Pneumolysis in COVID-19: A Novel Concept Derived from High Altitude Physiology

Global Journal of Respiratory Care Pub Date : 2022-12-26 DOI:10.12974/2312-5470.2022.08.04

G. Zubieta-Calleja, Natalia Zubieta-DeUrioste

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Abstract

The COVID-19 pandemic surprised everyone with a severe lung compromise giving rise to gasping and death from respiratory insufficiency. The understanding of lung compromise is essential to advances in the field of pneumology. It is well known that the SARS-CoV-2 adheres through its spikes to the ACE-2 receptors of type II pneumocytes and introduces its RNAm material in search of its reproduction. Pneumolysis, defined as “lung destruction”, is the mechanism whereby the virus utilizes the alveolar cells to reproduce itself and destroys them in the process. The viral “attack” leads to dysfunction of the alveolar type II cells that work in conjunction with the type I alveolar cells, and a specialized thin oxygen and carbon dioxide permeable membrane. Once the virus is inside the cell, the organism’s immune system attempts to attack the virus, causing significant inflammatory reactions with remarkable ineffectiveness. The following destruction of the alveoli gives rise to a shunt, uneven ventilation-perfusion, and alteration of diffusion, generating a rapidly progressive hypoxemia that is often lethal.

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COVID-19肺炎溶解:源自高原生理学的新概念

COVID-19大流行使每个人都感到惊讶，肺部严重受损，导致喘气和呼吸功能不全死亡。了解肺损害是必不可少的进展，在肺炎领域。众所周知，SARS-CoV-2通过其刺突附着在II型肺细胞的ACE-2受体上，并引入其RNAm物质以寻求其繁殖。肺溶解，定义为“肺破坏”，是病毒利用肺泡细胞自我繁殖并在此过程中破坏肺泡细胞的机制。病毒的“攻击”导致与I型肺泡细胞一起工作的II型肺泡细胞功能障碍，以及专门的薄氧气和二氧化碳透膜。一旦病毒进入细胞，生物体的免疫系统就会试图攻击病毒，引起严重的炎症反应，但明显无效。肺泡的破坏引起分流、不均匀的通气灌注和扩散的改变，产生快速进行性低氧血症，通常是致命的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Global Journal of Respiratory Care

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