View clinical trials related to Athletic Performance.
Filter by:This study is being conducted for a master's dissertation. Our goal is to determine if there are physical performance benefits to performing the FIFA11+ soccer warm-up program in adult female soccer players over an eight week period. This topic has been studied primarily using male soccer players. The performance effects in adult female soccer players is currently unknown. This warm-up has been shown to reduce non-contact injury rates in soccer players aged >13. If performance benefits are demonstrated in this study, in addition to the reported injury reduction benefits of the FIFA11+ warm-up, program adherence and player performance could improve.
This is a cross-over intervention study designed to evaluate how four weeks of time restricted feeding (16 hours fasting and 8 hours feeding), compared to four weeks of a more traditional eating pattern (12 hours fasting and 12 hours feeding), affects resting energy expenditure, subjective and biochemical markers of satiety and hunger, body composition, cardiovascular health, substrate utilization and fitness in male competitive runners.
The purpose of the present study is to investigate the effect of pre-exercise supplementation of Corinthian currant on metabolism, performance and blood redox status during, and after an acute bout of prolonged exercise. Methods: Eleven healthy male adults (18 - 45y) performed an acute bout of prolonged cycling in a crossover fashion. Each bout consisted of a 90 min constant-intensity (70 - 75% VO2max) submaximal glycogen depletion trial, followed by a time trial (TT) to exhaustion (95% VO2max), with a wash out period of 2 weeks between bouts. During each experimental condition and 30 min prior to exercise, participants consumed an isocaloric (1.5 g CHO/kg body mass) amount of randomly assigned Corinthian currants, glucose drink, or water. Blood was drawn at baseline, 30 min after the supplement consumption (pre-exercise) and at 30, 60, 90 min of submaximal trial, after TT, and 1 h after the end of exercise (post TT), for the assessment of metabolic changes and redox status alterations.
Trial objectives and purpose: The primary aim is to study the effects of moderately increased testosterone concentration on aerobic performance (endurance running time to exhaustion), and secondary aims to investigate the effects on submaximal work on treadmill, anaerobic capacity, muscle strength, body composition, behaviour and well-being, blood parameters, steroid hormone profile, gynecological parameters and skeletal muscle parameters in young healthy women in a double-blind, randomized, placebo-controlled trial. Treatment: Ten weeks of transdermal treatment with testosterone cream 10 mg daily or placebo cream in a randomized design (1:1). Primary outcome: Aerobic performance (running time to exhaustion on treadmill) Secondary outcomes: 1. Submaximal work on treadmill (oxygen uptake, ventilation, heart rate, blood lactate and subjective rate of exhaustion) 2. Anaerobic performance (Wingate test) 3. Muscle strength (Cybex apparatus, force transducer, counter movement jump) 4. Body composition (Dual X-ray Absorptiometry: muscle mass, fat mass, bone mass) 5. Behaviour and well-being (Quality of life, Profile of mood state, Confidence Questionnaire, Aggression Questionnaire) 6. Blood parameters (hemoglobin, hematocrit, reticulocytes, ferritin, CRP) 7. Steroid hormone profile in blood and urine 8. Gynecological evaluation (ovarian and endometrial variables on ultrasound) 9. Skeletal muscle morphology, metabolic enzymes and muscle protein synthesis Study population: Fifty healthy menstruating women will be included in the study and randomized to treatment with testosterone or placebo. Inclusion criteria: 18-35 yrs of age; body mass index (BMI) 19-25; non-smoking; a moderate to high self-reported level of recreational physical activity; not taking hormonal contraception and willing to use highly efficient non-hormonal contraception during the study (intrauterine device, bilateral tubal occlusion, vasectomised partner, same-sex partner, or sexual abstinence); accepting to not participate in any sports competitive event during the study period plus one month. Exclusion criteria: the presence of cardiovascular, liver, biliary or renal disease; hyperlipidemia; uncontrolled high blood pressure; endocrinological disorder; oligomenorrhea (menstrual intervals of more than 6 weeks) or amenorrhea (no menstruation for at least 3 months); pregnancy; a history of thromboembolic disorder; any malignancy; and intake of hormonal contraception the last two months prior to the study.
