Quadriceps Muscle Morphology Is an Important Determinant of Maximal Isometric and Crank Torques of Cyclists.
Fabio Juner LanferdiniFernando DiefenthaelerAndressa Germann ÁvilaAntônio Renato Pereira MoroStephan van der ZwaardMarco Aurélio VazPublished in: Sports (Basel, Switzerland) (2023)
The aim of this study was to determine if quadriceps morphology [muscle volume (MV); cross-sectional area (CSA)], vastus lateralis (VL) muscle architecture, and muscle quality [echo intensity (ECHO)] can explain differences in knee extensor maximal voluntary isometric contraction (MVIC), crank torque (CT) and time-to-exhaustion (TTE) in trained cyclists. Twenty male competitive cyclists performed a maximal incremental ramp to determine their maximal power output (PO MAX ). Muscle morphology (MV; CSA), muscle architecture of VL and muscle quality (ECHO) of both quadriceps muscles were assessed. Subsequently, cyclists performed three MVICs of both knee extensor muscles and finally performed a TTE test at PO MAX with CT measurement during TTE. Stepwise multiple regression results revealed right quadriceps MV determined right MVIC (31%) and CT (33%). Left MV determined CT (24%); and left VL fascicle length (VL-FL) determined MVIC (64%). However, quadriceps morphological variables do not explain differences in TTE. No significant differences were observed between left and right quadriceps muscle morphology ( p > 0.05). The findings emphasize that quadriceps MV is an important determinant of knee extensor MVIC and CT but does not explain differences in TTE at PO MAX . Furthermore, quadriceps morphological variables were similar between the left and right quadriceps in competitive cyclists.
Keyphrases
- anterior cruciate ligament reconstruction
- skeletal muscle
- anterior cruciate ligament
- contrast enhanced
- resistance training
- computed tomography
- image quality
- dual energy
- cross sectional
- total knee arthroplasty
- heart rate
- magnetic resonance imaging
- diffusion weighted
- body composition
- diffusion weighted imaging
- high intensity
- quality improvement
- pet ct