effects may occur, sometimes in individuals who have never come near COVID-19 infection, e.g. Often influence will be very direct, e.g. Both the physiological and psychological aspects of stress from COVID-19 and its various countermeasures can be addressed. We also aim to present current knowledge about vulnerability/resilience processes relevant to the secondary impact of COVID-19 to inform the necessary rethinking of the world post-COVID-19. This article collection aims to encourage open discussion by leading scientific experts about current challenges for three populations of interest: COVID-19 patients, patients with other diseases, and the general public. This Research Topic is a call to address and gather international scientific efforts towards the secondary impacts of the COVID-19 pandemic, one of the biggest challenges today, from the perspective of multidisciplinary neuroscience.
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