Early skeletal muscle hypertrophy and architectural changes in response to high-intensity resistance training

doi:10.1152/japplphysiol.00789.2006

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Early skeletal muscle hypertrophy and architectural changes in response to high-intensity resistance training

Olivier Roger Seynnes¹^*, Maarten de Boer¹, and Marco Vincenzo Narici¹

¹ Institute for Biophysical and Clinical Research into Human Movement, Manchester Metropolitan University, Alsager, United Kingdom

^* To whom correspondence should be addressed. E-mail: o.seynnes{at}mmu.ac.uk.

The onset of whole muscle hypertrophy in response to overloadingis poorly documented. The purpose of this study was to assessthe early changes in muscle size and architecture during a 35-dayhigh intensity resistance training (RT). Seven young healthyvolunteers performed bilateral leg extension three times perweek on a gravity independent flywheel ergometer. Cross-sectionalarea (CSA) in the central (C) and distal (D) regions of the quadriceps femoris (QF), muscle architecture, maximal voluntarycontraction (MVC) and electromyographic (EMG) activity weremeasured before, after 10, 20 and 35 days of RT. By the endof the training period, MVC and EMG activity increased by 38.9± 5.7% and 34.8% ± 4.7%, respectively. Significantincrease in QF CSA (3.5% and 5.2%, in the C and D regions)was observed after 20 days of training, along with a 2.4 ±0.7% increase in fascicle length from the 10^th day of training.By the end of the 35-day training period, the total increasein QF CSA for regions C and D was 6.5 ± 1.1% and 7.4 ±0.8%, respectively, and fascicle length and pennation angleincreased by 9.9 ± 1.2% and 7.7 ± 1.3%, respectively.The results show for the first time that changes in muscle sizeare detectable after only 3 weeks of RT and that remodellingof muscle architecture precedes gains in muscle CSA. Musclehypertrophy seems to contribute to strength gains earlier thanpreviously reported; flywheel training seems particularly effectivefor inducing these early structural adaptations.

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