View clinical trials related to Motor Disorders.
Filter by:Functional motor disorders (FMDs) are a broad spectrum of functional neurological disorders, including abnormal gait/balance disorders. Patients experience high degrees of disability and distress, equivalent to those suffering from degenerative neurological diseases. Rehabilitation is essential in their management. However, the current systems of rehabilitation delivery face two main challenges. Patients are not receiving the amount and kind of evidence-based rehabilitation they need due to the lack of rehabilitation professionals and experts in the field. The rehabilitation setting is not adequate for the long-term management and monitoring of these patients. Digital medicine is a new field that means "using digital tools to upgrade the practice of medicine to one that is high-definition and far more individualized." It can upgrade rehabilitation practice, addressing the existing critical components towards marked efficiency and productivity. Digital telerehabilitation will increase the accessibility to personalized rehabilitation by expert professionals placing tools to monitor the patient's health by themselves. The increasing development and availability of portable and wearable technologies are rapidly expanding the field of technology-based objective measures (TOMs) in neurological disorders. However, substantial challenges remain in (1) recognizing TOMs relevant to patients and clinicians to provide accurate, objective, and real-time assessment of gait and activity in a real-world setting and (2) their integration into telerehabilitation systems towards a digital rehabilitation transition. This feasibility study provides preliminary data on the integration of a real-time gait and activity analysis by wearable devices in the real world with a digital platform to improve the diagnosis, monitoring, and rehabilitation of patients with FMDs.
Functionality and motor skills during activities of daily living have progressively gained importance as tools for classification, assessment and research of neuromotor disorders and the treatment methodology according to Dr. Vojta or Reflex Locomotion follows this criterion in the clinical field. Vojta therapy is a commonly extended tool in the field of pediatric rehabilitation. This methodology acts on the ontogenic postural function and automatic postural control, on which different environmental aspects will later act. It is not a functional training, to avoid the voluntary movement available according to the pathology by means of compensations. Vojta therapy would be the key to unlock the development of gross motor function, later used in the movement of daily life activities, including other therapies such as conventional physiotherapy, sensory stimulation, occupational therapy, etc. This study aims to demonstrate that there are changes in the motor development of children with cerebral palsy with the application of Vojta Therapy.
The goal of this clinical trial is to investigate the clinical efficacy of repetitive transcranial magnetic stimulation in the treatment of achalasia in patients diagnosed with achalasia by comprehensive evaluation of clinical symptoms, HREM, and barium meal examination, optimize rTMS treatment parameters, and provide an effective and noninvasive new treatment strategy for achalasia. The main questions it aims to answer are: 1. To investigate the clinical efficacy of individualized treatment of achalasia with optical 3D navigation repetitive transcranial magnetic stimulation. 2. Optimize rTMS parameters to achieve the best clinical treatment. Participants will need to fill out the Eckardt score scale and SF-36 quality of life scale, undergo cranial T1 structural magnetic resonance for functional connectivity analysis, and select the brain region with the strongest positive functional connectivity to the DMV as the rTMS target. All patients were randomly divided into four groups: sham-rTMS group, 5Hz-rTMS group, 10Hz-rTMS group, and 30Hz-rTMS group, and each group received acute and chronic stimulation, respectively. In the acute stimulation stage, patients only need to do rTMS once, and HREM and HRV detection are given before and after rTMS (stimulation for 1s, interval for 4s, 10 pulses per second, receiving a total of 3000 pulses); in the chronic stimulation stage, patients receive 25 minutes of rTMS actual stimulation or sham stimulation each time, lasting for 20 times, which is completed within 30 days, and the actual stimulation parameters are the same as those of acute stimulation, and the sham stimulation coil is consistent with the appearance and sound of proper stimulation, but there is no substantial stimulation. High-definition esophageal manometry, timed barium meal, heart rate coefficient of variation, and serum neurotransmitters were performed before and after chronic stimulation. Finally, a weekly telephone follow-up was performed for 12 weeks, including Eckardt score and SF-36 quality of life scale.
This study is a retrospective validation study of deidentified Clinical Decision Support (CDS) recommendations generated by the Linus Health Core Cognitive Evaluation (CCE) for patients who have completed the CCE. Site investigators consist of clinical experts including neurologists and geriatricians in the U.S. After signing the study agreements, the experts will receive batches of anonymized CCE outputs of patients and will rate the appropriateness of each CDS recommendation for each patient based on their review of the CCE results and their clinical judgment and expertise. The experts will also rate the clinical appropriateness of various parts of CDS pathways that form the LH CDS decision tree.
Neuromuscular dysfunction is common in older adults and even more pronounced in neurodegenerative diseases. In Parkinson's disease (PD), a complex set of factors often prevents effective performance of activities of daily living that require intact and simultaneous performance of motor and cognitive tasks. In the current study we aim at employing the Mobile Brain/Body Imaging approach (MoBI) to gain further insides of neuromuscular biomarkers revealing the decrements of older adults with an early PD. The cross-sectional study will be evaluated through the multifactorial mixed-measure design.
This study is a group controlled clinical trial. Parallel study, patients aged 40-70 years, with Parkinson disease. Twelve sessions, three times a week, for 30 minutes, simultaneously to the rehabilitation program. Training will consist of Transcranial Direct Current Stimulation linked dual-task exercises or dual-taks exercises with cognitive training, applied three times a week during four weeks. The investigators will used instruments: dual-task gait speed (Auditory Stroop Task ), executive function (Wisconsin Card Sorting Test , Auditory Stroop Test, Trail Making Test, Verbal Fluency Test and Montreal Cognitive Assessment), and, the objective is to examine task-dependency in enhancing the effects of tDCS-linked rehabilitation training on PD and the relationships between baseline outcomes in responders and non-responders to therapy.
The main purpose of the study is to find out if MBSR (Mindfulness) in addition to occupational therapy, can improve the therapeutic results in stroke-patients and help relatives of stroke patients to improve their quality of life.
Stroke is the second leading cause of death worldwide and the third most common cause of disability. The effects of stroke are variable and may include impairments in motor and sensory systems, emotion and neuropsychological deficits such as a disorder of spatial awareness known as unilateral spatial neglect (USN). Approaches to ameliorate USN could be categorized in interventions as involving either bottom-up or top-down processing. The specific mechanisms underlying these effects on a number of manifestations of the USN syndrome may include the restoration of defective representations of the side of space contralateral to the lesion (contralesional), and of the ability to orient spatial attention contralesionally, through complex patterns of activation of both the damaged right hemisphere, and the contralateral left hemisphere, with differences related to the specific stimulation delivered to the patient. In recent years, increasing cutaneous stimuli through neuromuscular kinesiotaping has been proposed to enhance somatosensory inputs (24) and such as method could have positive effects on USN. The aim of the present study was to assess the effect of KTM applied on the sternocleidomastoid muscle controlateral side of the lesions in improving USN deficits in individuals with stroke patient in sub-acute phase. The hypothesis is that the KTM application could improved cognitive tests for assessing USN, motor deficits and kinesthetic neck sensibility.