Clinical Research Directory

MINT Conditioning to Improve Gait

This study will test the ability of myoelectric interface for neurorehabilitation (MINT) training to improve walking function.

Phase I Split-Belt Treadmill Dosing for Subacute Stroke

After experiencing a stroke, many individuals encounter difficulties with walking and balance, which can significantly impact their independence. Recent studies have indicated that split-belt treadmill (SBT) training is effective for improving gait metrics, including walking speed and step length asymmetry. The SBT allows each leg to move at different speeds, which has been shown to help chronic stroke survivors learn to walk more symmetrically. However, there is limited knowledge about the dose participants should receive and the safety of SBT training in the early stages of recovery, which is a crucial period for rehabilitation. To address this gap, we are evaluating an innovative SBT with virtual reality (VR) features at the Foothills Medical Center. Our objective is to conduct a study to determine the amount of SBT training patients can tolerate in a day. In this study, stroke survivors will engage in a series of walking exercises on the SBT. We will escalate the duration of SBT walking until participants reach a point where they can no longer continue due to dose-limiting criteria such as fatigue or discomfort. The findings from this initial phase will guide future larger trials to explore the effectiveness of this training method. Ultimately, we aspire to improve rehabilitation strategies for stroke survivors, assisting them in regaining mobility and enhancing their quality of life more effectively.

The Effect of Whole-Body Vibration Therapy Following Botulinum Toxin A Injection on Spasticity and Balance in Stroke Patients

The purpose of this clinical study is to evaluate the effect of Whole Body Vibration (WBV) therapy, applied two weeks after botulinum toxin type A (BoNT-A) injection, on spasticity and balance parameters in individuals with stroke who have ankle spasticity. The main questions it aims to answer are: Adjuvant WBV therapy administered after BoNT-A injection; * Does it effectively improve spasticity? * Is it an effective intervention for balance and walking functions? Researchers will compare the application of WBV to a placebo application (a vibration-free application) to evaluate the effect of adjuvant WBV therapy administered after BoNT-A injection on ankle spasticity, balance, and walking function in individuals with stroke.

Effects of Kinesio Taping in Subacute Stroke Patients

A study was designed to investigate the effects of KT on gait ability, balance, and neuromuscular functions in subacute stroke patients with foot drop. The study aims to evaluate the immediate and short-term effects of KT on gait ability, balance, and neuromuscular function in subacute stroke patients with foot drop. A total of 60 participants will be recruited and randomly assigned to either a control group (conventional physical therapy) or an experimental group (receiving additional KT). Both groups will receive 30 minutes of daily physical therapy. The experimental group will undergo an initial assessment before KT application, which includes (1) activation of the dorsiflexor muscles, (2) reduction of plantar flexor spasticity, and (3) stabilization of the ankle in an everted position. After taping, a second assessment will be conducted immediately, and the tape will stay applied to patient's limb for two days, followed by a third assessment. The control group will be assessed only before the intervention and after two days. Primary outcome measures include gait ability (10-meter walk test, laboratory gait parameters, and joint angles and electromyographic activity during walking). Secondary outcomes include balance (Functional reach test, Timed Up and Go test, and Activities-specific Balance Confidence Scale) and neuromuscular function assessments (muscle strength, joint range of motion, spasticity, and proprioception). This project aims to establish and validate a clinically applicable and effective KT protocol as an adjunctive gait training method for subacute stroke patients with foot drop. By enhancing independent and safe walking, this intervention may facilitate the early return to normal daily activities for stroke survivors.

Individualized Exercise Prescription With a Data-driven Approach in Individuals With Stroke

The goal of this clinical trial is to evaluate if the exercised via data-driven approach is effective in enhance the gait pattern in people with stroke. It will reduce burdun of patient consultations for clinicians in reality.The main questions it aims to answer are: Does individualized exercise training programmes via data-driven approach could improve gait patterns in individuals with chronic stroke? Does individualized exercise training programmes via data-driven approach could improve improve motor recovery, motor functions (including gait speed and balance performance), and community integration in individuals with chronic stroke? Participants will: Undergo 12 supervised-exercise (training sessions (60 minutes, two times a week, for six weeks), Participants will receive a data-driven exercise prescription or conventional exercise prescription which consists of 5 different exercises. They will be assessed on Baseline assessment before training (A0); after six sessions (A1); after 12 sessions (A2); and three months after training (A3).

Neuromodulation-Enhanced Use of RObotic BALANCE Training to Improve Balance Function in Individuals With Stroke

Our proposed study, "NEUROBALANCE Stroke,"; aims to evaluate the effectiveness of a combined intervention involving robotic balance training and noninvasive brain stimulation in improving balance function and postural control in individuals with chronic stroke. The study will recruit 45 participants who have had a stroke at least 6 months before enrolment and experience persistent balance and gait deficits. Participants will be randomized into three groups: (1) robotic balance training with active brain stimulation, (2) robotic balance training with sham brain stimulation, and (3) standard-of-care rehabilitation. The study will involve 15 training sessions over 5 weeks, with assessments conducted at baseline, post-training, and two months post-training to evaluate balance recovery and retention. The primary focus is understanding how this intervention affects brain and muscle activity during balance tasks and how these changes translate into functional improvements in clinical outcome measures of balance function. Additionally, participant feedback on brain stimulation and exercise engagement will be collected to inform future studies. The findings may guide the development of personalized training protocols and contribute to broader rehabilitation strategies.

Effects on Subacute Stroke With Robotic Assistive Gait Training

The goal of this randomized controlled trial is to learn about the effects of Robotic Assisted Gait Training (RAGT) combined with traditional physical therapy in subacute stroke patients. The main question it aims to answer is: \- Does RAGT combined with traditional physical therapy improve gait and functional performance in subacute stroke patients compared to traditional physical therapy alone? Participants who are subacute stroke patients will be randomly assigned to receive either both RAGT and traditional physical therapy or only traditional physical therapy. Their gait and functional performance will be assessed during the study period.

The Effect of Cupping on Spasticity and Function of the Lower Extremity During Rehabilitation After Stroke

Physical therapists use dry static cupping for the treatment of many conditions, including spasticity for patients post-stroke. While research better describes the effects of dry static cupping for patients with orthopedic conditions, information is lacking on central conditions, such as stroke and resulting spasticity.