View clinical trials related to Hamstring Contractures.
Filter by:Comparison of the effects of passive stretching vs. sciatic nerve gliding in soccer players presenting with short hamstring syndrome.
Whole body vibration therapy is rapidly becoming a topic of interest for the researchers around the world. Evidence suggests that Whole body vibration has an effect on improving flexibility of hamstring muscle and balance in athletes. The purpose was to examine the effect of low amplitude Whole body vibration on the flexibility of hamstring muscle and improving balance in athletes of Pakistan
To determine the effects of mulligan's bent leg raise technique on hamstring flexibility and lumber spine mobility in healthy females
The aim of this study is to find whether functional dry needle is helpful to increase the length of shortened hamstring muscle or not
Electrical stimulation has a wide range of clinical applications in rehabilitation, being used for activities such as strengthening, pain control, management of edema, or control of inflammation after injury or surgery. One of the most classic forms of electrotherapy is direct current (DC), which stands out for its particular effects and which are not achieved with other forms of electrical stimulation. A new therapeutic alternative through DC is Percutaneous Microelectrolysis (MEP), which began to have a significant boom in Latin America a couple of years ago. MEP is a minimally invasive procedure in which a low intensity DC is used. MEP has been proposed as a therapeutic resource to reduce muscle contractions and shortenings, thus favoring flexibility, although research to support this effect is lacking. Muscle flexibility is an important component in rehabilitation and training programs. In lower limbs, tightness hamstring muscles is a common condition that limits flexibility and affects sedentary and athletic people. Loss of flexibility of hamstrings has been reported for different sports disciplines, showing a decrease in a high percentage with the exception of sports such as rhythmic gymnastics and dance where flexibility is essential for good performance. Loss of hamstring extensibility has been associated with a higher incidence of muscle tears, patellar tendinopathy, low back pain and alterations in lumbopelvic rhythm associated with compensatory biomechanical changes such as limb shortening, pelvic retroversion, and increased thoracic kyphosis, among others. It is interesting to investigate the effectiveness of MEP in hamstring tightness. A increase in hamstring flexibility can contribute to increased joint range, muscle strength, and lower limb agility.
The aim of this study was to investigate the effect of myofascial release technique on rib cage mobility, respiratory function, respiratory muscle strength and endurance in patients with hamstring muscle shortness.
The flexibility of the hamstrings is a very important component both for general health and when exercising. The lack of hamstring flexibility has been related to the increase in the likelihood of suffering a large number of musculoskeletal pathologies, due to the possibility of causing important muscle imbalances, which include lumbar spine pathologies, such as disc hernias or spondyloarthrosis. In addition, the decrease in the flexibility of the hamstring musculature is also related to the increased likelihood of suffering muscle strains, patellar tendon tendinopathies, femoropatellar syndrome and decreased lumbopelvic rhythm. Clinically, an invasive technique has appeared, known as Ultrasound-guided Percutaneous Neuromodulation (PNM). This minimally invasive intervention consists in the application of a percutaneous electrical stimulation (PES) through an acupuncture needle-like electrode that is placed in close proximity to the nerve or motor point of the muscle with ultrasound guidance. At the clinical level, the PES is always used with the therapeutic aim of relieving chronic pain and neuropathic pain. Similarly, in sports, PES is used with the aim of improving muscular activity. Therefore, according to the characteristics and the therapeutic benefits of this technique, further research is needed to discover multiple clinical indications. The aim of this study was to examine the effects on flexibility and strength of an ultrasound-guided percutaneous neuromodulation intervention in patients with shortening of the hamstring muscles.
Investigator researched that the effect of trunk and lower extremity muscle strength on hamstring flexibility in children with Duchenne Muscular Dystrophy.
In this study we intend to apply a treatment protocol for hamstrings that can be beneficial for a good recovery. Initially, a sample of athletes with hamstring shortening was chosen. Once the sample is chosen, it will be divided into two groups: group 1 (G.1) who will receives a sham massage, group 2 (G.2) that receives the classic massage. To finalize the study comparing the results of the two groups to observe the experimental protocol obtains better results. Material and methods The sample of an athletic club. Recruiting subjects between 18 and 45 years old without other injuries of the lower limb. Subjects with shortening of the hamstring muscles are available through the specific shortening test. This is a randomized controlled trial. Subjects were randomly assigned to two intervention groups (1 treatment and 1 placebo control). The intervention consists of 4 sessions for 1 month. The sessions have a duration of 45 minutes. Evaluations are performed at the beginning of treatment, at the end of treatment. Participants also perform strengthening exercises three days a week, a total of 3 sets with 15 repetitions each. Group 1 receives a sham massage of the quadriceps and hamstrings. Group 2 receives a classic massage of the quadriceps and hamstrings. The assessments consist of knee and hip goniometry, lumbar and hamstring flexibility by finger-to-floor testing, and complete the questionnaire Mood Status Profile (POMS), Which evaluates the states of mind.