Power Exercise for Stroke Recovery: The POWER Pilot Trial (POWER-P)

With the population aging, nearly 750,000 Canadians live with stroke, surpassing previous projections by 15 years. Post-stroke deficits, including loss of strength, balance and walking ability, are highly common. Sarcopenia, often associated with aging yet highly prevalent in stroke, underlie these deficits and contribute to lower discharge rates after hospitalization.

Community stroke exercise programs can improve strength and function to aid in recovery beyond hospital care. Most programs however follow conservative resistance exercise training (RET) approaches, as stroke guidelines are based on limited evidence. Unlike benefits of RET shown in mobility in older adults, stroke trials have shown large improvements in strength without concurrent changes in mobility, motor function or walking.

Power-focused RET involves moving lighter weights at high speed to develop muscle power, which may be more important than strength alone for activities critical for independent living such as climbing stairs, balance, and walking speed. A novel, progressive power training-focused community program for stroke (Power Exercise for Stroke Recovery, POWER) was developed to influence recovery of physical function. Following a successful single-group feasibility study of POWER (POWER-Feasibility, NCT05816811), a phase II pilot randomized trial (POWER-Pilot) is needed.

This pilot randomized trial aims to answer the following questions: 1) What is the feasibility of a multi-site randomized design to evaluate Power Exercise for Stroke Recovery (POWER), a power-focused training program for people living in the community with stroke? 2) What are the preliminary estimates of the effect of POWER compared to conventionally recommended RET (Strength Training Engaging Guidelines to Enhance Total Health, STRENGTH) for people living in the community with stroke on outcomes of functional mobility (walking, balance), post-stroke fatigue, psychological wellbeing, cognition, and health-related quality of life?

Sixty participants (6 months post-stroke, completed rehabilitation) will be randomized to POWER or STRENGTH. POWER involves 3 progressive phases: 1) Familiarization (1 week), 2) Strength (4 weeks, 2-3 sets, 5-8 repetitions), and 3) Power (5 weeks, 2-3 sets, 15-20 repetitions, fast tempo). STRENGTH is based on current RET clinical practice guidelines for stroke with no focus on power. POWER and STRENGTH matched in length, frequency (3x/week) and format (in-person supervision) but differentiated by approach to exercise progression, intensity, and tempo.

Feasibility indicators such as randomization and blinding have predefined success and progression thresholds. Estimates of the effect of POWER include functional mobility (Timed Up and Go, primary clinical outcome), walking speed, post-stroke fatigue, psychological well-being, cognition, balance, and quality of life, and will be assessed pre-post, and at 8-week follow-up. Sex and gender-related factors associated with feasibility and changes in clinical outcomes as social determinants of exercise participation post-stroke will also be examined.

Feasibility outcomes and effect estimates from POWER-Pilot will guide scalability for a fully powered RCT and future cost-effectiveness evaluation, shaping exercise best practices and facilitating hospital-to-community transition through broader implementation in community programs.