Low-load Blood Flow Restriction Training Induces Similar Morphological and Mechanical Achilles Tendon Adaptations Compared with High-load Resistance Training
Overview
Authors
Affiliations
Low-load blood flow restriction (LL-BFR) training has gained increasing interest in the scientific community by demonstrating that increases in muscle mass and strength are comparable to conventional high-load (HL) resistance training. Although adaptations on the muscular level are well documented, there is little evidence on how LL-BFR training affects human myotendinous properties. Therefore, the aim of the present study was to investigate morphological and mechanical Achilles tendon adaptations after 14 wk of strength training. Fifty-five male volunteers (27.9 ± 5.1 yr) were randomly allocated into the following three groups: LL-BFR [20-35% of one-repetition maximum (1RM)], HL (70-85% 1RM), or a nonexercising control (CON) group. The LL-BFR and HL groups completed a resistance training program for 14 wk, and tendon morphology, mechanical as well as material properties, and muscle cross-sectional area (CSA) and isometric strength were assessed before and after the intervention. Both HL (+40.7%) and LL-BFR (+36.1%) training induced significant increases in tendon stiffness ( < 0.05) as well as tendon CSA (HL: +4.6%, LL-BFR: +7.8%, < 0.001). These changes were comparable between groups without significant changes in Young's modulus. Furthermore, gastrocnemius medialis muscle CSA and plantar flexor strength significantly increased in both training groups ( < 0.05), whereas the CON group did not show significant changes in any of the evaluated parameters. In conclusion, the adaptive change in Achilles tendon properties following low-load resistance training with partial vascular occlusion appears comparable to that evoked by high-load resistance training. Low-load blood flow restriction (LL-BFR) training has been shown to induce beneficial adaptations at the muscular level. However, studies examining the effects on human tendon properties are rare. The findings provide first evidence that LL-BFR can increase Achilles tendon mechanical and morphological properties to a similar extent as conventional high-load resistance training. This is of particular importance for individuals who may not tolerate heavy training loads but still aim for improvements in myotendinous function.
Li X, Xiao F, Ren H, Peng Y, Feng F, Dong Q J Orthop Surg Res. 2025; 20(1):273.
PMID: 40075371 PMC: 11905650. DOI: 10.1186/s13018-025-05673-8.
Chang H, Zhang J, Yan J, Yang X, Chen B, Zhang J Life (Basel). 2024; 14(11).
PMID: 39598240 PMC: 11595635. DOI: 10.3390/life14111442.
From Tissue to System: What Constitutes an Appropriate Response to Loading?.
Gabbett T, Oetter E Sports Med. 2024; 55(1):17-35.
PMID: 39527327 DOI: 10.1007/s40279-024-02126-w.
de Queiros V, Aniceto R, Rolnick N, Formiga M, Vieira J, de Araujo Tinoco Cabral B Front Physiol. 2024; 15:1486727.
PMID: 39483750 PMC: 11524815. DOI: 10.3389/fphys.2024.1486727.
Rehabilitation and Return to Sports after Achilles Tendon Repair.
Marrone W, Andrews R, Reynolds A, Vignona P, Patel S, OMalley M Int J Sports Phys Ther. 2024; 19(9):1152-1165.
PMID: 39246413 PMC: 11379499. DOI: 10.26603/001c.122643.