Int J Sports Med
DOI: 10.1055/s-0043-121150
Orthopedics & Biomechanics
© Georg Thieme Verlag KG Stuttgart · New York

A functional MRI Exploration of Hamstring Activation During the Supine Bridge Exercise

Matthew Bourne1, Morgan Williams2, Tania Pizzari1, Anthony Shield3
  • 1Department of Rehabilitation, Nutrition and Sport, La Trobe University College of Science Health and Engineering, Nutrition and Sport, Bundoora, Australia
  • 2School of Sport and Professional Practice, University of South Wales, Wales, United Kingdom, School of Health, Faculty of Life Sciences and Education, Cardiff, United Kingdom of Great Britain and Northern Ireland
  • 3School of Exercise and Nutrition Sciences, Queensland University of Technology, Brisbane, Australia
Further Information

Publication History



accepted 01 October 2017

Publication Date:
21 November 2017 (eFirst)

Abstract

The single leg supine bridge (SLB) is a commonly employed strengthening exercise and is used as a clinical test for hamstring function in sports, however, little is known about the patterns of muscle activation in this task. To explore these activation patterns, nine healthy, recreationally active males underwent functional magnetic resonance imaging (fMRI) of their thighs at rest and immediately after 5 sets of 10 repetitions of the SLB exercise. Exercise-induced increases in the transverse (T2) relaxation time of the biceps femoris long and short heads, semitendinosus and semimembranosus, were determined via signal intensity changes in pre- and post-exercise images and used as an index of muscle activation. The Bonferroni adjusted alpha was set at p<0.008. The semitendinosus exhibited a greater T2 increase than the biceps femoris short head (p<0.001, d=2.0) and semimembranosus (p=0.001, d=1.2), but not biceps femoris long head (p=0.029, d=0.9). Furthermore, the percentage change in T2 for biceps femoris long head was greater than its short head (p=0.003, d=1.4). During the SLB exercise, the semitendinosus is most selectively targeted and the biceps femoris long head is preferentially activated over its short head. These findings may have implications for the use of the SLB in hamstring injury prevention and rehabilitation programs.