View clinical trials related to Balance; Distorted.
Filter by:Pesplanus, commonly known as 'flatfoot,' is a common pathomechanical condition characterized by a lowered medial longitudinal arch (MLA) and exaggerated pronation. There are two general types of flatfoot : flexible flatfoot and rigid flatfoot Flexible flatfoot is the most common form of flat foot. In adult population, it was reported that prevalence of flexible flatfeet is 13.6%. It has been proved that there is static and dynamic balance deficit in the participants with flatfeet. The extrinsic muscles as posterior tibialis (TP) ) and intrinsic muscles as abductor hallucis (AbdH) act as active subsystem support for the MLA during weight-bearing, standing, and walking. Abnormal alignment of the foot may cause stretch weakness of the foot muscles by elongating beyond the neutral physiological resting position. leading to musculoskeletal dysfunction and overuse injuries. Insoles can assist in maintaining normal alignment of the foot, improve balance as it supports MLA which is essential to stabilize postural sway, they widen the contact surface of the sole of the foot improving stability.
The aim of this study was to evaluate the effectiveness of static posturography-assisted biofeedback exercises in PD-related balance disorder.
The research will make it possible to assess patients who recovered from COVID-19 for the incidence of neurological problems (impaired balance, gait, coordination, concentration and attention), and changes in the quality of life, physical activity, social contacts and education.
Activities-specific Balance Confidence (ABC) scale is a well-known tool to evaluate functional balance. Diabetic patients suffer more often from balance disorders than the rest of the population. The aim is to investigate the validity of the Turkish version of ABC short form in patients with diabetes mellitus (DM).
Strokes are neurological events that can lead to devastating physical and cognitive deficits, such as the inability to ambulate, impaired balance regulation, and loss of coordination. Due to the physical and cognitive deficits experienced following a stroke, many require admission to an inpatient rehabilitation facility to maximize their independence before returning to the home setting. The ability to walk, stand, climb stairs, and other mobility-related functional tasks, are critical components of achieving this functional independence. However, it is often difficult for post-stroke patients with balance impairments to safely practice balance and gait training without putting both therapists and patients at risk for injury. Incorporating robotic technologies to neurological rehabilitation can play a critical role in delivering safe and effective gait and balance therapy. Body-weight support systems (BWSSs) unload paretic lower limbs, patients with gait impairments can practice a higher repetition of steps in a safe, controlled manner. As participants perform gait training, these systems support the participant's body-weight, permitting those with excessive weakness and poor coordination, to ambulate and perform more intensive therapy sessions sooner in their recovery, with minimal risk injurious fall. In addition to BWSSs, balance perturbation systems, which purposefully unbalance participants so to rehabilitate their postural control, have been used to improve gait and balance-control after stroke, or other age and disease related balance impairments. The goal of this study was to evaluate the efficacy of a recently developed, not yet reported, balance perturbation module for the ZeroG BWSS. This new balance perturbation training module is directly integrated into the ZeroG BWSS and allows for the direct induction of safe lateral, anterior, and/or posterior perturbations via a Wi-Fi-enabled handheld device. During both stationary and ambulatory activities, this system was used unbalance participants in order to train their balance-control and balance-reactions. The purpose of this pilot study was to determine if this newly developed BWSS balance perturbation system more effectively rehabilitates participant gait and balance after stroke than the standard BWSS protocol without perturbations.
The mechanism of maintaining balance is a complex phenomenon, involving numerous systems of human body. High-energy trauma resulting in acetabular fracture damages some of the elements composing this delicate mechanism, potentially increasing the risk of falls in patients. There have not been any studies so far on balance levels in patients after surgical treatment of acetabular fractures. Questions/purposes 1. Do balance disorders occur in patients after ORIF of acetabular fractures? 2. Do surgical approach and fracture pattern influence balance level of patients? 3. Should therapy programs include certain stabilometric parameters adequate especially for this type of injury?
This research study is being done to evaluate the effectiveness of using the sharpened Romberg test to screen for impaired postural control in patients with impaired or altered breathing patterns.
In Turkey, 63% of geriatric people who make up approximately 8.3% of the entire population live in their own living environment, 36% live with their children and 1% live in nursing homes. The number of individuals living in nursing homes is increasing as the nuclear family structure becomes more evident. National Social Security programs give special importance to nursing home restructuring and Social Health Policy aims to increase practices related to "aging in place" and "Active and Healthy Ageing" for geriatric individuals. In this context, projects aimed at preventing secondary negative symptoms in aging and supporting the quality aging process are outstanding. The aim of this study is to assess and compare cognitive functions, balance, musculoskeletal pain severity, psychological state, participation level in activities of daily living, and quality of life of geriatric individuals living different environments.
COPD is a progressive disease associated with systemic inflammation, with many extrapulmonary outcomes such as cognitive impairment. Most of the daily activities involve doing several tasks at the same time, such as walking while talking or avoiding obstacles.
The effects of balanced posture and postural changes have been evaluated in specific populations with different factors that can affect body postures and balance, such as age, musculoskeletal system, and other metabolic diseases. Studies on postural kyphosis and balance involvement are very few in the literature especially in the health population. Of the few studies that have evaluated kyphosis and balance, most are limited by small sample size and the exclusion of men. Many have focused primarily on the geriatric population. The determination that the effect of thoracic kyphosis posture on trunk biomechanical alignment may be related to balance may contribute to new treatment recommendations in this area. The aim of this study is to investigate whether the thoracic kyphosis posture has an effect on static balance.