View clinical trials related to Muscle Strength.
Filter by:The purpose of this study is to determine if an exposure to light in the evening has a positive influence on physical performance regarding endurance, strength and reaction time.
Nerves are the rate limiting factor that control muscle function. However, it is unknown if a nutritional supplement can change the nerve-muscle interaction, and therefore alter human performance. This study will be the first to examine the effects of omega-3 supplementation on neuromuscular function in trained individuals.
To investigate whether reducing the volume (30 versus 10 ml) ropivacaine injected can reduce the number of subjects with impaired muscle strength following adductor canal block. We hypothesized that adductor canal block with 10 ml 0.1% ropivacaine preserves quadriceps strength compared with an adductor canal block with 30 ml.
The investigators want to find out whether a choline supplement can protect muscle health in young men with very common genetic vulnerabilities. Men, who respond to a brief, but intense set of arm exercise and have a common genetic profile, will be asked to use a choline supplement for three weeks and a placebo for three weeks. Before the begin of the supplementation study and after 3 and 6 weeks the investigators will test response to the exercise challenge and ask that all consumed foods are recorded.
The purpose of the present study is to evaluate the long-term effects of 1 year of high-intensity fitness training and low-intensity whole-body vibration training on muscle strength and functionality. Therefore, muscle strength and functionality are measured after a 6-yr interval in older adults (65+).
This study wants to understand which direction of shoulder movement and what posture of shoulder are best for the procedure of muscle strength testing of the muscle pectoralis major(PM). We will use muscle activity signals (sEMG) and force measurement to analyze the contribution of two parts of PM in three different contraction direction with three different shoulder postures.
The aim of this study is to investigate the efficacy of the Adductor-Canal-Blockade versus the femoral nerve block versus placebo on muscle strength in healthy volunteers. The investigators hypothesize that the Adductor-Canal-Blockade results in a lesser reduction of the quadriceps muscle strength compared to the femoral nerve block.
The purpose of this study is to evaluate the effects of experimental knee pain on the muscle strength gain after 8 weeks of strengthening exercises for the quadriceps. It is hypothesized that experimental knee pain will reduce the muscle strength gain following strengthening exercises in healthy volunteers.
The aim is to investigate the importance of vitamin D levels to achieve the effect of strength training. If we can show that vitamin D has an effect of training, the ultimate goal is to find out why and how vitamin D affects muscle. This would potentially have important implications for public health. Since a large number of populations, including elderly, are shown to have too little vitamin D and also has low muscle strength, it will be essential that these people added vitamin D in relation to training and rehabilitation.
Introduction: Vibration has been used to enhance muscle strength development during resistance training. Aim: To assess the effect of adding vibration to a regular resistance training program, using free weights, on muscle strength and everyday functioning of upper limbs in untrained adults Methods: 60 healthy untrained adults, 30-65 yrs, will divide into two groups: experiment and control. Training program will include 24 sessions, over a course of 8 weeks. The experiment group will use a 1 kg vibrating weights and the control group will use a standard 1 kg free weights. Every session will include 10-15 min of 3-5 standard resistant exercises for upper limbs. Each subject will perform an Isokinetic evaluation of muscular performance, for upper limbs, in 3 occasions: before starting the program, immediately after completing the 8-weeks training program and 4 weeks afterwards, to check the chronic effect of each training regime. Each subject will complete a DASH (Disabilities of the arm, shoulder and hand) questionnaire at 4 occasions- as mentioned above and one more time, when completing the first 4 weeks of the training program, to reject any development of negative effects of the training program, such as pain or inflammation of the joints .