20 People Results for the Tag: Skeletal Muscle
Huck Distinguished Chair in Evolutionary Genetics; Professor of Biology; Former Dean, Eberly College of Science
Regulation of protein synthesis and control of translation initiation of mRNAs in higher eukaryotes and the evolution of tissue specific transcriptional regulation.
Dean of the Graduate School; Professor of Poultry Science, Endocrine Physiology, and Nutrition
Role of endocrine and metabolic factors in the regulation of muscle and adipose tissue growth.
Director of Graduate Training Initiatives; Chair, Intercollege Graduate Degree Program in Integrative and Biomedical Physiology; Professor of Physiology and Kinesiology
My research is focused on aging, post-menopausal women, and cardiac ischemia reperfusion injury using animal models. We are particularly interested in the effects of estrogen deficiency on mitochondrial regulation of cell survival following myocardial infarction. Multiple levels of inquiry addressing mitochondrial quality control regulation and immune signaling is emphasized.
Associate Professor of Kinesiology
Integrating experimental and modeling approaches to study gait and skeletal muscle function during locomotion in both health and disease/impairment. In particular, the relationship between in vivo muscle mechanics and metabolic energetics and mechanisms underlying locomotor adaptation and optimization.
Assistant Professor of Bioengineering
Mechanobiology focusing on how mechanical stimuli influence tendon cell behavior in their native microenvironment with the ultimate goal of understanding tendon pathology and identifying novel therapeutic options.
Assistant Professor of Chemical Engineering
Micro- and nanoengineered soft materials for medicine and the environment; microfluidic-enabled biomaterials for tissue engineering and regeneration; living materials; next-generation bioadhesives, tissue sealants, and hemostatic agents; hydrogels for minimally invasive medical technologies; self-healing and adaptable soft materials; smart coatings; hairy nanocelluloses as an emerging family of advanced materials.