Why Are Masters Sprinters Slower Than Their Younger Counterparts? Physiological, Biomechanical, and Motor Control Related Implications for Training Program Design

in Journal of Aging and Physical Activity

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Craig Pickering
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Dylan Hicks
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John Kiely
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DOI:
https://doi.org/10.1123/japa.2020-0302
Keywords:
neuromuscular; resistance training; strength; type-II
First Published Online:
15 Jan 2021
In Print:
Volume 29: Issue 4
Page Range:
708–719
Restricted access

Elite sprint performances typically peak during an athlete’s 20s and decline thereafter with age. The mechanisms underpinning this sprint performance decline are often reported to be strength-based in nature with reductions in strength capacities driving increases in ground contact time and decreases in stride lengths and frequency. However, an as-of-yet underexplored aspect of Masters sprint performance is that of age-related degradation in neuromuscular infrastructure, which manifests as a decline in both strength and movement coordination. Here, the authors explore reductions in sprint performance in Masters athletes in a holistic fashion, blending discussion of strength and power changes with neuromuscular alterations along with mechanical and technical age-related alterations. In doing so, the authors provide recommendations to Masters sprinters—and the aging population, in general—as to how best to support sprint ability and general function with age, identifying nutritional interventions that support performance and function and suggesting useful programming strategies and injury-reduction techniques.

Pickering and Kiely are with the Institute of Coaching and Performance, School of Sport and Wellbeing, University of Central Lancashire, Preston, United Kingdom. Hicks is with the Exercise Science Department, Flinders University, Adelaide, South Australia, Australia.

Pickering (Craigpickering1014@hotmail.com) is corresponding author.
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