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用于开发沙林诱导肺损伤啮齿动物模型的吸入暴露系统。

Inhalation exposure systems for the development of rodent models of sulfur mustard-induced pulmonary injury.

机构信息

Lovelace CounterACT Center of Excellence, Lovelace Respiratory Research Institute, Albuquerque, NM 87108, USA.

出版信息

Toxicol Mech Methods. 2010 Jan;20(1):14-24. doi: 10.3109/15376510903483730.

DOI:10.3109/15376510903483730
PMID:20025432
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3154732/
Abstract

Sulfur mustard (SM) is a chemical threat agent for which its effects have no current treatment. Due to the ease of synthesis and dispersal of this material, the need to develop therapeutics is evident. The present manuscript details the techniques used to develop SM laboratory exposure systems for the development of animal models of pulmonary injury. These models are critical for evaluating SM injury and developing therapeutics against that injury. Iterative trials were conducted to optimize a lung injury model. The resulting pathology was used as a guide, with a goal of effecting homogeneous and diffuse lung injury comparable to that of human injury. Inhalation exposures were conducted by either nose-only inhalation or intubated inhalation. The exposures were conducted to either directly vaporized SM or SM that was nebulized from an ethanol solution. Inhalation of SM by nose-only inhalation resulted in severe nasal epithelial degeneration and minimal lung injury. The reactivity of SM did not permit it to transit past the upper airways to promote lower airway injury. Intratracheal inhalation of SM vapors at a concentration of 5400 mg x min/m(3) resulted in homogeneous lung injury with no nasal degeneration.

摘要

芥子气(SM)是一种化学威胁剂,目前尚无针对其影响的治疗方法。由于这种物质易于合成和传播,因此需要开发治疗方法。本文详细介绍了开发 SM 实验室暴露系统的技术,用于开发肺损伤动物模型。这些模型对于评估 SM 损伤和开发针对该损伤的治疗方法至关重要。进行了反复试验以优化肺损伤模型。将所得病理学用作指导,目的是产生类似于人类损伤的均匀和弥漫性肺损伤。通过鼻吸入或插管吸入进行吸入暴露。暴露于直接汽化的 SM 或从乙醇溶液雾化的 SM。通过鼻吸入进行 SM 吸入会导致严重的鼻上皮退化和最小的肺损伤。SM 的反应性不允许其通过上呼吸道促进下呼吸道损伤。以 5400 mg x min/m(3)的浓度经气管内吸入 SM 蒸气会导致均匀的肺损伤,而无鼻上皮退化。

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