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NIAMS Building Interdisciplinary Research Teams (BIRT) Awards Abstracts

Reviewed September 30, 2008

 

Principal Investigator: MARTIN J. KUSHMERICK, M.D., Ph.D.

Grant: 3R01AR041928-17S1

Title: MR & Optical Diagnosis of Mitochondrial Metabolism and Dysfunction

Institution: UNIVERSITY OF WASHINGTON -- WA

Project Period: 1993/02/01-2012/07/31

DESCRIPTION (provided by applicant): Project Summary/Abstract The goal of this BIRT supplement is to develop a set of quantitative MR imaging and spectroscopy tools that correlate with known cellular events to derive surrogate markers that identify muscle inflammation, damage and recovery and to monitor the time course and evolution of these processes - a non-invasive biopsy. The proposed project will be done in dystrophic disease models in dogs and mice. Imaging based on changes in T2 relaxation is currently the clinical standard to identify regions of pathology in muscles and soft tissues. These methods are useful because of their sensitivity to a wide range of mechanisms, but this generality means they are unable to identify specific cellular processes in the affected areas. We recently began studies with Stephen Tapscott's lab to monitor their canine model of dystrophy, and specifically to work out MRI methods to monitor the inflammation and its regression that follows focal injection of AAV-microdystrophin gene constructs in normal and cxmd dogs to distinguish inflammation from the positive effects of gene transfer, and to monitor therapeutic interventions against inflammation using conventional tools. This new project will test 1H, 23Na and 31P imaging and spectroscopy methods (in addition to conventional T2 weighted and STIR imaging) for sensitivity and specificity of the underlying pathologies verified by biopsy in Dr. Tapscott's lab. Related experiments in collaboration with Dr. Jeff Chamberlain's lab will quantify the time course of lesion progression and recovery in leg muscles of normal and knockout mice lacking dystrophin and/or utrophin by microinjections of bipivacaine into the tibialis anterior, quadriceps and triceps surae using the same MRI and MRS methods. Histological examinations and immuno-histochemistry of the identified and imaged regions will validate the cellular mechanisms. The results are expected to be applicable to other disorders of muscles, joints and soft tissues.