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Running Training Combined With Blood Flow Restriction Increases Cardiopulmonary Function and Muscle Strength in Endurance Athletes

Yun-Tsung Chen, Yao-Yi Hsieh, Jen-Yu Ho, Tung-Yi Lin, Jung-Charng Lin

2021The Journal of Strength and Conditioning Research25 citationsDOI

Abstract

ABSTRACT: Chen, Y-T, Hsieh, Y-Y, Ho, J-Y, Lin, T-Y, and Lin, J-C. Running training combined with blood flow restriction increases cardiopulmonary function and muscle strength in endurance athletes . J Strength Cond Res 36(5): 1228-1237, 2022-We investigated the effects of 8 weeks (3 d/wk) of running training (RT) combined with blood flow restriction (RT-BFR) on cardiopulmonary function and muscle strength in endurance athletes. Twenty endurance-trained male athletes (19-25 years; 177.6 ± 2.4 cm; 69.0 ± 2.2 kg) were pair matched and randomly assigned to RT-BFR and RT groups. The RT-BFR group performed running sessions (50% heart rate reserve; 3-minute × 5 sets; 1-minute rest interval) with pressure cuffs (1.3 × resting systolic blood pressure), whereas the RT group performed the same running sessions without pressure cuffs. V̇o2max, muscle mass, isokinetic muscle strength, and hormones were assessed at pre-, mid- and posttraining. Compared with the RT group, the RT-BFR group exhibited a significantly greater increase in V̇o2max (5.1 vs. -1.1%) and isokinetic knee extensor strength (16.5 vs. -5.9%). In addition, RT-BFR group presented higher leg muscle mass (10.3 vs. 9.7 kg) than that of RT group after 8 weeks of training. Furthermore, testosterone to cortisol (T:C) ratio at 24 hours after training session at pre-, mid-, and posttraining were maintained in the RT-BFR group, whereas significant decreases of T:C ratio at 24 hours after training session were observed in the RT group. These results suggested that RT combined with BFR may be a practical training strategy for promoting cardiopulmonary function and muscle strength in endurance runners.

Topics & Concepts

MedicineMuscle strengthEndurance trainingAthletesBlood flow restrictionBlood flowPhysical therapyCardiologyInternal medicineBlood pressureHeart rateStrength trainingSkeletal musclePhysical medicine and rehabilitationMuscle fatigueMuscle massPhysical strengthVO2 maxTestosterone (patch)HemodynamicsLeg muscleBlood lactateExercise physiologyIsokinetic ExerciseFunctional trainingCardiovascular and exercise physiologyThermoregulation and physiological responsesHeart Rate Variability and Autonomic Control