Purpose: To evaluate
tracking of within-athlete changes in criterion measures of whole-body fat
percentage (dual energy X-ray absorptiometry; DXA) with skinfold thickness
measures (Σ
4, 6, or 8) in wheelchair basketball players. Methods: This longitudinal study tracked body composition of sixteen
international wheelchair basketball players at 5 time points over a 15-month training/competition
period. The primary outcome was DXA-derived whole-body fat percentage (BF%),
with Σ
4, 6, or 8 skinfolds (mm) as the predictor variable. Data were analysed using a
linear mixed model with restricted maximum likelihood (random intercept, with identity
covariance structure) to derive the within-athlete prediction error for
predicting criterion BF% from Σ skinfolds. This prediction error allowed us evaluate
how well a simple measure of the Σ skinfolds could track criterion changes in BF%; that
is, we derived the change in Σ skinfolds that would have to be observed in an
individual athlete to conclude that a substantial change in criterion BF% had
occurred. All data were log-transformed prior to analysis. Results: Σ 8 skinfolds were the most precise practical measure
for tracking changes in BF%. For the monitoring of an individual male
wheelchair basketball player, a change in Σ 8 skinfolds by a factor of greater than
1.28 (multiply or divide by 1.28) is associated with a practically meaningful
change in BF% (≥1 percentage point). Conclusions:
Σ 8
skinfolds can track changes in BF% within individual wheelchair athletes with reasonable
precision, providing a useful field monitoring tool in the absence of often
impractical criterion measures
Funding
English Institute of Sport
Peter Harrison Foundation
Great Britain Wheelchair Basketball Federation
History
School
Sport, Exercise and Health Sciences
Published in
International Journal of Sports Physiology and Performance