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High-Fat Diet Induced Obesity Increases Serum Myostatin, but Does Not Accelerate Skeletal Muscle Atrophy
(East Carolina University, 2013)
Myostatin is a potent negative regulator of muscle mass, i.e. high levels of myostatin induce loss of muscle. Surprisingly, severely obese humans and obese mice have elevated levels of serum myostatin, but the role of ...
Mitochondrial Oxidative Capacity In Human Skeletal Muscle: Association with Plasma Lactate Concentration
(East Carolina University, 2018-07-11)
ABSTRACT Background: Metabolic disease is a growing concern for public health. Obesity and Type II Diabetes are an epidemic and a phenotype for insulin resistance in human skeletal muscle. A reduced mitochondrial function ...
SKELETAL MUSCLE METABOLIC FLEXIBILITY IMPAIRMENTS IN RESPONSE TO LIPID WITH OBESITY : EFFECT OF EXERCISE TRAINING
(East Carolina University, 2012)
Obese individuals exhibit skeletal muscle metabolic inflexibility by failing to increase fat oxidation and genes linked with mitochondrial biogenesis in response to a high-fat diet (HFD) and lipid incubation in cell culture. ...
THE EFFECT OF CONTRACTILE ACTIVITY AND SUBSTRATE CHALLENGES ON METABOLIC FLEXIBILITY IN HUMAN PRIMARY MYOTUBES
(East Carolina University, 2013)
The skeletal muscle of severely obese individuals (BMI > 40 kg/m²) is characterized by a depressed ability to oxidize fatty acids and a failure to upregulate fatty acid oxidation (FAO) in response to increased lipid ...