Open AccessFast Running Does Not Contribute More to Cumulative Load than Slow Running
Author(s) -
Jessica G. Hunter,
Gina L. Garcia,
Jae Kun Shim,
Ross H. Miller
Publication year - 2019
Publication title -
medicine and science in sports and exercise
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.703
H-Index - 224
eISSN - 1530-0315
pISSN - 0195-9131
DOI - 10.1249/mss.0000000000001888
Subject(s) - cumulative distribution function , mathematics , preferred walking speed , simulation , statistics , computer science , medicine , probability density function , physical medicine and rehabilitation
As running speed increases there are concomitant changes in loads associated with tibial stress fracture risk. Runners often include multiple speeds in their training, but the effect of speed distribution on load accumulation is unknown. We studied how running at different proportions of speed within a given running distance affects the cumulative loading of the vertical average loading rate, cumulative peak absolute tibial free moment, and cumulative peak axial tibial load. These loads were compared between two proportions of speed: running all distance at normal self-selected speed, and running the same distance at a combination of slow/fast speeds with the same average speed as normal. Also, the contributions of slow and fast running to the combined condition were compared.