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Abstract #3004

Cardiac in vivo T1-Mapping with Novel Reactive Oxygen Species Sensing Agent Specifically Detects Cardiac Oxidative Stress in Doxorubicin-treated Rats

Ronald J Beyers1, Meng Yu2, Dean Schwartz3, Nouha Salibi1,4, Christian Goldsmith5, and Thomas Denney1

1MRI Research Center, Auburn University, Auburn University, AL, United States, 2Chemistry & Biochemistry, Auburn University, Auburn University, AL, United States, 3Anatomy, Physiology and Pharmacology, Auburn University, Auburn University, AL, United States, 4MR R&D, Siemens Healthcare, Malvern, PA, United States, 5Chemistry and Biochemistry, Auburn University, Auburn University, AL, United States

Pathological cardiac oxidative stress causes cardiac dysfunction and possible cardiac failure. We developed a novel reactive oxygen species sensing T1 agent (H4qpt2) and applied it with in vivo cardiac T1 mapping MRI at 7T in a doxorubicin-treated (Dox) rat model. Cardiac T1 mapping with H4qpt2 specifically detected significantly shortened myocardial T1 in Dox rats while no change in T1 occurred in skeletal muscle or control rats with H4qpt2. This new H4qpt2 agent combined with cardiac or non-cardiac T1 mapping may advance the early detection of oxidative stress in multiple pathologies and promote their early treatment.

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