View clinical trials related to Movement Disorders.
Filter by:Aim: Studies in which the results of the screening test evaluating swallowing skills in acute stroke patients are evaluated together with other components that may affect swallowing function are limited. The aim of this study is to determine which factors are associated with swallowing abilities in patients with acute stroke, including lesion location, cognitive level, clinical features, risk factors for stroke, and level of functionality. Methods: The 97 acute stroke patients included in the study were grouped in terms of lesion type, affected side, and risk factors for stroke. Turkish MMASA (TR-MMASA) was used to evaluate the swallowing ability of the patients. Additionally, Standardized Mini Mental Test (SMMT) and Modified Rankin Scale (MRS) were applied to evaluate cognition level and functionality, respectively.
The goal of this clinical trial is to compare the clinical efficacy of electroacupuncture and manual acupuncture in stimulating the scalp motor area for treating post-stroke wrist dyskinesia and its influence on the function of wrist movement-related active muscles. The main question it aims to answer is: which method of stimulating the scalp motor area is more effective in the recovery of wrist motor function after stroke? Participants will be given routine Western medicine treatment and acupuncture treatment on the hemiplegic side. In the manual acupuncture group, participants will be needled in the scalp motor area on the lesion side. The same acupoint was selected as the manual acupuncture group in the electroacupuncture group. The score of Chinese Stroke Scale (CSS), the score of the upper limb of the Barthel Index (BI), the active range of motion (AROM) of wrist joint, and the surface electromyography (sEMG) was used to measure the root mean square (RMS) of extensor carpi radialis longus, extensor digitorum, flexor carpi radialis and flexor carpi ulnaris on the hemiplegic side of the patients before and after the 3-week treatment period, respectively compare the clinical efficacy of the two groups.
''This study aims to determine the relationship between functional movement screen (FMS), core stabilization and Y balance test. The study will include evaluations on 30 handball players and 30 sedentary individuals.'' Functional movement analysis is a biomechanical screening and evaluation system to identify limitations and asymmetries in 7 basic movements. This system reveals the kinetic chain interaction between mobility and stability required for basic performance. Unlike conventional assessment methods, FHA focuses on the efficiency and quality of the movement pattern, not on the number of repetitions or weight lifted. The main aim of the study was to reveal the relationship between functional movement screen and core endurance and Y balance test evaluations in handball players with objective data. Functional movement is the general name of the activities performed by individuals for function and the movements performed by individuals for function are examined with analysis methods. In an effective analysis, if people do not have appropriate stability and mobility, it is determined from which muscle-muscle group or joint the problem originates. Analyses play a role in determining which of the stabilization, mobilization and flexibility factors are problematic at which stage of the function. In addition, these methods are effective in preventing possible injuries while helping to improve balance, strength and power characteristics of individuals. Core stabilization problems cause significant posture and stabilization problems. These problems are reflected in functional movements. Core stabilization problems are thought to have negative effects on functional movement analysis scores. Active athletes with this problem will be more affected. This study also aimed to observe the differences between athletes and sedentary individuals. Studies defined the core as the part of the body in the musculoskeletal system consisting of the proximal lower extremities, abdominal structures, hips, pelvis and spine and stated that the core muscles are composed of the trunk and pelvis muscles. It is argued that trunk and pelvis stabilization is essential for all movements of the extremities. The transversus abdominis and multifidus work in cocontraction and control excessive anterior pelvic tilt, which is known to be associated with femoral internal rotation and adduction. The musculature of the core is referred to as the muscular corset over the trunk and spine that stabilizes the body with or without limb movement. The strength and stabilization of the core affects the fitness and physical fitness of athletes. Core exercises should be included in exercise programs planned to improve athletic performance. Core endurance tests have been defined to reveal the relationship between core stabilization and performance. Lateral bridge test and trunk flexor test are the preferred core endurance tests in this study. The Y balance test is a dynamic test that requires strength, flexibility, core control and proprioception in a single-legged stance. Functional movement analysis, core stabilization tests and Y balance test are assessment scales that provide objective data on stabilization, postural alignment and spinal alignment. It is envisaged that these three assessment parameters will support each other after the study. Functional movements are widely used during both daily and sports activities. Core stabilization and dynamic balance are the factors that determine the quality of functional movements. These movements become more important for athletes as they affect their sporting success. Athletes need a good evaluation to ensure and maintain success. Since handball is defined as a sport that requires a lot of effort, the risks increase and it becomes clear that the evaluation should be done with a holistic approach.Injuries in handball develop due to multifactors.Biomechanical, kinesthetic and functional losses in players should be determined to prevent injuries.Functional movement analysis, core stabilization, Y balance test will give us detailed information about posture, limb alignment and asymmetry, spinal smoothness, dynamic balance and will give us the chance to analyze whether there is a correlation between these tests.
The importance of physical activity for individuals with movement disorders, including Parkinson disease and Essential tremor, has been established. Barriers including patient engagement continue to limit effectiveness. Golf requires skills found challenging to individuals with movement disorders. This study seeks to assess the feasibility and effectiveness of an outpatient-based rehabilitation program incorporating golf skills and activities on functional measures and quality of life.
Randomized-clinical trial of multidisciplinary approach versus psychoeducation in patients with functional movement disorders: impact to their quality of life and their caregivers' quality of life. Patients with functional movement disorders are randomized in two arms of a one-month treatment (physiotherapy + cognitive-behavioral therapy versus psychoeducational as sham intervention) with a 3-month and 5-month follow-up where the investigators will measure the change in the patients' and caregivers' quality of life. Movement disorders specialists will review the severity of symptoms as blinded raters in the 3th-month and 5th-month follow-up.
