Citation

Crewther BT, Cronin J, Keogh JW. J. Strength Cond. Res. 2008; 22(6): 1908-1915.

Affiliation

The Horticulture and Food Research Institute of New Zealand (HortResearch), Auckland, New Zealand; Division of Sport and Recreation, Auckland University of Technology, Auckland, New Zealand; and School of Exercise, Biomedical and Health Science, Edith

Copyright

(Copyright © 2008, National Strength and Conditioning Association)

DOI

10.1519/JSC.0b013e3181839f61

PMID

18841079

Abstract

This study examined the effect of volume, technique, and load upon single-repetition and total-repetition kinematics and kinetics during three loading schemes. Eleven recreationally trained males each performed a power (8 sets of 6 repetitions at 45% of one-repetition maximum [1RM], 3-minute rest periods, explosive and ballistic movements), hypertrophy (10 sets of 10 repetitions at 75% 1RM, 2-minute rest periods, controlled movements), and maximal strength (6 sets of 4 repetitions at 88% 1RM, 4-minute rest periods, explosive intent) scheme involving squats. Examination of repetition data showed that load intensity (% 1RM) generally had a direct effect on forces, contraction times, impulses, and work (i.e., increasing with load), whereas power varied across loads (p<0.001). However, total-repetition forces, contraction times, impulses, work, and power were all greater in the hypertrophy scheme (p<0.001), because of the greater number of repetitions performed (volume) as well as lifting technique. No differences in total forces were found between the equal-volume power and maximal strength schemes, but the former did produce greater total contraction times, work, and power (p<0.001), which may also be attributed to repetition and technique differences. Total impulses were the only variable greater in the maximal strength scheme (p<0.001). Thus, the interaction of load, volume, and technique plays an important role in determining the mechanical responses (stimuli) afforded by these workouts. These findings may explain disparities cited within research, regarding the effectiveness of different loading strategies for hypertrophy, maximal strength, and power adaptation.

Language: en