Stroke is a leading cause of long-term disability and death worldwide, with chronic survivors often experiencing gait disturbances (affecting up to 80%), reduced physical activity, and cardiometabolic comorbidities like obesity and hypertension. These increase risks of recurrent events and diminish quality of life. Electromechanically assisted gait training (EAGT) provides high-intensity, repetitive practice, while conventional gait training (CGT) enhances real-world functional transfer. Evidence gaps exist in the optimal sequencing of these approaches for concurrent improvements in weight management, blood pressure (BP), and mobility, particularly in high-risk chronic stroke populations. This multicenter RCT addresses these gaps by evaluating a sequenced hybrid protocol.
Objectives \& Hypotheses Primary Objective: Evaluate the efficacy of sequenced hybrid EAGT followed by CGT compared to EAGT-only or CGT-only in promoting concurrent improvements in body weight, BP, and gait parameters in chronic stroke survivors with overweight/obesity and hypertension. Secondary Objectives: Assess retention of gains at 3-month follow-up; explore mechanistic insights into cardiometabolic loading; identify prognostic factors. Hypotheses: Hybrid sequencing leads to greater weight loss (≥3 kg) and systolic BP reduction (≥10 mmHg) without compromising gait improvements. Obese participants (BMI ≥30 kg/m²) show stronger cardiometabolic responses. Gains are retained better in the hybrid group at follow up
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
140
IQRA National University
Swat, Peshawar, Pakistan
Primary outcome
10 meter walk test to measure functional mobility
Time frame: Baseline, 6 weeks, 12 weeks
Secondary outcome
Barthel Index to assess functional independence.
Time frame: 3-month follow-up
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