View clinical trials related to Balance.
Filter by:The purpose of this study is to gain a further understanding of the effects of EMG-biofeedback balance training and we will be analyzing changes in spinal reflex excitability by responses from the calve muscles and data about your standing balance. The EMG-biofeedback balance training has the potential to improve balance of older adults and prevent future falls and in this study we will learn if it also creates changes in the nervous system. This study aims to 1) determine the effects of a one-month long EMG-biofeedback balance intervention on the H-reflex amplitude, 2) determine whether there is a related behavioural change in the control of balance and 3) determine whether changes in balance and H-reflex amplitude persist for up to two weeks following the end of the balance training intervention.
In this study involving adolescent individuals who play basketball, we will investigate the effect of kinesio taping. Kinesio taping can be applied with appropriate technique and tension to reduce pain, swelling, and muscle spasms, as well as to correct mechanical issues. In this study, researchers will apply kinesio taping to the ankle and knee and thes assess its impact on balance, agility, and jumping performance through various tests. Specifically, researchers will conduct the star balance test for balance, the T-test for agility, and the vertical jump test for jumping performance. researchers plan to carry out this research with 30 participants at the Dev Ataşehir Sports Club to gather the necessary data.
To compare the effects of virtual reality and vestibular exercises on balance, gait, and activities of daily living in older adults.
This study intended to assess the impact of coordination-based exercise interventions on physical fitness, motor competence, and executive function among preschoolers aged 4 to 6 years.
Postural control is an adaptive sensorimotor process involving continuous integration of sensory information from three channels. These; visual, somatosensory (proprioceptive) and vestibular senses. The study will be carried out at Istanbul Medipol University. 30 healthy individuals between the ages of 18-25 will be included. To each individual Anodal-supplementary motor area tDCS, Anodal-cerebellar tDCS, Sham tDCS applications will be cross-applied. tDCS application will take 20 minutes and each individual will receive 3 sessions in total. There will be a 72-hour rest period between sessions. Individuals assessed with Demographic Information Form for demographic information, Wii-Fit and Balance Error Scoring System for Static Balance Evaluation, Star Balance Test and Timed Get Up and Go Test for Dynamic Balance Assessment. The aim of this study is to investigate the effect of transcranial direct current stimulation applied on the supplementary motor area and cerebellum on static and dynamic balance in healthy individuals.
Balance and fall problems are one of the most common geriatric syndromes in the elderly. Falls are one of the leading factors causing mortality in the elderly. One-third of individuals aged sixty-five and over fall once or more every year. When the causes of death in elderly individuals are examined; Accidents come in fifth place, and 2/3 of these accidents occur due to falls. The frequency of falls increases with age in 22% of individuals between the ages of 65-69. This rate is stated as 31% between the ages of seventy-five and seventy-nine, and 40% between the ages of 80-84. Geriatric individuals may be at risk of falling in different situations, often inside and outside the home. Falls generally occur more frequently in indoor areas such as bathrooms, kitchens and bedrooms. In these areas, falls caused by potentially dangerous factors such as slippery floors, carpet edges, and high thresholds are more common. A frequent fall occurs when jumping over an obstacle. Factors such as poor balance, vision problems or reduced muscle strength when overcoming obstacles can increase the risk of falling in this situation. The ability of geriatric individuals to overcome obstacles during daily activities is an important factor determining quality of life. Climbing stairs or crossing high thresholds is an important part of daily living activities and poses a risk of falling. Therefore, determining the stair height threshold and assessing obstacle crossing skills should be considered effective measures. When the literature is examined, clinicians generally prefer simpler functional tests because assessments involving disabilities take a long time to be administered, involve some equipment, and also require training to perform the assessment. In the literature, there is currently a version of the functional tests that is applied only by adding obstacles to the timed get up and go test. Thanks to this test, the ability of geriatric individuals to overcome obstacles can be evaluated and people can be trained with this test. For this reason, we wanted to determine the suitability of the 10-meter walking test, which is frequently used in geriatric individuals, when applied with the addition of an obstacle.
The aim of this study was to investigate the effectiveness of chair-based exercises and cognitive exercises through synchronous telerehabilitation in older adults. Older adults will be divided into two groups (intervention group n=16; control group n=16) .
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.
Joint hypermobility is a clinical condition characterized by joints having a range of motion beyond their normal limits. Joint hypermobility (JH) makes the joints more vulnerable to trauma in individuals with increased joint range of motion, changes in neuromuscular reflexes and decreased joint position sense. Individuals with JH have difficulty in stabilization and end of extension range of motion compared to healthy individuals. Accordingly, findings such as balance problems and an increased risk of falling occur in these patients. Recent evidence suggests that children and adults with JH may be identified with seemingly unrelated, common clinical problems such as chronic fatigue, anxiety, and a range of gastrointestinal functional disorders. The use of internal and external focus in learning motor skills is important in terms of performance and activity. In the external focus of attention (EF), attention is directed to movement and an environmental stimulus. In the internal focus (IF), attention is directed directly to body movements. In revealing positive effects in external focus; Methods such as metaphor, analogy, imaginary objects, mental analogies can be used. Adopting an external focus of attention (focusing on the effects of movements on the object or environment), as opposed to an internal focus of attention (focusing on body movements), has been found to significantly improve performance on a variety of tasks. For example, to improve balance performance, while a patient performs a single-leg balance task on a Bosu ball, the therapist may instruct the patient using an internal focus of attention such as "minimize movement of the feet." However, instructions can also be given externally by changing just one word, such as "minimize Bosu's movement." Additionally, a metaphor (e.g., "stand still as if stuck to Velcro"), analogy ("imagine being on top of a mountain, stay on the mountain!"), an object attached to the body ("keep the tape stuck to the chest still"), or the target of the movement An imaginary object (e.g., straight line) of which a mental image is obtained has been used within external focus instructions.
The study is an RCT study, comparing the proactive and reactive balance training among stroke survivors, the participants will be chronic stroke patients aged between 50- 75 years old, and the participants will receive a balance training program for 8 weeks 3 sessions in the week, the participants will randomly be allocated in two groups proactive group and the reactive group, at the end of the study will compare the different effects between proactive and reactive balance training