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Balance Control clinical trials

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NCT ID: NCT05750888 Recruiting - Sarcopenia Clinical Trials

Foot Core Exercise Program on Balance Control and Walking in Aged Sarcopenia

Start date: August 30, 2022
Phase: N/A
Study type: Interventional

In modern society with an increasing aging population, recent literature has defined sarcopenia as a significant reduced mass and function of skeletal muscle with physical limitations due to aging. Clinically and experimentally, the foot often plays a crucial role in sensorimotor control and movement performance in standing, walking, and running. Apparently, previous literature has shown that the intrinsic and extrinsic foot muscles have significantly reduced muscle morphology and muscle strength in the elderly compared to that of young healthy controls. How to effectively increase foot muscles using muscle-strengthening exercises will be a crucial issue for further research and clinical intervention in this population. The intrinsic foot muscles (IFM) are the primary local stabilizer to provide static and dynamic stability in the foot, which are part of the active and neural subsystems to constitute the foot core system. The intrinsic foot muscles (IFMs) may play a key role in supporting foot arches (e.g., the medial longitudinal arch, MLA), providing flexibility, stability, shock absorption to the foot, and partially controlling foot pronation. Due to the difficulties in teaching and learning the plantar intrinsic foot muscle (IFM) exercise, the accuracy and follow-up after learning this exercise could be questioned following this exercise program. Physiologically, the effects of integrated exercise intervention may be achieved following more than 4-week intensive exercise intervention at least. How to learn and activate this kind of exercise efficiently and effectively is a key issue for employing these exercise interventions in the elderly with and without sarcopenia. In this project, we will aim to employ the novel intrinsic foot muscle strengthening device using 3-D printing techniques and to examine the feasibility and reliability of the morphology in intrinsic and extrinsic foot muscles and foot posture before and after exercise intervention using sonographic imaging and foot posture index in the elderly with and without sarcopenia; second, we will investigate whether the immediate and persistent increase in balance control and level-walking after this therapeutic exercise with novel 3-D printing foot core exerciser.

NCT ID: NCT02225613 Recruiting - Balance Control Clinical Trials

Spa Rehabilitation After Cruciate Ligament Injury in Sportsmen

Thermasport
Start date: October 2014
Phase: N/A
Study type: Interventional

Knee cruciate ligament injury is a common injury (15 000 per year in France) which concerns young sportsmen. Consequences are limitation in physical and sporting activities and at work. Main objective: to compare water and traditional rehabilitation after cruciate ligament injury reconstruction in terms of kinematics of recovery and of proprioceptive abilities development.

NCT ID: NCT02142946 Recruiting - Balance Control Clinical Trials

Quantified Balance Measures During Stance and Gait: Multiple Sclerosis Patients. A Longitudinal Clinical Study

MS-Gait
Start date: April 1, 2018
Phase:
Study type: Observational

The primary objective of this project is to track changes over time in balance control parameters measured during stance and gait for different groups of multiple sclerosis (MS) patients. Our primary goal is to determine whether these changes in balance control over time predict transitions in MS progression to a more disease affected state, and are different from changes over time for patients with balance deficits due to vestibular sensory disorders. A part of this goal is also to determine whether these changes in balance control are correlated with changes in patients' self-reported deficits and are similar to those changes in balance control of patients with peripheral vestibular loss. The secondary objective is to determine for multiple sclerosis (MS) patients the relationship of their balance parameters to different gait speeds, in order to advise them on, and promote via feedback, safe walking speeds. Fulfilling the first of our objectives would lead to better tracking of MS disease changes over time, earlier quantification of onset of symptoms suggesting a worsening of disease status, and, we assume, greater patient satisfaction knowing that quantification of symptoms fits subjective feelings of balance deficits during stance and gait. Achieving the second objective would lead to improved balance during gait. We aim to carry out these objectives using equipment (SwayStar) which we have proven is sensitive to MS induced balance deficits {2}, but costs far less to operate and maintain than previously used quantification tools. We aim to investigate the balance deficits during gait in different MS patient groups using a multimodal approach with a SwayStar system (analysis of balance during stance and gait in terms of trunk-pelvis movements near the centre of mass) and patient questionnaires.