Mecanismos de acción y tratamiento del accidente cerebrovascular isquémico por COVID-19
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Vive Rev. Salud
Abstract
Diversos mecanismos inflamatorios y protrombóticos pueden contribuir al aumento del riesgo de eventos cardiovasculares y accidentes cerebrovasculares en pacientes con COVID-19, afectando el enfoque del tratamiento y manejo de la enfermedad. La evidencia relacionada con los mecanismos fisiopatológicos del COVID-19 y su asociación con los accidentes cerebrovasculares son relevantes para guiar el tratamiento y el manejo de los pacientes, considerados como desafíos terapéuticos que surgen durante períodos de contagio masivo. Objetivo. Describir el mecanismo de acción y tratamiento del evento cerebro vascular isquémico por COVID-19. Metodología. Se realizó una revisión exhaustiva de la literatura mediante una revisión sistemática, en conformidad con las directrices establecidas por la declaración PRISMA. Se recopiló información de múltiples bases de datos científicas, utilizando términos y palabras clave ("Mecanismos de acción" OR "Mecanismos fisiopatológicos") AND ("Accidente cerebrovascular isquémico" OR "ACV isquémico") relacionados con los mecanismos de acción y tratamiento del accidente cerebrovascular isquémico asociado al COVID-19. Resultados. En total se obtuvo 41 entre PubMed y Science direct, previo a criterios 12 fueron seleccionados. Conclusión. Se determinaron los mecanismos de acción desencadenados por el COVID-19 para la formación de trombos y su relación con los accidentes cerebrovasculares. Además, se comprendió cómo el tratamiento de los accidentes cerebrovasculares afectaba a los pacientes que también padecían COVID-19. Se encontró que la tormenta de citocinas era un mecanismo influyente en la fisiopatología del COVID-19. En cuanto al tratamiento, la identificación de la enfermedad infecciosa causada por el virus SARS-CoV-2 resultó crucial en la gestión de los pacientes con accidente cerebrovascular.
Various inflammatory and prothrombotic mechanisms may contribute to the increased risk of cardiovascular events and stroke in patients with COVID-19, affecting the approach to treatment and management of the disease. Evidence regarding the pathophysiological mechanisms of COVID-19 and its association with stroke are relevant to guide the treatment and management of patients, considered as therapeutic challenges arising during periods of massive contagion. Objective. To describe the mechanism of action and treatment of ischemic cerebrovascular event by COVID-19. Methodology. A comprehensive review of the literature was performed by means of a systematic review, in accordance with the guidelines established by the PRISMA statement. Information was collected from multiple scientific databases, using terms and keywords ("Mechanisms of action" OR "Pathophysiological mechanisms") AND ("Ischemic stroke" OR "Ischemic stroke") related to the mechanisms of action and treatment of COVID-19-associated ischemic stroke. Results. A total of 41 were obtained between PubMed and Science direct, prior to criteria 12 were selected. Conclusion. The mechanisms of action triggered by COVID-19 for thrombus formation and its relation to stroke were determined. In addition, we gained insight into how stroke treatment affected patients who also had COVID-19. Cytokine storm was found to be an influential mechanism in the pathophysiology of COVID-19. In terms of treatment, identification of infectious disease caused by SARS-CoV-2 virus proved crucial in the management of stroke patients.
Various inflammatory and prothrombotic mechanisms may contribute to the increased risk of cardiovascular events and stroke in patients with COVID-19, affecting the approach to treatment and management of the disease. Evidence regarding the pathophysiological mechanisms of COVID-19 and its association with stroke are relevant to guide the treatment and management of patients, considered as therapeutic challenges arising during periods of massive contagion. Objective. To describe the mechanism of action and treatment of ischemic cerebrovascular event by COVID-19. Methodology. A comprehensive review of the literature was performed by means of a systematic review, in accordance with the guidelines established by the PRISMA statement. Information was collected from multiple scientific databases, using terms and keywords ("Mechanisms of action" OR "Pathophysiological mechanisms") AND ("Ischemic stroke" OR "Ischemic stroke") related to the mechanisms of action and treatment of COVID-19-associated ischemic stroke. Results. A total of 41 were obtained between PubMed and Science direct, prior to criteria 12 were selected. Conclusion. The mechanisms of action triggered by COVID-19 for thrombus formation and its relation to stroke were determined. In addition, we gained insight into how stroke treatment affected patients who also had COVID-19. Cytokine storm was found to be an influential mechanism in the pathophysiology of COVID-19. In terms of treatment, identification of infectious disease caused by SARS-CoV-2 virus proved crucial in the management of stroke patients.
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Vol. 6, No. 17