Active clinical trials for "Stroke"

This project will investigate the effects of a Narrative and Skills-building Intervention on young stroke survivors' community reintegration and psychosocial outcomes. A randomised controlled trial will be conducted. This is a novel trial to test the short and long-term effects of a theory-based intervention on young stroke survivors' community reintegration.

The purpose of this trial is to assess engagement, efficacy, durability, and impact on health care resource utilization of MR-001 in persons with chronic stroke who have a gait deficit after in-home/community use.

Although stroke home care patients receive various treatments, they generally continue their lives as semi-dependent or fully dependent. Considering that stroke patients are especially elderly individuals, it is seen that they receive home health services and need a caregiver. The caregiver feels themselves under a heavy burden due to the lack of knowledge and insufficient experience. In addition, the lack of social support levels and the lack of training in patient care cause negative effects on patient outcomes.

With this study, it will be proven whether the Turkish version of the Stroke Exercise Preference Inventory is valid and reliable in evaluating the exercise preferences of individuals who have had a stroke.

This is a device study that will evaluate the effect of an implanted stimulator on improving walking in stroke survivors. There are two phases in the study: 1) Screening - this phase determines if the individual is a good candidate to receive an implanted system, 2) Implantation, controller development, and evaluation - this phase includes installing the device and setting the individual up for home use, creating advanced controllers for walking and evaluating the effect of the device over several months.

The objectives of this study cover both the vibration stimulation intervention and its outcomes. Patients with stroke frequently experience spasm in both the lower and upper extremities, which impairs sensory perception and motor function. This study aims to evaluate the effects of vibration therapy on the forearm and arm extensors of stroke patients and to report on changes in sensory perception and motor function measures. Although vibration therapy has lately been utilized to treat these limbs, there haven't been enough trials to determine how beneficial it is in the application procedure. This study aims to investigate the outcomes and effectiveness of a vibration therapy program administered to the extensor muscles.

This study aims to evaluate safety, tolerability and efficacy of a new treatment for upper limb motor rehabilitation after severe stroke using non-invasive neurotechnologies. The investigational system is used alone or coupled with brain stimulation provided by transcranic direct current stimulation.

This study is designed to further develop and test the hardware and software components of the MyHand device based on user feedback and results from our pilot study. The goal is to refine the device so that is more effective and easier for stroke patients to use to increase their hand function.

Objective: The goal of this study is to implement and test a neuro-mechanical gait assist (NMGA) device to correct walking characterized by muscle weakness, incoordination or excessive tone in Veterans with hemiparesis after stroke that adversely affects their ability to walk, exercise, perform activities of daily living, and participate fully in personal, professional and social roles. Research Plan: A prototype NMGA device will be used to develop a finite state controller (FSC) to coordinate each user's volitional effort with surface muscle stimulation and motorized knee assistance as needed. Brace mounted sensors will be used to develop a gait event detector (GED) which will serve the FSC to advance through the phases of gait or stair climbing. In addition, a rule-base intent detection algorithm will be developed using brace mounted sensors and user interface input to select among various functions including walking, stairs climbing, sit-to-stand and stand-to-sit maneuvers. The FSC controller tuning and intent algorithm development and evaluation will be on pilot subjects with difficulty walking after stroke. Outcome measures during development will provide specifications for a new prototype NMGA design which will be evaluated on pilot subjects to test the hypothesis that the NMGA improves walking speed, distance and energy consumption of walking. These baseline data and device will be used to design a follow-up clinical trial to measure orthotic impact of NMGA on mobility in activities of daily living at home and community. Methodology: After meeting inclusion criteria, pilot subjects will undergo baseline gait evaluation with EMG activities of knee flexors and extensors, ankle plantar and dorsiflexors and isokinetic knee strength and passive resistance. They will be fitted with a NMGA combining a knee-ankle-foot-orthosis with a motorized knee joint and surface neuromuscular stimulation of plantar- and dorsi- flexors, vasti and rectus femoris. Brace mounted sensor data will be used for gait event detector (GED) algorithm development and evaluation. The GED will serve the FSC to proceed through phases of gait based on supervisory rule-based user intent recognition algorithm detected by brace mounted sensors and user input interface. The FSC will coordinate feed-forward control of tuned stimulation patterns and closed-loop controlled knee power assist as needed to control foot clearance during swing and stability of the knee during stance. Based on data attained during controller development and evaluation, a new prototype NMGA will be design, constructed and evaluated on pilot subjects to test the hypothesis that a NMGA device improves safety and stability, increases walking speed and distance and minimizes user effort. Clinical Significance: The anticipated outcome is improved gait stability with improved swing knee flexion, thus, increasing the safety and preventing injurious falls of ambulatory individuals with hemiplegia due to stroke found in large and ever-increasing numbers in the aging Veteran population. Correcting gait should lead to improved quality of life and participation.

The World Health Organization has termed stroke to be a clinical syndrome, of presumed vascular origin, typified by rapidly developing signs of focal or global disturbance of cerebral functions and the leading cause of death worldwide in 2016 making it a major non-contagious cause of death. This study would be beneficial in a way that it will give a valuable input and will contribute for the knowledge of interventions for stroke with an emphasis on upper extremity function among health care practitioners for their goal of promoting health, prevention of diseases and improving quality of life.