View clinical trials related to Muscle Fatigue.
Filter by:This study assesses the effect of molecular hydrogen inhalation in healthy males on muscle soreness, fatigue, oxidative stress, and inflammation following eccentric muscle contraction during downhill walking on the treadmill.
The aim of this randomized, double blinded, placebo controlled cross-over study is to evaluate the effect of hydrogen rich water intake on running performance, physiological and biochemical variables during endurance exercise and following recovery in endurance-untrained men.
The aim of this randomized, double-blind, placebo-controlled crossover trial is to evaluate the effect of hydrogen-rich water consumption on performance, recovery, psychological and biochemical outcomes in elite Czech fin-swimmers.
This study; will be conducted to investigate the effect of quadriceps muscle fatigue on static and dynamic balance in regular physical activity individuals and sedentary individuals. International Physical Activity Questionnaire Short Form (IPAQ), Mini BESTest, Modified Borg Scale questionnaire and acute muscle fatigue protocol will be applied and Y balance Test, Flamingo Balance Test, Tecnobody Balance Measurement, EMG measurement, anthropometric measurements and digital dynamometer measurements will be made.
This clinical investigation is a monocenter, prospective, randomized, controlled, counter-balanced, two-arm study investigating the effect of a novel ergonomic handwriting pen.
This study will evaluate lower extremity and trunk neuromuscular control in 78 nulligravid and postpartum women. Participants will attend two experimental sessions, approximately 1 week apart, to assess neuromuscular function. Physical activity levels will also be assessed.
The goal of this project is to evaluate the therapeutic potential of pioglitazone (PIO) to target underlying mechanisms that promote muscle fatigue in patients with breast cancer. This represents an off-label use of this compound, both in terms of the patient population and the clinical phenotype targeted. The central research hypothesis of this study is that daily pioglitazone will restore transcriptional downregulation of pathways within skeletal that promote fatigue.
In this study, 45 healthy participants between 20 and 40 of age will be included. After obtaining the consent, the participants will be categorized into two(A&B) groups randomly for cross-over study. Each of group will accept either conventional taping or Chinese medicine technique taping before muscle fatigue exercise. To compare the preventive effect, Myoton PRO, pulse analysis equipment, etc will be applied for evaluation. The application of Chinese medicine technique (ie. Chinese medicine functional reduction) taking the kinetic chain into consideration may improve body's functional movement.
Recently, kinesiology tape is a common intervention in clinic and sport. According to the theory mentioned by the founder (Dr. Kenzo Kase), the elasticity of kinesiology tape has different effects from different taping skill. For muscle and fascia, taping could promote or inhibit contraction of muscle. For skeletal system, the intervention could correct posture and improve movement pattern through limiting joint mobility. For swelling, it may increase circulation of lymph during acute stage. However, whether these theories are feasible are still controversial in most studies. The differences between results may be related to the high heterogeneity of taping method and outcome measures. On the other hand, there are lack of studies with high quality. The differences of taping method and skill should be considered for investigating the effect of kinesiology tape. And the performance of muscle contraction should be assessed by accurate instruments.
The purpose of this study is to find out the changes in the measurable parameters of the dynamic and static position of the foot, caused by the tibialis posterior muscle which is activated by the fatigue protocol. The study includes 30 healthy patients whose socio-demographic and descriptive characteristics are held. The changes in the dynamic and static position of foot were measured by pedobarography whereas the level of fatigue was measured by Borg Fatigue Scale.