Postural instability, freezing-of-gait (FOG), and falls are among the greatest unmet needs in Parkinson disease (PD). FOG eventually affects more than half of people with PD, and is notoriously difficult to treat pharmacologically or via deep brain stimulation. Visual cues do improve gait freezing, but their efficacy and adoption is limited because they are not practical to use in all real-world situations. There is a need for a cueing technique that is on-demand and discreet - only perceptible to the patient. Fortunately, recent technological advances in augmented-reality (AR) enable such an approach. In this study, state-of-the-art AR glasses will be used to project digital cues that are only visible to the wearer, to determine if they can improve FOG. 36 individuals with PD and FOG will be recruited to perform an obstacle-course gait task under six cue conditions: no cue, conventional cue, constant-on AR, patient-hand-triggered AR (turns on when patient clicks button), patient-eye-triggered AR (turns on when looking down), and examiner-triggered AR. The AR cue is a set of images that appear on the floor at a patient's feet, mimicking floor lines. Gait performance will be captured on video and via body-worn wireless sensors that detect how each limb is moving. The investigators will determine whether individuals are cue-able with conventional visual cues, whether intermittent cues outperform constant-on cues, and whether cues triggered by an examiner outperform cues triggered by patients themselves.
The purpose of this study is to determine which method is most effective for teaching the kettlebell swing: verbal cueing, physical constraints, or a combination of the two.
The research was carried out to determine the effects of tactile stimulation, music listening and virtual reality video watched during the non-stress test on maternal anxiety level and fetal parameters.
One of the most disabling features of Parkinson's disease (PD) is represented by the gait disturbances. Some systematic reviews and meta-analysis have showed that conventional physical therapy might improve gait as well as balance, mobility and functional reach in subjects affected by PD. In addition, several studies and reviews support the effectiveness of external sensory cueing, by means of rhythmic auditory or visual cues, in improving kinematic parameters of gait (gait cadence, stride length, velocity, and postural stability) and the functional performance in people with PD, at least in the short-term. Specifically, cueing refers to the use of temporal or spatial stimuli to regulate movement and facilitate functional performance for individual with motor dysfunction. Basal ganglia act as internal triggers of neuronal activity in the supplementary motor area for well-learned, automatic movement sequences, such as locomotion. This mechanism is damaged in individuals with PD, and external cues may act as an attention resource to compensate the deficient internal rhythm due to basal ganglia dysfunction. Subjects can be coached in concentrating their attention on gait by specific self-prompting instructions or by cues stimulation or a combination of these. Movements generated by the presence of external sensory cues are prompted to use alternative (cortical, parieto-premotor) neuronal pathways which have not been damaged by neuronal degeneration of PD, bypassing the automatic basal ganglia network. Recent studies have provided preliminary evidence that visual cueing based on laser shoes and laser canes may reduce freezing, an established risk for falls, with improvement that can be observed for a variable period of time after rehabilitative intervention. In light of the evidence of effectiveness of cueing, developing wearable devices able to generate cues that match with step and that are effective, easy to use and low cost, would be challenging but very appropriate. The aim of this study was to investigate the non-inferiority of a wearable device producing visual cues (Q-Walk system, QUICKLYPRO s.r.l., Bergamo, Italy) in order to improve gait and balance PD patients, compared to a conventional training (stripes on the floor).
Deep brain stimulation (DBS) has been approved for treatment of dystonia by the FDA under a humanitarian device exemption (HDE) status. DBS has been shown to be very effective in the treatment of a variety of diseases such as Parkinson's disease and essential tremor. It has been widely used for the treatment of primary and secondary dystonia as well. Surgery involves the placement of the DBS electrode in one or two of the deep nuclei constituting the basal ganglia. A subcutaneous thoracic or abdominal implantable pulse generator is placed and connected to the intracranial electrode. Pulsatile stimulation of the deep brain nuclei has been shown to result in significant improvement in many patients, including restoration of the ability to walk or make voluntary arm movements. A major difficulty with DBS is the accurate placement of the electrode. Adult patients are usually awakened during surgery and micro electrode recordings are used to determine the optimal electrode effectiveness and monitor for side effects. This requires the patient to be awake and cooperate, while on the operating table. When DBS is performed in children, such testing is often not possible because the children are scared or not cooperative when awakened during surgery, the procedure is most often done for Dystonia, which does not respond immediately, and dystonia may cause involuntary movements that could be dangerous in the operating room while the child's brain is exposed. As part of the routine clinical evaluation of target location in the operating room or Neuromodulation Unit, stimulation is performed using the deep brain or depth electrodes, typically at frequencies between 60hz and 185hz. For this research study, stimulation will occur at much lower frequencies, between 9hz and 20hz in order to be able to measure how electrical activity from the deep electrodes spreads to other electrodes or the scalp. As part of the research, peripheral nerves will also be stimulated at the wrist and knee at frequencies of 20hz to 150hz in order to measure the transmission of peripheral nerve stimulation to these areas of the brain. The investigators hope these additional studies will allow discovery for mechanisms that lead to movement disorders including dystonia, and that knowledge of these mechanisms will allow the investigators to develop new, safer, and more effective treatments in the future.