View clinical trials related to Balance.
Filter by:This study is designed to investigate the effect of adding trunk and upper extremity exercises in traditional and mobile game formats to the Otago exercise program on balance performance, fall risk, and fear in older adults. A randomized controlled, cross-sectional, single-blind (evaluator) study will be conducted with 36 older adults aged 65 and older enrolled at Muğla Sıtkı Koçman University (MSKÜ) Elderly Studies Application and Research Center. Participants will be divided into three randomized groups: control group (12 individuals receiving the Otago exercise program), study group 1 (12 individuals receiving additional trunk and upper extremity exercises with traditional methods added to the Otago exercise program), and study group 2 (12 individuals receiving additional trunk and upper extremity exercises with mobile game method added to the Otago exercise program). Participant demographics informations will be recorded in Form 1. Participants' cognitive functions , levels of independence in activities of daily living, fall risk , and fear of falling will be evaluated. Balance performance will be assessed using the Mini Balance Evaluation Systems Test (Mini-BESTest), portable computerized kinetic balance measurement (SportKAT 650-TS), "5 Times Sit-to-Stand" and "Four-Stage Balance Test" from the Otago Exercise Program. Participants' body sway will be assessed simultaneously with the second part of the Mini-BESTest using a mobile application. All assessments will be conducted by a researcher blinded to the exercises, both before and after the exercises, in a one-on-one face-to-face setting. In the exercise protocol, a personalized, home-based, 30-minute Otago exercise program consisting of strength, balance, and walking exercises performed three times a week will be implemented for 8 weeks with home visits and telerehabilitation sessions (via Videoconferencing) under the supervision of the responsible researcher. In addition to the Otago exercise program, trunk and upper extremity exercises (totaling 45 minutes) will be implemented in study group 1 using traditional methods and in study group 2 using the mobile game method. Telerehabilitation sessions will be conducted via an Android-based tablet if the study is supported by Tübitak 1002 A Rapid Support Module. Individual smartphones of participants will be used if the study is not supported. All questionnaires, scales, and tests used in the initial assessments will be repeated at the end of the 8-week exercise protocol for all participants.
This study was planned to examine the relationship between trunk position sense and muscle activation, balance and quality of life in individuals with transtibial amputation. Individuals with unilateral transtibial amputation who have been using prostheses for at least 1 year and volunteered to participate in the study, as well as healthy individuals with similar demographic characteristics will be included in the study. The number of cases considered to be included in the study will be obtained from the statistical analysis of the results of the pilot study to be conducted with 5 individuals, since there is no study on the subject. The power of the study will be determined as 0.80. After determining the number of individuals to be included in the study group, a control group will be formed with the same number of healthy individuals. The study will be terminated when the determined total number of participants is reached. Body position sense, trunk muscle activation, static and dynamic balance performances and quality of life of all individuals will be evaluated. Body position sense of individuals with "Dualer IQ Pro Digital Inclinometer" device, trunk muscle activation with "Delsys Trigno IM wireless surface electromyography (sEMG) system", balance with "Bertec balance platform", balance and functional mobility with "Berg Balance Scale (BDI) ", "Timed Up and Go Test (SKYT)" and "Modified Star Excursion Test (SEBT)" and quality of life will be evaluated with "Trinity Amputation and Prosthesis Experience Scale (TAPES)". As a result of our study, investigators think that it will contribute to the current scientific knowledge about the somatosensory and biomechanical mechanisms underlying the abnormalities that occur in the trunk after transtibial amputation, to determine whether the trunk position sense of individuals with transtibial amputation is affected or not, and to determine the relationship between trunk position sense and muscle activation, balance and quality of life.
Stroke is defined as a neurological disorder attributed to acute focal damage of the central nervous system from a vascular cause, including cerebral infarction, intracerebral haemorrhage and subarachnoid haemorrhage. The World Health Organisation defines stroke as a focal and sometimes global impairment of cerebral function that lasts longer than 24 hours or ends in death, develops rapidly, has no demonstrable cause other than a vascular cause. Evaluation of muscle strength and balance ability of affected patients is critical for the recovery of lower extremity motor functions. Proprioception encompasses various sensory perception modalities such as force, effort, movement and limb position. Impairment of sensory function in patients with haemiplegia can hinder the ability of muscles to recover during walking. Accurate and effective assessment of gait and balance functions and their subsequent improvement is one of the primary goals of stroke rehabilitation programmes. Studies comparing the effects of lower extremity functionality and knee joint position sense on balance and falls are available in various versions in the literature. However, there is no study in which 'Restorative Therapies RT300 leg/arm/cor' device was used to measure functionality, 'Humac Norm Isokinetic Machine' was used to measure knee joint position sense, and 'Tecno Body Prokin Isokinetic Balance System' was used to measure balance in a single simultaneous study. Therefore, the aim of this study was to investigate the relationship between lower limb functionality and knee joint position sense with balance and fall parameters in patients with hemiplegia using various devices.
Cerebral palsy (CP) is defined as a disorder of the developing brain that causes movement disorders and may be associated with other neurologically based disorders. Gait abnormalities are a direct result of damage to the motor areas of the brain and include symptoms such as spasticity, dystonia, weakness, loss of selective muscle control, dependence on primitive reflexes, abnormal muscle and inadequate balance reactions. Walking backwards during activities of daily living is as important as walking forward. Some of these activities are stepping back towards the chair, stepping back when opening the door and pulling the door, reflexively leaning back when suddenly encountering an obstacle or uneven ground. In addition, backward walking is defined as a more complex activity that requires more neuromuscular control, proprioception sense, and protective reflex activation than forward walking. Selective motor control is an essential part of typical human movement, allowing for smooth and discrete control of joint movement. Impaired selective motor control causes abnormal reciprocal muscle activations or involuntary combined movements, leading to difficulties with coordination, balance, walking efficiency, and symmetry. Impaired selective motor control is associated with poor gross motor function and balance control, severe general gait deviations, and decreased walking speed. The aim of this study is to examine the relationship between forward and backward walking and selective motor control, trunk control and balance in children with cerebral palsy.
The investigators will test a new rehabilitation protocol on patients with persistent postural perceptual dizziness (PPPD). The investigators hypothesize that patients with PPPD, in the absence of vestibular deficits, do not benefit from standard vestibular rehabilitation but instead need a rehabilitation that acts on visual and postural stability, through training of saccadic movements in dynamic contexts of cognitive-motor dual-task and rehabilitation of postural stability.
This study is planned to investigate the acute effects of trunk kinesio taping on balance and functional performance in acute stroke patients.