View clinical trials related to Gait, Frontal.
Filter by:Juvenile Idiopathic Arthritis (JIA) is one of the common chronic diseases in childhood. Problems such as weakness or pain may occur in JIA, especially in the joints and the muscles around the trunk (1). These conditions may lead to abnormal displacement of the center of gravity, deterioration of biomechanics, and muscle imbalance in children with JIA (2, 3). All these situations can lead to scoliosis, which we often encounter in children with JIA. Current studies describing various 3-dimension (3D) exercise methods (SEAS, Schroth, Dobomed, BSPTS, Side-shift, Lyon, etc.) effective on scoliosis (4). However, no study was found in the literature that searching the effects of these exercise methods on gait parameters in children with scoliosis diagnosed JIA.
The investigators are examining how weight distribution affects the way people walk, in terms of joint kinematics, kinetics, and muscle activity. The investigators are measuring these quantities while people walk while wearing a weighted belt. The investigators distribute the weights and walk for specified periods. They hypothesize that greater weight will have a greater effect on walking.
The patterns of reflex locomotion described by Vojta contain all the basic patterns necessary for gait, which can be observed as partial patterns during normal postural ontogenesis in the first year of life. These patterns are triggered throughout life regardless of age, so they can be activated both in healthy subjects and in the presence of neurological pathology in adult patients.
Total hip replacement (THR) is being considered as one of the most effective medical procedures. Since its introduction, there was a worldwide debate over proper implant selection in terms of size, bearing type and shape. The diameter of used femoral heads components grew throughout the years - from 22 mm in the 1960s to 32 mm in the 2000s, which is the most commonly used size nowadays. In recent years there was a visible use of large femoral heads (>=36mm) in several registers. In the USA there was a significant grow in use of this heads rising from 1% in early 200s to even 58% in 2009. There is a strong evidence data and many researchers concerning range of movement, risk of dislocation, functional results, pain and prosthesis wear depending of femoral head size. In terms of gait characteristics there are several deviations reported concerning both patients with hip osteoarthritis (OA) and following THR. There is a lack of literature concerning influence of used implants on gait parameters and whether this goal of the surgery can be achieved. The aim of this study was to assess potential differences of lower limb biomechanics during gait in patients following total hip replacement surgery depending on femoral head diameter and compare them to the normal gait of healthy volunteers. As a secondary outcome authors wanted to inspect correlation between gait parameters and patient-reported outcome.
Ostearthritis is a great source of pain. In symptomatic hip the pain can lead the major disability and poor quality of life. Understand the musculoskeletal factores can lead to a better clinical management. The muscle strenghening of posterolateral complexo of hip is a important consideration. General Objective: Perform a Kinetic analysis 2D using na anterior wedge. Specific objective: Analyze the influence of posterolateral hip complex. Controlled clinical trial, composed by 30 individuals with and without osteoarthritis of hip e will be used a tools; Analogic Visual Scale, manual dynamometry to analyze force and kinetic analyze of gait through of Myovídeo analysis software.
The purpose of this study is to investigate whether speed-dependent measures of gait can be identified in patients with neurological conditions that affect gait, particularly in subjects with parkinsonian disorders.