View clinical trials related to Muscular Fatigue.
Filter by:Preclinical studies performed at Nestlé Research (NR) identified oleuropein as a novel activator of mitochondrial calcium import. This potentiated mitochondrial calcium uptake resulted in decreased phosphorylation of the enzyme pyruvate dehydrogenase (PDH), which is linked to its activation as a rate limiting enzyme for mitochondrial oxidation, as well as increasing mitochondrial oxygen consumption, resulting ultimately in decreases in muscle fatigue. In addition, NR demonstrated that during aging, mitochondrial calcium and oxygen consumption rates are decreased in isolated skeletal muscle fibers. The next step in the evidence development is to demonstrate efficacy of oleuropein for improved muscle energy and decreased physical fatigue in a healthy aging population.
This study proposal seeks to examine the efficacy of probiotic supplementation at mitigating changes in immune function and recovery after completion of intense, stressful exercise while also allowing for a better understanding of its ability to promote recovery and maintenance of physical performance.
The purpose of the study is to see how different forms of the squat exercise change my body's leg muscle activity. Four forms of the traditional back squat will be used: traditional back squat, barefoot squat, box squat, and traditional back squat with chains.
The primary purpose of this study is to evaluate the effect of oral administration of L-arginine in the muscular fatigue of the quadriceps, expressed in terms of the Fatigue Resistance Factor (FRF). The secondary purpose of this study is to evaluate the effect of oral administration of L-arginine in the muscular force the quadriceps.