Bone mass develops throughout childhood and adolescence until a peak bone mass is achieved during early adulthood. Fracture risk later in life can be predicted at a large extent by peak bone mass. Occurence of sarcopenia and osteoporosis (i.e. loss of mone mass) during late adulthood has been strongly associated with the degree of bone mineralization during early life. Nearly 50% of total bone mineral content (BMC) reached during adulthood is obtained during pre-adolescence rendering this period critical for skeletal health and is considered as an optimal period for bone/skeletal growth since during this time bones are more adaptable to osteogenic stimuli such as exercise-induced mechanical loading. Organized sport activities and/or nutrition appear to affect profoundly bone mineral density (BMD), BMC, bone geometry, and overall skeletal health during preadolescence offering an effective type of prevention of osteoporosis, a condition very difficult to treat later in life. Evidence suggest that some modes of exercise activities may be more effective (osteogenic) for bone development due to the magnitude and type of mechanical strain placed on long bones causing them to be more dense. Weight-bearing activities (e.g. running, jumping etc.) are believed to be more osteogenic than non-weight bearing activities. However, more research is required in order to determine: i) whether weight-bearing activities are more osteogenic than non weight -bearing activities during childhood and ii) the osteogenic potential of a large number of sport activities used by school-children as compared to a control treatment of no participation in organized sport activities. The present trial attempted to compare a large number of different sport activities in respect to their osteogenic potential based on training variables that are thought to affect osteogenesis while at the same time allows direct comparison of exercise modes that are entirely different. Therefore, the goal of this investigation was to determine the osteogenic potential of a large number of exercise training activities in boys and girls of 8-12 years of age during an entire primary school season.
In order to attain the elite level on the national scene, volleyball players need several attributes. In addition to mastering technical and tactical skills, great jumping ability is another important asset. Maximal power output needed to achieve height during a jump necessitates coordinated neuromuscular recruitment and muscle mass among others. Interestingly, there are claims that alpha-glycerylphosphorylcholine (A-GPC) increases acetylcholine synthesis and enhances exercise-induced increases in plasma growth hormone concentrations, two factors that could theoretically be associated neuromuscular transmission and muscle mass. However, until now only a few studies have investigated the role of A-GPC in human exercise performance. Published results were mixed. One recent study showed that isometric peak force was slightly but significantly increased when subjects had ingested a daily dose of 600 mg of A-GPC over a period of 6 days (Bellar et al., JISSN, 2015). The objective of our study is to evaluate the longer-term effects (4 weeks) using a higher dose (1000 mg/day) of A-GPC on jumping capabilities in elite male and female volleyball players.
The purpose of this study is to compare the acute metabolic responses and time-trial performance following the ingestion of carbohydrate solutions containing either maple syrup, maple sap, corn syrup, a commercial sport drink or water.
This research is being done to investigate fecal microbiome and metabolome as well as serum analytes and single nucleotide polymorphisms in Olympic athletes in comparison with other elite athletes.
The purpose of this study is to investigate the performance benefits of supplementing Army standard Physical Readiness Training (PRT) with a defined kettlebell (KB) deadlift and swing training program as compared to standalone PRT. Power and performance will be measured on horizontal (broad) and vertical jumps, 40 yard sprint, 60 yard shuttle, and the Army Physical Fitness Test (APFT). It is hypothesized that the unique force distributions of kettlebell training will promote improved power, particularly across the horizontal plane, when compared to standalone Army PRT. Findings will potentially provide insight as to how Army units can effectively utilize kettlebells to further diversify their training programs.
Football is a sport with congested calendars, which requires muscle recovery strategies such as cold water immersion (CWI). This recovery technique is well spread through football clubs, although it lacks a profound physiologic investigation to understand its effects on athlete's body. Objectives: The main objective of this study is to evaluate the effect of a long-term CWI exposure in football athlete's. Study Hypothesis: H0: The application of Cold water immersion doesn't amend the biomarkers, electromyograph signal, power and perceived of recover when compared with control sample. H1: The application of Cold water immersion amends the biomarkers, electromyograph signal, power and perceived of recover when compared with control sample.