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Articles 1 - 4 of 4
Full-Text Articles in Physiology
Metabolic Foundations Of Exercise-Induced Cardiac Growth., Kyle Fulghum
Metabolic Foundations Of Exercise-Induced Cardiac Growth., Kyle Fulghum
Electronic Theses and Dissertations
Regular aerobic exercise promotes physiological cardiac growth, which is an adaptive response thought to enable the heart to meet higher physical demands. Cardiac growth involves coordination of catabolic and anabolic activities to support ATP generation, macromolecule biosynthesis, and myocyte hypertrophy. Although previous studies suggest that exercise-induced reductions in cardiac glycolysis are critical for physiological myocyte hypertrophy, it remains unclear how exercise influences the many interlinked pathways of metabolism that support adaptive remodeling of the heart. In this thesis project, we tested the general hypothesis that aerobic exercise promotes physiological cardiac growth by coordinating myocardial metabolism to promote glucose-supported anabolic pathway …
Effects Of Varying Load Intensity On Skeletal Muscle Damage Between Two Isovolumic Resistance Exercise Bouts, Lee J. Winchester, Cody E. Morris, Patton Allen, Teresa Wiczynski, Scott W. Arnett, T. Scott Lyons
Effects Of Varying Load Intensity On Skeletal Muscle Damage Between Two Isovolumic Resistance Exercise Bouts, Lee J. Winchester, Cody E. Morris, Patton Allen, Teresa Wiczynski, Scott W. Arnett, T. Scott Lyons
International Journal of Exercise Science
International Journal of Exercise Science 15(4): 1212-1221, 2022. There are limited data comparing the efficacy of resistance loads within the hypertrophy range for promoting muscular growth, particularly when similar training volumes are utilized. The purpose of this study was to determine if two similar volume-loads, utilizing different intensities, would produce dissimilar muscular damage and inflammation. Eleven resistance-trained, college-aged males participated in this study. After testing 1RM barbell squats, participants completed two similar volume-load barbell squat sessions at two different resistance loads (67% and 85% of 1RM) on two separate visits. Venous blood samples were collected at baseline and one hour …
Heat Stress And The Control Of Skeletal Muscle Mass, Zachary J. Fennel
Heat Stress And The Control Of Skeletal Muscle Mass, Zachary J. Fennel
Health, Exercise, and Sports Sciences ETDs
PURPOSE: 1) Compare the effects of whole-body heat stress (HS) and resistance exercise (RE) on thermoregulatory responses and skeletal muscle heat shock and hypertrophy related signaling. 2) Examine the effects of acute heat stress (HEAT) on myotube growth and fusion compared to controls (CON), hypertrophy (HYPER), and atrophy (RAPA) treatments in-vitro. METHODS: 1) Eight healthy, physically active and resistance trained individuals (18-45 years) completed RE and HS. 2) 48 hours following treatments, C2C12 myotubes were assessed for myotube area and nuclear fusion index. RESULTS: 1) RE and HS similarly increased muscle but not core temperatures. HS but not RE increased …
Regulation Of Skeletal Muscle Plasticity By The Gut Microbiome, Taylor R. Valentino
Regulation Of Skeletal Muscle Plasticity By The Gut Microbiome, Taylor R. Valentino
Theses and Dissertations--Physiology
Recent evidence suggests that the gut microbiome could play a role in skeletal muscle plasticity, providing novel treatments for muscle wasting diseases and/or performance enhancements. I first sought to determine if the gut microbiome is necessary for skeletal muscle adaptation to exercise. Forty-two, four-month old, female C57Bl/6J underwent nine weeks of weighted wheel running or remained in cage with a locked wheel, without or without the administration of antibiotics (treated). In response to wheel running, I found that antibiotic depletion of the microbiome led to a blunted hypertrophic response in the soleus muscle as measured by normalized muscle wet weight …