View clinical trials related to Gait Disorders, Neurologic.
Filter by:Glucose transporter deficiency syndrome type 1 (GLUT1DS) is a rare, genetically determined, neurometabolic disorder . It is estimated that about 90% of affected patients present various pathological gait patterns. Ataxic, spastic, ataxo-spastic, or dystonic walking are the main manifestations described to date. The kinematic gait analysis with inertial sensors represents a method that is easily applicable in clinical practice, with possible application in numerous neurological syndromes of the pediatric and adult age. Through the kinematic gait analysis, it will be possible to obtain an accurate characterization of the gait of patients with GLUT1DS. This will allow, in the first place, a better knowledge of locomotor parameters in this rare cohort of patients. Given that kinematic analysis through a wearable sensor is a method that can be easily integrated into daily clinical practice, the data obtained could become prognostic biomarkers and significant outcome measures of the disease (also in relation to possible improvements deriving from treatment with a ketogenic diet or in the context of future pharmacological trials).
This is a prospective observational study looking at gait-cadence in older adults who are scheduled to have major abdominal surgery at the University of Chicago. The objective of the study is to evaluate whether gait-cadence, as measured from a patient's mobile device at-home, can provide an accurate assessment of a patient's functional status prior to major abdominal surgery and identify patients at risk of poor functional outcomes.
Bone and/or joint infections, such as septic arthritis (SA), are rare, but delayed diagnosis or improper treatment can result in irreversible joint destruction. Therefore, early diagnosis and effective treatment are necessary to prevent severe outcomes. Clear protocols for SA rehabilitation are unavailable, and physiotherapy studies are few. Robot training in patients with musculoskeletal diseases, including burns, can reduce pain and improve lower extremity function. Studies on robot training have been conducted in patients with burn injuries. Rebless® (H-ROBOTICS, KOREA) is a knee or ankle robot for range of motion (ROM) and strength training that can operate in passive or active mode in knee or ankle flexion and extension. The patients underwent 30 min of robot training using Rebless® with 30 min conventional therapy, 5 days a week for 8 weeks. This study aims to confirm the clinical effect after 8 weeks of robotic treatment for patients diagnosed with septic arthritis.
Robot-assisted gait training has been effective in several diseases. Nevertheless, evidence supporting the efficacy of such training in burn patients remains insufficient. This report aimed to evaluate the effect of robot-assisted gait training in burn patients with spinal cord injuries caused by electrical trauma. We will report a case of two patients who underwent 30 min of robot-assisted gait training using SUBAR® (Cretem, Korea) with 30 min of conventional physiotherapy, 5 days a week for 12 weeks.
This is an experimental, observational, prospective study designed to develop medical knowledge. The primary objective of the study is to analyze the weight bearing of the hemiplegic side according to the different areas of interest during the practice of table tennis. This study is part of a usual framework of management of post-stroke hemiplegic patients with an additional passage to the movement laboratory to collect additional data collection, via the use of force plateforms, considered here as non-interventional. The passage to the movement laboratory consists in the practice of a table tennis session including three game situations. Before to the table tennis session, the subject placed on the force plateforms, performs a spontaneous bipodal station followed by a maximum voluntary support transfer on the hemiplegic limb. During the table tennis session, the subject is filmed and his load on the hemiplegic side during the game situations is evaluated using the force platforms. In addition of the table tennis session three questionnaires are administered to the patient in order to know : - The static and dynamic balance in order to identify persons at risk of falling: Berg Balance and Evaluation Scale - The degree of autonomy of the patient: Modified Rankin Score - The Stroke severity: NIHSS score
Multiple sclerosis (MS) is the most common central nervous system inflammatory demyelinating disease which causes motor and sensory deficits, cerebellar symptoms, and balance problems. Due to these symptoms, gait abnormalities are common in MS, even in patients with low degrees of impairment. The upper limb has an important role on postural control and gait stability. Affected arm swing movement and asymmetry during gait are common in neurological disorders such as Parkinson's disease (PD) even in early stages of the disease and arm swing treatment has been acknowledged to enhance gait and normalize arm swing in individuals with PD. The presence of arm swing changes during walking in MS patients, similar to PD, especially in the early period, may be an indicator of balance problems, this was, however, not investigated as such. Therefore, the aim of the current study is to assess the arm swing during gait in people with MS shortly after their diagnosis in early MS.
This observational study's main goal is to learn more about the neural mechanisms during movement in Parkinson's disease. Furthermore, it aims to inspire personalised treatment options. Participants will undergo a protocol that involves walking and gait-related motor tasks, such as seated stepping. During the protocol, brain activity will be recorded.
The purpose of the study is to determine the effects of a novel, personalized, tactile cueing system on gait automaticity. The researchers hypothesized that step-synchronized tactile cueing will reduce prefrontal cortex activity (improve automaticity) and improve gait variability (as well as gait speed). The researchers predict that improved automaticity with improved gait variability will be associated with increased activation of other than prefrontal cortical areas while walking (i.e., sensory-motor). To determine the effects of cueing, 60 participants with PD from will be randomized into one, of two, cueing interventions: 1) personalized, step-synchronized tactile cueing and 2) tactile cueing at fixed intervals as an active control group. In addition, the researchers will explore the feasibility and potential benefits of independent use of tactile cueing during a week in daily life for a future clinical trial. This project will characterize the cortical correlates of gait automaticity, the changes in gait automaticity with cueing in people with Parkinson's Disease, and how these changes translate to improvement in gait and turning. The long-term goal is to unravel the mechanisms of impaired gait automaticity in Parkinson's Disease.
The purpose of this study is to know the effectiveness of different robotic devices for gait rehabilitation in stroke patients
The purpose of the study is to validate the use of smart and widespread instruments to detect kinematic, kinetic and spatio-temporal parameters in gait and postural analysis in hemiparetic and healthy individuals. Device as single Microsoft sensor Kinect v2, wearable sensorized clothing and/or smartphone-type devices will be used; it is also planned to analyze and compare such parameters with those obtained through a technique of manual palpatory analysis. Finally the obtained measures will be compared with the corresponding ones obtained with Three-dimensional instrumented gait analysis (3D-GA).