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Full-Text Articles in Medical Education
The Effect Of Acute And Chronic Thermotherapy On Type 2 Diabetic Skeletal Muscle Cell Viability And Gene Expression: Pilot Study, Louay Bachnak, Jean Sparks, Xavier F. Gonzales, Daniel Newmire, Felix Omoruyi
The Effect Of Acute And Chronic Thermotherapy On Type 2 Diabetic Skeletal Muscle Cell Viability And Gene Expression: Pilot Study, Louay Bachnak, Jean Sparks, Xavier F. Gonzales, Daniel Newmire, Felix Omoruyi
International Journal of Exercise Science: Conference Proceedings
Diabetes is a chronic metabolic disease affecting millions of people globally. Type 2 diabetes is associated with insulin resistance or a defective secretion of insulin from the pancreas. The skeletal muscle system accounts for 80% of glucose uptake and is a vital player in healthy aging and muscle mass maintenance. PURPOSE: The purpose of this study was to investigate the effects of thermotherapy on gene expression and cell viability in Type 2 Diabetic skeletal muscle. METHODS: Human skeletal muscle myoblast (HSMM) and Diabetic Type 2 human skeletal muscle myoblast (D-HSMM) (Lonza Inc, Walkersville, MD) were cultured until 90% confluency was, …
Exploring The Role Of Bmp7 Gene Expression In An In Vitro Model Of Aging Human Skeletal Muscle., Dreanna M. Mcadams, Emily L. Zumbro, Chase M. White, Ryan A. Gordon, Anthony A. Duplanty
Exploring The Role Of Bmp7 Gene Expression In An In Vitro Model Of Aging Human Skeletal Muscle., Dreanna M. Mcadams, Emily L. Zumbro, Chase M. White, Ryan A. Gordon, Anthony A. Duplanty
International Journal of Exercise Science: Conference Proceedings
Sarcopenia is an age-related condition associated with rapid loss of skeletal muscle (SKM) tissue that affects mobility and quality of life of geriatric individuals. Mechanistic Target of Rapamycin (mTOR) and Protein Kinase B (AKT) have significant roles in SKM hypertrophy with responses to DNA damage and repair within SKM. However, mTOR and AKT expression is significantly decreased with age. Upstream of AKT, Bone Morphogenetic Protein (BMP7) is a member of the TGF-β signaling family that has been reported as a positive regulator of muscle hypertrophy through the Bmp–Smad1/5/8 signaling axis. PURPOSE: To use an in vitro model of aging …