Hamstring muscle architecture and microstructure changes following Nordic hamstring exercise training and detraining

Article

Pai S., Anoosha, Andrews, Max H., Gurchiek, Reed D., Pincheira, Patricio A., Barbieri, Marco, Friedrich, Tyler, Kogan, Feliks, Gold, Garry E., Mazzoli, Valentina, Lichtwark, Glen A., Delp, Scott L. and Chaudhari, Akshay S.. 2025. "Hamstring muscle architecture and microstructure changes following Nordic hamstring exercise training and detraining." Journal of Sport and Health Science. https://doi.org/10.1016/j.jshs.2025.101070

Article Title	Hamstring muscle architecture and microstructure changes following Nordic hamstring exercise training and detraining
ERA Journal ID	210990
Article Category	Article
Authors	Pai S., Anoosha, Andrews, Max H., Gurchiek, Reed D., Pincheira, Patricio A., Barbieri, Marco, Friedrich, Tyler, Kogan, Feliks, Gold, Garry E., Mazzoli, Valentina, Lichtwark, Glen A., Delp, Scott L. and Chaudhari, Akshay S.
Journal Title	Journal of Sport and Health Science
Article Number	101070
Number of Pages	11
Year	2025
Publisher	Elsevier
Place of Publication	https://www.sciencedirect.com/science/article/pii/S2095254625000493
ISSN	1674-6031
	2095-2546
	2213-2961
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.jshs.2025.101070
Web Address (URL)	https://www.sciencedirect.com/science/article/pii/S2095254625000493
Abstract	Background While Nordic hamstring exercise (NHE) training has been shown to reduce hamstring strains, the muscle-specific adaptations to NHE across the 4 hamstrings remain unclear. This study investigates architectural and microstructural adaptations of the biceps femoris short head (BFsh), biceps femoris long head (BFlh), semitendinosus (ST), and semimembranosus (SM) in response to an NHE intervention. Methods Eleven subjects completed 9 weeks of supervised NHE training followed by 3 weeks of detraining. Magnetic resonance imaging was performed at pre-training, post-training, and detraining to assess architectural (volume, fiber tract length, and fiber tract angle) and microstructural (axial (AD), mean (MD), radial (RD) diffusivities, and fractional anisotropy (FA)) parameters of the 4 hamstrings. Results NHE training induced significant but non-uniform hamstring muscle hypertrophy (BFsh: 22%, BFlh: 9%, ST: 26%, SM: 6%) and fiber tract length increase (BFsh: 11%, BFlh: 7%, ST: 18%, SM: 10%). AD (5%), MD (4%), and RD (5%) showed significant increases, but fiber tract angle and FA remained unchanged. After detraining, only ST showed a significant reduction (8%) in volume, which remained higher than the pre-training value. While fiber tract lengths returned to baseline, AD, MD, and RD remained higher than pre-training levels for all hamstrings. Conclusion The 9-week NHE training substantially increased hamstring muscle volume with greater hypertrophy in ST and BFsh. Hypertrophy was accompanied by increases in fiber tract lengths and cross-sections (increased RD). After 3 weeks of detraining, fiber tract length gains across all hamstrings declined, emphasizing the importance of sustained training to maintain all the protective adaptations.
Keywords	Hamstrings; Nordic hamstring exercise; Diffusion tensor imaging; Exercise adaptation
Contains Sensitive Content	Does not contain sensitive content
ANZSRC Field of Research 2020	420701. Biomechanics
Byline Affiliations	Stanford University, United States
	University of Queensland
	Clemson University, United States
	School of Health and Medical Sciences
	Department of Athletics, Physical Education and Recreation, United States
	New York University, United States
	Queensland University of Technology

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