View clinical trials related to Gait, Hemiplegic.
Filter by:The aim of this study is to compare the effects of robotic rehabilitation on balance, body control, mobility, spasticity, motor function and depression compared to traditional therapy in individuals with chronic stroke. Patients aged between 40-70 years, who applied to the Private Avrasya Hospital Physical Therapy and Rehabilitation Clinic, were diagnosed with hemiplegia based on an epicrisis medical board report, were included in the study on a voluntary basis, regardless of gender. After recording the demographic and clinical information of the participants, based on the physician's decision, they were included in 2 groups: conventional treatment combined with robotic rehabilitation (n=20) and conventional treatment only (n=20). While one of the groups received traditional treatment, the other group received robotic walking training in addition to conventional treatment. Traditional treatment includes strengthening, balance, range of motion exercises and gait training applied 3 days a week for 4 weeks. Robot-assisted walking training was planned for 20 minutes, 3 days a week. As assessment methods, number of steps, the 10m Walk Test, Brunnstrom motor staging, Functional Ambulation Classification, Fugl Meyer Rating Scale (lower extremity section), Modified Ashworth Scale, Beck Depression Scale, Tinetti Balance and Gait Test, Postural Assessment Scale in Stroke Patients and Stroke Impact Scale were used. Gender, age and duration of illness showed homogeneous distribution between the groups.
The purpose of this quality improvement project was first to monitor usual physical therapy care (types & cardiovascular intensity of interventions and amount of stepping practice provided) and outcomes. Following which educational training and support was provided to treating physical therapists to encourage implementation of evidence-based practices. Specifically, therapists were encouraged to prioritize the practice of walking, particularly at higher cardiovascular intensities during scheduled therapy sessions. Fidelity metrics in the form of chart audits and pedometer-based step counts were utilized to determine compliance with the evidence-based intervention and ultimately investigated for potential effects on patient outcome measures.
The proposed study aims to optimize patient outcomes and treatment intervention using a robotic exoskeleton in adults with cerebrovascular accidents (CVA, stroke) by investigating the following: AIM 1 is to investigate the effect of backward gait training with exoskeleton on motor function. AIM 2 is to investigate the effect of backward gait training with exoskeleton on depression. AIM 3 is to investigate the impact of social determinants of health and depression on patient adherence to physical therapy.
For several years now, it has been demonstrated that the upper limb plays an important role in the function of an efficient and balanced gait pattern in healthy adults. After a stroke, the reduced muscle strength has a clear influence on the gait pattern, but also on the active movement possibilities of the upper limb. However, the role of the upper limb during gait is not sufficiently explored in the literature. The gold standard for motion analysis is a 3D analysis performed with infrared cameras capturing reflective markers during gait. Unfortunately, it is not possible for all people after a stroke to undergo this examination. On the one hand, patients must already have a certain degree of independence with regard to gait. On the other hand, not all centers have access to this expensive accommodation. There are some validated observation scales for people after stroke to describe the gait based on a 2D video image. This method is much more accessible and can be applied by any therapist. However, to date there has been little attention paid to the upper limb in these observation scales. Therefore, analogous to the observation scales for gait, an observation scale for the upper limb during gait was set up. The use of this scale can add value to the rehabilitation of people after a stroke. - The treatment team will receive information about the patient's complete movement pattern. - The arm will be more prominent when setting rehabilitation goals related to gait. This can lead to a positive effect on the gait pattern itself, but also to more attention being paid to the arm, which has a more difficult recovery than the leg after a stroke. The aim of the current study will be - to determine the inter and intra tester reliability of this visual observation scale - to investigate if the results of the visual observation scale correlate to a 3D assessment performed in a subgroup of participants
The loss of sensorial feedback causes gait impairment in hemiparesis. The studies show that proprioceptive impairment of knee is related to falling in these patients. The aim of this study is to investigate the effects of proprioception on balance and gait functions in hemiparetic individuals.
Prediction of walking recovery after stroke can inform patient-centered care and support discharge planning. The accuracy of current prediction models is limited, however, due to small study designs and narrow predictors assessed. The investigators propose a comprehensive evaluation of a novel combination of biomarkers to improve prediction of walking recovery and guide rehabilitation efforts after stroke. These include acute structural brain network disruption (utilizing MRI); blood biomarker levels (e.g., brain-derived neurotrophic factor and vascular endothelial growth factor); and clinical assessments of strength and mobility. The overall study objectives are to assess protocol feasibility and investigate relationships between select biomarkers and walking recovery to provide strong justification for a larger study on predictors of independent walking after stroke. The proposed objectives will be pursued through the following specific aims: 1) Assess feasibility of a larger study and develop methods for telehealth data collection; 2) Establish baseline levels of biomarkers and average change over time; and 3) Elucidate relationships between baseline levels of biomarkers and walking gains across time in persons after stroke. A longitudinal, observational study design will be utilized for this study. Thirty-five persons with acute (≤7 days) stroke will be recruited from the local medical center. Select inclusion criteria include presence of new lower limb weakness and assistance for walking; select exclusion criteria include cerebellar stroke or other neurological disorders such as Parkinson's Disease. Subjects will undergo clinical evaluation at week 1, 4, 9, 12, and 26 weeks post-stroke. MRI scans will occur within 12 days post-stroke and at 12 weeks post-stroke, and blood draws within 1 week, 1 to 2 weeks and at 12 weeks post-stroke. To assess feasibility the investigators will examine study processes, recruitment, resources, study management, and scientific assessment. To examine the role of acute clinical, neuroimaging, and physiological measures in predicting walking recovery, the investigators will examine relationships between these measures and walking outcome at 12-weeks post-stroke. The proposed research is expected to provide strong scientific support for future clinical trials designed to target therapies based on predicted functional potential. Such knowledge has the potential of enhancing mobility gains and patient independence following stroke.
The purpose of this study is to examine the reflex excitability of the rectus femoris in individuals with and without post-stroke Stiff-Knee gait. We use electrical stimulation of the peripheral nerve innervating the rectus femoris for a well-controlled reflex stimulus. We are investigating whether reflex excitability of the rectus femoris correlates with gait kinematics.
The 4-meter walk test and 10-meter walk test is currently applied to assess gait speed.These tools are frequently used in clinical trials and were also shown to be reliable measurement methods. There are ocassions where it is not possible to have a long corridor to measure gait speed. It is necessary to have a tool to evaluate gait speed in a small space as 4-meter walk test.
This study aims to evaluate the safety and usability of a motorized mobility assistance exoskeleton (MAK). The procedure explores the use of the MAK exoskeleton during the static and dynamic rehabilitation sessions with the intention to evaluate the safety and usability of the device in the studied population. The protocol has been focused on defining how the device can be used appropriately in this population in a safe manner by rehabilitation specialists.The study also aims to assess the safety of clinicians implementing the intervention, as well as possible benefits derived from the use of the device. As a secondary outcome, efficacy measurements will be collected.
Difficulty walking is common after a stroke. Although physical rehabilitation helps a little with the improvement of walking ability, recovery is usually incomplete. The purpose of this study is to explore how two different treadmill training approaches influence walking speed, symmetry, and balance in people with chronic severe stroke-related walking impairment. The two approaches involve either forward or backwards treadmill training. This study will look at changes in walking performance and balance, before and after training. This study may lead to more efficient methods for improving walking performance and balance after stroke.