Irina Petrache, Arnav Gupta, Patrick S Hume, Tanner Rivera, Kelly S Schweitzer, Hong Wei Chu
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Abstract
EVALI is an acute inflammatory disease in response to lung cell injury induced by electronic cigarettes and vaping devices (EV) frequently containing Vitamin E Acetate or tetrahydrocannabinol additives, in the context of risk factors such as microbial exposure. EVALI resembles a respiratory viral illness that may progress to acute respiratory failure and acute respiratory distress syndrome (ARDS) but can also affect extra pulmonary organs. Manifestations may be severe, leading to death or long-term morbidity and current treatments are largely supportive. While COVID-19 has demanded public and research attention, EVALI continues to affect young individuals and its better understanding via research remains a priority. Although clinical research led to improved recognition of triggers, clinical and pathological manifestations, and natural course of EVALI, important questions remain that require a better understanding of disease pathogenesis. Preclinical models utilizing laboratory animals and cell or tissue culture platforms provide insight into the physiologic and mechanistic consequences of acute and chronic EV exposure, including the characteristics of the respiratory dysfunction and inflammatory response. However, a key limitation in the field is the absence of an established animal model of EVALI. Important areas of research emphasis include identifying triggers and risk factors to understand why only certain vapers develop EVALI, the role of specific lung immune and structural cells in the pathogenesis of EVALI, and the most important molecular mediators and therapeutic targets in EVALI. © 2023 American Physiological Society. Compr Physiol 13:4617-4630, 2023.
电子烟雾化产品使用相关肺损伤(EVALI)的发病机制。
EVALI是一种急性炎症性疾病,在微生物暴露等危险因素的背景下,由经常含有维生素E醋酸酯或四氢大麻酚添加剂的电子烟和电子烟设备(EV)引起的肺细胞损伤引起。EVALI类似于一种呼吸道病毒性疾病,可发展为急性呼吸衰竭和急性呼吸窘迫综合征(ARDS),但也可影响肺外器官。表现可能很严重,导致死亡或长期发病,目前的治疗在很大程度上是支持性的。虽然COVID-19引起了公众和研究的关注,但EVALI继续影响着年轻人,通过研究更好地了解它仍然是一个优先事项。尽管临床研究提高了对EVALI的诱因、临床和病理表现以及自然过程的认识,但仍有一些重要问题需要更好地了解疾病的发病机制。利用实验动物和细胞或组织培养平台的临床前模型提供了对急性和慢性EV暴露的生理和机制后果的深入了解,包括呼吸功能障碍和炎症反应的特征。然而,该领域的一个关键限制是缺乏已建立的EVALI动物模型。重要的研究重点领域包括确定触发因素和风险因素,以了解为什么只有某些患者会发生EVALI,特异性肺免疫和结构细胞在EVALI发病机制中的作用,以及EVALI中最重要的分子介质和治疗靶点。©2023美国生理学会。物理学报(自然科学版),2023。
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