Immunomodulatory Effects of Mechanical Ventilation

机械通气的免疫调节作用

• 批准号: 6781751
• 负责人: William A Altemeier
• 金额: $ 12.53万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-07-24 至 2008-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6781751
• 关键词: acute disease /disorder; cell death; cysteine endopeptidases; disease /disorder model; endotoxins; enzyme inhibitors; inflammation; laboratory rabbit; lipopolysaccharides; lung injury; nuclear factor kappa beta; pathologic process; respirators; septicemia; tumor necrosis factor alpha

DESCRIPTION (provided by applicant): This proposal describes a five-year training program for the development of a physician-scientist in the field of Pulmonary and Critical Care Medicine. The principal investigator has completed clinical training and has research experience in the field of pulmonary physiology. The objective of the proposed training program is to provide the skills necessary to integrate the study of cellular mechanisms with whole organ physiologic response. This objective will be achieved through the combination of didactic education and a carefully designed research program mentored by Dr. Robb Glenny, an expert in the field of pulmonary physiology, and Dr. Karol Bomsztyk, and expert in cellular regulatory pathways of gene transcription. The research program will focus on the role of mechanical ventilation as a co-factor in the development of acute lung injury (ALl). Mechanical ventilation strategy determines survival in patients with ALl; however, neither its role in the pathogenesis of ALl nor the cellular pathways involved are known. The proposed experiments will use a rabbit model of sepsis to evaluate both the proximal mechanical stimulus and the end-effector pathway by which mechanical ventilation promotes lung injury. Because TNF-alpha is a principal mediator of inflammation, experiments will look specifically at the major cellular response pathways that result from TNF ligand-receptor binding: NF-kappaB nuclear translocation and initiation of the caspase cascade. Specific aims include: 1) Quantifying the effect of mechanical ventilation on the development of endotoxin-mediated lung injury; 2) Quantifying the effect of different mechanical ventilation strategies on the regional development of endotoxin-mediated lung injury; 3) Evaluating the effect of mechanical ventilation on NF-kappaB activation during endotoxemia 4) Evaluating the effect of mechanical ventilation on caspase-mediated cell death during endotoxemia This application takes advantage of the diversity of resources available within the Department of Medicine at the University of Washington to provide the principal investigator with a unique training program designed to foster a successful research career focused on integrative pulmonary physiology.

描述（由申请人提供）： 该提案描述了一个为期五年的培训计划，用于培养肺和重症监护医学领域的医生-科学家。主要研究者已完成临床培训，并具有肺生理学领域的研究经验。拟议的培训计划的目的是提供必要的技能，整合与整个器官生理反应的细胞机制的研究。这一目标将通过教学教育和精心设计的研究计划相结合来实现，该研究计划由肺生理学领域的专家Robb Glenny博士和基因转录细胞调控途径的专家Karol Bomsztyk博士指导。该研究计划将重点关注机械通气作为急性肺损伤（AL 1）发展中的辅助因素的作用。机械通气策略决定了ALL患者的存活率;然而，其在ALL发病机制中的作用和所涉及的细胞途径都是未知的。拟议的实验将使用兔脓毒症模型来评估近端机械刺激和机械通气促进肺损伤的末端效应通路。由于TNF-α是炎症的主要介质，因此实验将专门研究TNF配体-受体结合导致的主要细胞反应途径：NF-κ B核转位和caspase级联反应的启动。具体目标包括：1）量化机械通气对内毒素介导的肺损伤发展的影响; 2）量化不同机械通气策略对内毒素介导的肺损伤的区域发展的影响; 3）评估机械通气对内毒素血症期间NF-κ B活化的影响4）评估机械通气对caspase-3的影响。本申请利用华盛顿大学医学系内可用资源的多样性，为主要研究者提供独特的培训计划，该培训计划旨在培养专注于综合肺生理学的成功研究生涯。