Changes in muscle size and MHC composition in response to resistance exercise with heavy and light loading intensity

Research output: Contribution to journalArticlepeer-review


  • Søren Reitelseder
  • T.G. Pedersen
  • Simon Doessing
  • S.G. Petersen
  • Allan Flyvbjerg
  • J.L. Andersen
  • Per Aagaard
  • Michael Kjær

Colleges, School and Institutes


Muscle mass accretion is accomplished by heavy-load resistance training. The effect of light-load resistance exercise has been far more sparsely investigated with regard to potential effect on muscle size and contractile strength. We applied a resistance exercise protocol in which the same individual trained one leg at 70% of one-repetition maximum (1RM) (heavy load, HL) while training the other leg at 15.5% 1RM (light load, LL). Eleven sedentary men (age 25 +/- 1 yr) trained for 12 wk at three times/week. Before and after the intervention muscle hypertrophy was determined by magnetic resonance imaging, muscle biopsies were obtained bilaterally from vastus lateralis for determination of myosin heavy chain (MHC) composition, and maximal muscle strength was assessed by 1RM testing and in an isokinetic dynamometer at 60 degrees /s. Quadriceps muscle cross-sectional area increased (P <0.05) 8 +/- 1% and 3 +/- 1% in HL and LL legs, respectively, with a greater gain in HL than LL (P <0.05). Likewise, 1RM strength increased (P <0.001) in both legs (HL: 36 +/- 5%, LL: 19 +/- 2%), albeit more so with HL (P <0.01). Isokinetic 60 degrees /s muscle strength improved by 13 +/- 5% (P <0.05) in HL but remained unchanged in LL (4 +/- 5%, not significant). Finally, MHC IIX protein expression was decreased with HL but not LL, despite identical total workload in HL and LL. Our main finding was that LL resistance training was sufficient to induce a small but significant muscle hypertrophy in healthy young men. However, LL resistance training was inferior to HL training in evoking adaptive changes in muscle size and contractile strength and was insufficient to induce changes in MHC composition.


Original languageEnglish
Pages (from-to)1454-1461
Number of pages8
JournalJournal of Applied Physiology
Issue number5
Publication statusPublished - 1 Nov 2008