Pre-Clinical Animal Models (PCAM) of Lung Inflammatory Injury
University Of Illinois At Chicago, Chicago IL
Investigators
Linked publications & trials
Abstract
The Pre-Clinical Animal Models Core (Core C), under the leadership of Drs. Yuan and Moreno, is designed to provide PPG investigators with rigorously defined and reproducible murine models of acute lung injury (ALI), ventilation-induced lung injury (VILI) and radiation-induced lung injury (RILI). The Core will advance three principal objectives with the first objective to provide a complete range of expertise, training, equipment, and data analysis tools to extensively study and characterize the role of sphingolipids in murine models of lung injury. Using published protocols and parameters from a variety of ALI, VILI and RILI models (mice, rats, dogs), we will employ state-of-the-art techniques to characterize the role of sphingolipids in inflammatory lung injury as well as the effects of specific interventions in order to provide insight into the efficacy and mechanisms of novel therapeutic strategies and to facilitate the translation of basic research to the clinical arena. To this end, the core will provide quantitative measurements of vascular permeability (Kfc) and albumin content, inflammation (tissue myeloperoxidase, inflammatory cells), edema (Evans blue dye extravasation) and specific biomarkers. The second objective is to house and care for the geneticallyengineered mice utilized in this PPG and to generate novel transgenic mice. The third objective will be to utilize RNA silencing strategies (siRNA), targeting the lung endothelium (ACE conjugated) or liposome encapsulated and the use of pharmacologic agonists or antagon-ists/inhibitors for SIP receptors as potential therapeutic strategies/approaches for acute lung injury, mechanical ventilation or radiation-induced pneumonitis lung injury models. The core will have full access to and will utilize resources available at the University of Illinois at Chicago Small Animal Imaging Core (including MRI and optical imaging).
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