Kinematic factors associated with start performance in World-class male sprinters

Josh Walker, Athanassios Bissas, Giorgios Paradisis, Brian Hanley, Catherine Tucker, Nils Jongerius, Aaron Thomas, Hans von Lieres und Wilkau, Adam Brazil, Matthew Andrew Wood, Stephane Merlino, Pierre-Jean Vazel, Ian Bezodis

Research output: Contribution to JournalArticlepeer-review

Abstract

The aim was to investigate the kinematic factors associated with successful performance in the initial acceleration phase of a sprint in the best male athletes in the World at the 2018 World Indoor Athletics Championships. High speed video (150 Hz) was captured for eight sprinters in the men’s 60 m final. Spatio-temporal and joint kinematic variables were calculated from the set position to the end of the first ground contact post-block exit (GC1). Normalised average horizontal external power (NAHEP) defined performance and was the dependent variable for a series of regression analyses. Clear relationships were found between GC1 NAHEP and 10-m time, 60-m time, change in velocity, acceleration and contact time in the first ground contact (r = –0.74, –0.64, 0.96, 0.91 and –0.56, respectively). Stepwise multiple linear regression of joint kinematic variables in the first ground contact revealed that trunk angle at take-off and thigh separation angle at take-off explained nearly 90% of variation in GC1 NAHEP (R2 = 0.89). The athletes’ projection at take-off with a forward leaning trunk and large thigh separation is characteristic therefore of excellent initial acceleration performance and this will be a good visual guide for technical coaching instruction. This was the first study of its kind to adopt such a research design in a World-class sample in a representative environment. Future studies that combine detailed kinematic and kinetic data capture and analysis in such a setting will add further insight to the findings of this investigation.
Original languageEnglish
Article number110554
Pages (from-to)1-7
Number of pages7
JournalJournal of Biomechanics
Volume124
DOIs
Publication statusPublished - 19 Jul 2021

Data Access Statement

The authors would like to thank SEIKO Timing Services for accommodating our data collection requests.

Keywords

  • Acceleration
  • Athletics
  • Elite
  • Power
  • Running

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