Jinger S Gottschall1, Bradley M Palmer. 1. Department of Kinesiology and Applied Physiology, University of Colorado, Campus Box 354, Boulder, CO 80309, USA. gottscha@ucsu.colorado.edu
Abstract
PURPOSE: To determine if cycling cadence affects subsequent running speed through changes in stride frequency. METHODS: Thirteen male triathletes completed three sessions of testing on separate days. During the first session (control condition), the participants completed a 30-min cycling bout of high intensity at their preferred cadence, immediately followed by a 3200-m run at race effort. During the second and third sessions (fast condition and slow condition), the participants repeated the protocol but with a cycling cadence 20% faster or 20% slower than the control condition. RESULTS: After cycling at a fast cadence, the 3200-m run time averaged nearly a min faster than after cycling at a slow cadence. Running stride frequency after cycling at a fast cadence was significantly greater than after cycling at a normal or slow cadence. Stride length did not differ between conditions. Joint kinematics at foot strike, mid-stance, toe-off, and mid-swing were not different between conditions. CONCLUSION: Increased cycling cadence immediately before running increased stride frequency and, as a result, increased speed.
PURPOSE: To determine if cycling cadence affects subsequent running speed through changes in stride frequency. METHODS: Thirteen male triathletes completed three sessions of testing on separate days. During the first session (control condition), the participants completed a 30-min cycling bout of high intensity at their preferred cadence, immediately followed by a 3200-m run at race effort. During the second and third sessions (fast condition and slow condition), the participants repeated the protocol but with a cycling cadence 20% faster or 20% slower than the control condition. RESULTS: After cycling at a fast cadence, the 3200-m run time averaged nearly a min faster than after cycling at a slow cadence. Running stride frequency after cycling at a fast cadence was significantly greater than after cycling at a normal or slow cadence. Stride length did not differ between conditions. Joint kinematics at foot strike, mid-stance, toe-off, and mid-swing were not different between conditions. CONCLUSION: Increased cycling cadence immediately before running increased stride frequency and, as a result, increased speed.
Authors: Patrick Cormier; Tomás T Freitas; Irineu Loturco; Anthony Turner; Adam Virgile; G Gregory Haff; Anthony J Blazevich; Dana Agar-Newman; Molly Henneberry; Daniel G Baker; Michael McGuigan; Pedro E Alcaraz; Chris Bishop Journal: Sports Med Date: 2022-07-11 Impact factor: 11.928