Ludwig Ruf1,2, Sean Cumming3, Sascha Härtel4, Anne Hecksteden1, Barry Drust5, Tim Meyer1. 1. Institute of Sports and Preventive Medicine, Saarland University, Saarbrücken, Germany. 2. TSG ResearchLab gGmbH, Zuzenhausen, Germany. 3. Sport, Health and Exercises Science Research Group, Department of Health, University of Bath, Bath, UK. 4. TSG 1899 Hoffenheim, Zuzenhausen, Germany. 5. School of Sport, Exercise and Rehabilitation Sciences, University of Birmingham, Birmingham, UK.
Abstract
BACKGROUND: The assessment of biological maturity status plays an important role in talent identification and development programs. AIM: To compare age at predicted adult height and BAUS skeletal age as indicators of biological maturity status in youth soccer players using a construct-validity approach. SUBJECTS AND METHODS: Participants were 114 players from the U12 to U17 age groups of a professional youth soccer academy. Maturity status was determined via percentage of predicted adult height based upon the Khamis-Roche method (somatic maturity) and assessed via the SonicBone BAUSTM system (skeletal maturity). Convergent and known-groups validity were evaluated between maturity assessment methods and by comparing maturity-related selection biases across age groups. RESULTS: Although maturity status indicators were largely interrelated (r = .94, 95%CL 0.91-0.96), concordance (κ = 0.31 to 0.39) and Spearman's rank-order correlations (ρ = 0.45-0.52) of classification methods were moderate. A selection bias towards early maturing players emerged in the U14 age group which remained relatively consistent through to the U17 age group. CONCLUSIONS: Results confirm the construct-validity of both methods to assess biological maturity status although further validation relative to established indicators of biological maturity is needed. Furthermore, caution is also warranted when interpreting maturity status classification methods interchangeably given the poor concordance between classification methods.
BACKGROUND: The assessment of biological maturity status plays an important role in talent identification and development programs. AIM: To compare age at predicted adult height and BAUS skeletal age as indicators of biological maturity status in youth soccer players using a construct-validity approach. SUBJECTS AND METHODS: Participants were 114 players from the U12 to U17 age groups of a professional youth soccer academy. Maturity status was determined via percentage of predicted adult height based upon the Khamis-Roche method (somatic maturity) and assessed via the SonicBone BAUSTM system (skeletal maturity). Convergent and known-groups validity were evaluated between maturity assessment methods and by comparing maturity-related selection biases across age groups. RESULTS: Although maturity status indicators were largely interrelated (r = .94, 95%CL 0.91-0.96), concordance (κ = 0.31 to 0.39) and Spearman's rank-order correlations (ρ = 0.45-0.52) of classification methods were moderate. A selection bias towards early maturing players emerged in the U14 age group which remained relatively consistent through to the U17 age group. CONCLUSIONS: Results confirm the construct-validity of both methods to assess biological maturity status although further validation relative to established indicators of biological maturity is needed. Furthermore, caution is also warranted when interpreting maturity status classification methods interchangeably given the poor concordance between classification methods.