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Soccer Performance clinical trials

View clinical trials related to Soccer Performance.

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NCT ID: NCT05547204 Completed - Soccer Performance Clinical Trials

Impact of Coffeeberry Extract on Skill Performance During Simulated Match Play in Academy Football Players

Start date: June 30, 2022
Phase: N/A
Study type: Interventional

This study of soccer skill performance has three objectives: 1. Compare effects of coffeeberry (300mg) and placebo ingestion on dribbling speed and precision, passing speed and accuracy, and sprint speed during a full simulated soccer match. 2. Compare effects of coffeeberry (300mg) and placebo ingestion on subjective measures (mental / physical energy and activation-deactivation (feelings or mood) during a full simulated soccer match. 3. Compare effects of coffeeberry (300mg) and placebo ingestion on chlorogenic acid (CGA) and caffeine metabolites in the blood 1-hour post ingestion, and other blood metabolites (glucose/lactate) throughout the simulated soccer match.

NCT ID: NCT04181619 Completed - Soccer Performance Clinical Trials

Influence of Coffeeberry Ingestion on Soccer Skill Performance

Start date: November 6, 2019
Phase: N/A
Study type: Interventional

The study of soccer skill performance has 3 objectives. Objective 1 is to compare effects of coffeeberry (300mg) and placebo ingestion on dribbling speed and precision and passing and shooting speed and accuracy compared to placebo. 30 subjects will be assessed before dosing, after a 1 hr resting absorption period, and after simulated soccer match play. Of these 30, 20 subjects will proceed to Objective 2 (45 minutes of intense simulated soccer match play) and Objective 3 (repeated sprint activity continued until volitional fatigue).

NCT ID: NCT03348267 Completed - Clinical trials for Skeletal Muscle Damage

Protein Supplementation and Muscle Recovery in Football

PRO-FOOTBALL
Start date: May 1, 2016
Phase: N/A
Study type: Interventional

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.