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Fat-free Mass Bioelectrical Impedance Analysis Predictive Equationfor Athletes using a 4-Compartment Model

Catarina N. Matias, Francesco Campa, Diana A. Santos, Henry C. Lukaski, Luís B. Sardinha, Analiza M. Silva

2020International Journal of Sports Medicine53 citationsDOI

Abstract

Abstract Bioelectrical impedance analysis equations for fat-free mass prediction in healthy populations exist, nevertheless none accounts for the inter-athlete differences of the chemical composition of the fat-free mass. We aimed to develop a bioimpedance-based model for fat-free mass prediction based on the four-compartment model in a sample of national level athletes; and to cross-validate the new models in a separate cohort of athletes using a 4-compartment model as a criterion. There were 142 highly trained athletes (22.9±5.0 years) evaluated during their respective competitive seasons. Athletes were randomly split into development (n=95) and validation groups (n=47). The criterion method for fat-free mass was the 4-compartment model. Resistance and reactance were obtained with a phase-sensitive 50 kHz bioimpedance device. Athletic impedance-based models were developed (fat-free mass=− 2.261+0.327*Stature2/Resistance+0.525*Weight+5.462*Sex, where stature is in cm, Resistance is in Ω, Weight is in kg, and sex is 0 if female or 1 if male). Cross validation revealed R2 of 0.94, limits of agreement around 10% variability and no trend, as well as a high concordance correlation coefficient. The new equation can be considered valid thus affording practical means to quantify fat-free mass in elite adult athletes.

Topics & Concepts

Bioelectrical impedance analysisFat free massAthletesFat massConcordanceCompartment (ship)Elite athletesMedicineBody mass indexMathematicsPhysical therapyInternal medicineOceanographyGeologyBody Composition Measurement TechniquesSports Performance and TrainingThermoregulation and physiological responses