# Determinants of Sprint Ability Change During Maturation in Developing Children

**Authors:** Masamichi Okudaira, Ryosuke Takeda, Tetsuya Hirono, Taichi Nishikawa, Shun Kunugi, Kaito Igawa, Saeko Ueda, Yukiko Mita, Kohei Watanabe

PMC · DOI: 10.1002/ejsc.70133 · European Journal of Sport Science · 2026-01-30

## TL;DR

This study shows how children's sprinting ability changes during growth, shifting from leg length to muscle strength as a key factor.

## Contribution

The study identifies a developmental breakpoint in sprinting ability and reveals a shift in determinants from anthropometric to neuromuscular factors.

## Key findings

- A developmental breakpoint in maximal sprint speed occurs at +1.1 years of maturity offset.
- Before the breakpoint, leg length is the main predictor of sprint speed.
- After the breakpoint, muscle strength and thickness predict sprint speed through step frequency.

## Abstract

This study aimed to clarify changes in sprint ability and spatiotemporal variables with maturation in children and to identify key determinants from anthropometric and muscle strength perspectives. Ninety‐eight young soccer players aged 7.6–17.9 years underwent a 30‐m sprint test, anthropometric measurements, muscle thickness (MT) and maximal voluntary contraction (MVC). Maturity offset (MO) was calculated as the difference between the chronological age and estimated age at peak height velocity (PHV). Breakpoint (BP) in maximal sprint speed (MSS) development was identified at +1.1 years of MO, and the participants were classified into pre‐ and post‐BP groups. A significant correlation was found between MSS and MO in the pre‐BP group, but was no longer observed in the post‐BP group. Although step length (SL) was positively correlated with MO in the pre‐BP group, this correlation was not observed and step frequency (SF) showed a positive correlation in the post‐BP group. Multiple regression analysis revealed that in the pre‐BP group, leg length (LL) was the only significant predictor of MSS, primarily by influencing SL. By contrast, in the post‐BP group, MVC and MT emerged as significant predictors of MSS, mainly by influencing SF. In conclusion, this study identified a key developmental BP at +1.1 years of MO and demonstrated a shift in the determinants of sprinting ability from reliance on anthropometric growth before this point to a dominance of neuromuscular factors.

A developmental breakpoint in maximal sprint speed was observed at +1.1 years relative to the maturity offset.Before this breakpoint, sprint ability was primarily associated with leg length, which was the only significant predictor of step length and maximal sprint speed.After this breakpoint, the determinants shifted to neuromuscular factors: muscle strength and thickness became significant predictors of maximal sprint speed, mainly by influencing step frequency.

A developmental breakpoint in maximal sprint speed was observed at +1.1 years relative to the maturity offset.

Before this breakpoint, sprint ability was primarily associated with leg length, which was the only significant predictor of step length and maximal sprint speed.

After this breakpoint, the determinants shifted to neuromuscular factors: muscle strength and thickness became significant predictors of maximal sprint speed, mainly by influencing step frequency.

## Full-text entities

- **Diseases:** PHV (MESH:C000719188), LL (MESH:D007870), orthopaedic problems (MESH:D019973), MO (MESH:D003924), SF (MESH:D006316), coordination (MESH:D001259), MSS (MESH:D008569), neurological disorders (MESH:D009461)
- **Chemicals:** BP (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

26 references — full list in the complete paper: https://tomesphere.com/paper/PMC12856720/full.md

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Source: https://tomesphere.com/paper/PMC12856720