View clinical trials related to Muscle Recovery.
Filter by:This study evaluates the effects of short term palmitoylethanolamide (PEA) supplementation on functional responses (i.e. muscle soreness and performance parameters) to strenuous eccentric exercise, and investigateq the systemic and muscle molecular mechanisms through which PEA impacts on these functional responses.
To determine the dose-response effects of 10-day tart cherry product consumption (0, 30 ml, and 60 ml) on knee extensor isometric strength 24-h and 48-h after muscle damaging exercise and to elucidate the mechanisms of action for TC supplementation.
The purpose of this study is to evaluate the effect of NMN supplementation (250 and 500 mg/day over 38 days) compared to placebo in healthy volunteers with moderate physical activity on muscle recovery, physical capacity, cardiorespiratory recovery, the perception of the arduousness of the effort, the variation in blood lactate levels before and after physical exercise, the perception of the intensity of post-exercise muscle pain (cramps), the body composition and Nicotinamide-Adenine Mononucleotide (NAD+) level in blood.
To determine if modalities designed to improve blood flow combined with post-exercise nutrient intake will improve replenishment of muscle glycogen better than nutrient intake alone. A secondary objective is to compare the effectiveness of heat therapy and intermittent pneumatic compression on glycogen replenishment.
This study will assess the effect of daily post-exercise vegan (pea) and animal (whey) protein ingestion compared to placebo over 7 days of recovery from strenuous exercise. Muscle strength and soreness will be measured daily, and mechanisms underpinning recovery will be investigated in muscle biopsies taken 3, 24 and 48 hours after exercise.
Soccer is an intermittent sport including a high number of powerful actions such as accelerations, decelerations, changes of direction, jumps and impacts that incorporate a strong eccentric component and may therefore lead to skeletal muscle damage. Indeed, match activity is associated with the onset of muscle damage and an acute inflammatory response that result in attenuated performance for as long as 1 to 3 days. In competitive soccer though, multiple matches are performed within a small-time frame resulting in inadequate muscle recovery and reduced field performance. Supplementation with milk proteins following intense exercise protocols has been shown to stimulate protein synthesis and facilitate muscle recovery. Thus, the aim of the present investigation is to examine the effects of milk protein supplementation on muscle recovery and soccer-specific performance during an in-season microcycle with two matches performed three days apart.