Walking with blood flow restriction applied to the upper thigh increased plantarflexor torque by 30.4% and dorsiflexor torque by 14.8% in the occluded limb.
Does walking combined with blood flow restriction targeting the upper thigh improve strength in distal muscles of the lower leg in adults with knee extensor strength asymmetry?
Walking combined with blood flow restriction targeting the upper thigh improves strength in distal muscles of the lower leg, with notable gains in both the occluded and contralateral segments.
Absolute Event Rate: 0% vs 0%
Background: Blood flow restriction (BFR) training effectively improves strength in muscles directly subjected to occlusion. Secondary effects on distal and contralateral muscles remain underexplored. Hypothesis: A walking training program plus BFR applied to the upper thigh enhances muscle strength in distal muscles of the lower leg. Study Design: Nonrandomized controlled clinical trial with a within-subject approach. Level of Evidence: Level 1. Methods: A total of 20 male and 12 female adults (31.1 ± 9.5 years) with ≥10% strength asymmetry in knee extensors completed 3 weekly sessions over 12 weeks. A cuff inflated at 90% of total occlusion pressure was applied to the weaker limb (exercised segment ES); the stronger limb served as control segment (CS). Outcomes assessed pre- and postintervention included ankle plantarflexor and dorsiflexor strength and muscle thickness (MT) (medial gastrocnemius MG and tibialis anterior TA) using isometric testing and ultrasound. Results: Strength gains were identified after training in the ES and CS for the MG and TA muscles ( P 0.05). MT showed nonsignificant variation ( P > 0.05). In the ES, the MG changed from 1.93 cm to 2.04 cm and TA from 2.06 cm to 2.33 cm. In the CS, the MG remained stable (1.99 cm to 2.02 cm), and TA varied from 2.12 cm to 2.35 cm. Conclusion: Walking combined with BFR targeting the upper thigh improves strength in distal muscles of the lower leg, with notable gains in both the occluded and contralateral segments. Neural adaptations likely account for the observed strength increases. Clinical Relevance: BFR walking is an effective, low-impact intervention to enhance lower-limb muscle strength, with potential applications in rehabilitation and training for people with asymmetry or muscle weakness.
Cutisque et al. (Thu,) reported a other. Walking with blood flow restriction applied to the upper thigh increased plantarflexor torque by 30.4% and dorsiflexor torque by 14.8% in the occluded limb.
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