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Coordination Lack clinical trials

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NCT ID: NCT05896722 Completed - Muscle Weakness Clinical Trials

"Core" Muscle Endurance, Upper Extremity Muscle Strength, Grip Strength, and Hand-eye Coordination in Generalized Joint Hypermobility

Start date: April 25, 2023
Phase:
Study type: Observational [Patient Registry]

Every individual with joint hypermobility may not apply to a health institution because they do not have a complaint that will affect their daily life. Although hypermobility is a common clinical entity in the society, this issue has not been fully understood yet. In particular, individuals with GJH are either neglected in physiotherapy and rehabilitation evaluations and practices, or they encounter an incomplete assessment and physiotherapy practices. In this study, in order to better understand the effect of GJH on "core" muscle endurance, upper extremity strength, grip strength and coordination, we will include the individuals identified GJH among the university students (hypermobility severity ≥4/9 according to Beighton diagnostic criteria) as study group and the healthy peers as control group. We believe the results we will obtain at the end of our study will make a contribution to the literature in terms of revealing the role of "core" muscle endurance and upper extremity strength, grip strength and coordination in the evaluation and rehabilitation of individuals with GJH. In addition, it will contribute to the inclusion of individuals with GJH who are professional athletes, dancers or musicians in a more comprehensive evaluation program and the creation of physiotherapy and rehabilitation programs. According to the information we have obtained from the literature, it is a fact that hypermobility can increase the susceptibility to musculoskeletal system diseases. For this reason, early solutions to problems can be provided by evaluating hypermobility in patients who apply to health institutions with various musculoskeletal complaints, raising awareness of patients with hypermobility to prevent injuries caused by hypermobility, and strengthening muscles.

NCT ID: NCT05233254 Completed - Muscle Weakness Clinical Trials

The Effect of Abdominal Hallowing on Coactivation of Lower Extremity Muscles in Patients With Lumbal Disc Herniation

Start date: March 1, 2022
Phase: N/A
Study type: Interventional

Intervertebral disc degenerations are the most important cause of chronic low back pain resulting in job loss and associated socio-economic problems in developed and developing industrial countries 1. More than 40% of the Turkish population has experienced low back pain at least once in their life 2. Intervertebral disc degenerations Lumbal Disc Herniation (LDH), which is frequently represented, can cause motor and sensory losses in the lower extremity by compressing the spinal nerves. Lumbar disc surgery procedure is inevitable in case of advanced functional losses in the related sensory dermatomes and muscles after LDH. Lumbal disc surgeries are performed for the purpose of decompression of nerve pressures on nerves due to advanced disc herniation. they suggest 4. One of the most common LDH problems in the community is low foot problems due to weakness of the tibialis anterior muscle, which occurs due to L4-L5 disc herniation, and the accompanying functional disorders. In disc herniations at this level, the activation of the tibialis anterior muscle, which is compressed by the nerve root, decreases compared to the medial gastrocnemius muscle, where it works as an antagonist, and this leads to functional limitations, especially in gait and balance activities. Spinal stabilization exercises are a concept that emerged from the idea that exercise is important for the provision and preservation of functionality of people with low back and back pain due to LDH. According to this exercise approach, muscles are of great importance in providing lumbar region stability. These muscles are classified as general (global) stabilizing muscles, which are dynamic, phasic, and power-producing muscles, and regional (local) stabilizing muscles, which are postural, tonic, and stabilizer muscles. The main muscles responsible for spine stabilization are multifidus, transversus abdominus and pelvic floor muscles 6. It is argued that increased lumbo-pelvic motor control thanks to spine stabilization facilitates lower extremity activities, especially flexion and extension movements in the sagittal plane. Patients with LDH who increase their motor strength can use lower extremity movements more functionally. The aim of this study was to (1) determine the activation rates of the tibialis anterior and medial gastrocnemius muscles during different functional activities in the lower extremities affected and unaffected by LDH, (2) to compare the rates of the affected extremity to the rates of the healthy extremity during coactivation of the transversus abdominus and multifidus muscles (spinal stabilization basic exercise). to determine whether it is close or not. According to the hypothesis of this study, the researchers thought that the functional activities performed together with the activation of the transversus abdominus and multifidus muscles would show coactivation behaviors at a rate closer to the healthy extremity.