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lung fibrosis. The ideal candidate will independently perform studies utilizing established in vitro, ex vivo and in vivo preclinical models and will have the opportunity to develop and refine novel
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. * Examine mechanisms of organ cross-talk between the heart, vasculature, and brain. * Utilize in vitro and in vivo models, including inflammatory and aging-related models. * Perform molecular
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dysfunction in heart failure, sepsis, and related inflammatory conditions. Utilize in vitro and in vivo models, including mouse models of sepsis (e.g., CLP, LPS), ischemiareperfusion injury, and vascular injury
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biological applications. You will design and implement models ranging from molecular to process scales, develop model-predictive control and optimization strategies, run high-performance numerical experiments
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of innovative research methodologies and will independently design, optimize, and execute complex immunologic and molecular experiments across in vitro, ex vivo, and in vivo model systems. Technical scope
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of scientific mentor Dr. Liping Yang (https://medicine.osu.edu/find-faculty/non-clinical/molecular-medicine-and-therapeutics/liping-yang ) at the Comprehensive Cancer Center at the Ohio State University. Post