Assessment of Standing Multi-Frequency Bioimpedance Analyzer to Measure Body Composition of the Whole Body and Limbs in Elite Male Wrestlers

We investigated differences in body composition measurements for the whole body and limb segments in elite male wrestlers between results of multi-frequency bioelectrical impedance analyses (MFBIA) and dual energy X-ray absorptiometry (DXA). Sixty-six elite male wrestlers from Taiwan were recruited. Wrestlers’ body fat percentage (PBFWB), whole body fat-free mass (FFMWB), whole body lean soft tissue mass (LSTMWB), and fat-free mass of arms, legs and trunk (FMArms, FFMLegs, FFMTrunk) were measured by MFBIA and DXA, and analyzed using Pearson correlation coefficient and Bland–Altman plot. Correlations of FFMWB, LSTMWB, and PBFWB between devices were 0.958, 0.954, and 0.962, respectively. Limits of agreement (LOA) of Bland–Altman plot were −4.523 to 4.683 kg, −4.332 to 4.635 kg and −3.960 to 3.802%, respectively. Correlations of body composition parameters FFMArms, FFMLegs and FFMTurnk between devices in each limb segment were 0.237, 0.809, and 0.929, respectively; LOAs were −2.877 to 2.504 kg, −7.173 to −0.015 kg and −5.710 to 0.777 kg, respectively. Correlation and consistency between the devices are high for FFM, LSTM and PBF but relatively low for limb segment FFM. MFBIA may be an alternative device to DXA for measuring male wrestlers’ total body composition but limb segment results should be used cautiously.

[1]  S. Toselli,et al.  Bioelectrical impedance analysis versus reference methods in the assessment of body composition in athletes , 2022, European Journal of Applied Physiology.

[2]  Said Pertuz,et al.  Methodology, clinical applications, and future directions of body composition analysis using computed tomography (CT) images: A review. , 2021, European journal of radiology.

[3]  M. Yamada,et al.  Validating muscle mass cutoffs of four international sarcopenia‐working groups in Japanese people using DXA and BIA , 2021, Journal of cachexia, sarcopenia and muscle.

[4]  A. Smith‐Ryan,et al.  Validation of InBody 770 bioelectrical impedance analysis compared to a four‐compartment model criterion in young adults , 2021, Clinical physiology and functional imaging.

[5]  H. Lukaski,et al.  New Frontiers of Body Composition in Sport , 2021, International Journal of Sports Medicine.

[6]  D. Schroeder,et al.  The Comparison of Segmental Multifrequency Bioelectrical Impedance Analysis and Dual‐Energy X‐ray Absorptiometry for Estimating Fat Free Mass and Percentage Body Fat in an Ambulatory Population , 2020 .

[7]  D. Schroeder,et al.  The Comparison of Segmental Multi-frequency BIA and DXA for Estimating Lean Body Mass and Percent Body Fat in an Ambulatory Population. , 2020, JPEN. Journal of parenteral and enteral nutrition.

[8]  Christopher W. Bach,et al.  Body Composition of National Collegiate Athletic Association (NCAA) Division I Female Soccer Athletes through Competitive Seasons , 2020, International Journal of Sports Medicine.

[9]  Brett S. Nickerson,et al.  Reliability and Agreement of Various InBody Body Composition Analyzers as Compared to Dual-Energy X-Ray Absorptiometry in Healthy Men and Women. , 2020, Journal of clinical densitometry : the official journal of the International Society for Clinical Densitometry.

[10]  M. Borga,et al.  Reproducibility and repeatability of MRI‐based body composition analysis , 2020, Magnetic resonance in medicine.

[11]  L. Sardinha,et al.  Development and validation of BIA prediction equations of upper and lower limb lean soft tissue in athletes , 2020, European Journal of Clinical Nutrition.

[12]  L. Ardigò,et al.  Height-based model for the categorization of athletes in combat sports , 2020, European journal of sport science.

[13]  A. Smith‐Ryan,et al.  Appendicular Body Composition Analysis: Validity of Bioelectrical Impedance Analysis Compared With Dual-Energy X-Ray Absorptiometry in Division I College Athletes. , 2019, Journal of strength and conditioning research.

[14]  Jennifer L. Sanfilippo,et al.  Dual-Energy X-Ray Absorptiometry Body Composition in NCAA Division I Athletes: Exploration of Mass Distribution , 2019, Sports health.

[15]  Christopher W. Bach,et al.  Total and Regional Body Composition of NCAA Division I Collegiate Female Softball Athletes , 2019, International Journal of Sports Medicine.

[16]  Justin D. Roberts,et al.  Comparison of Dual-Energy X-ray Absorptiometry (DXA) Versus a Multi-Frequency Bioelectrical Impedance (InBody 770) Device for Body Composition Assessment after a 4-Week Hypoenergetic Diet , 2019, Journal of functional morphology and kinesiology.

[17]  J. Mayhew,et al.  Concordance Among Bioelectrical Impedance Analysis Measures of Percent Body Fat in Athletic Young Adults , 2019, International journal of exercise science.

[18]  J. Alcazar,et al.  Validation of Field Methods to Assess Body Fat Percentage in Elite Youth Soccer Players , 2018, International Journal of Sports Medicine.

[19]  T. Bosch,et al.  Total and Segmental Body Composition Examination in Collegiate Football Players Using Multifrequency Bioelectrical Impedance Analysis and Dual X-ray Absorptiometry , 2017, Journal of strength and conditioning research.

[20]  Ryan E. R. Reid,et al.  Importance of Body Composition in the National Hockey League Combine Physiological Assessments , 2017, Journal of strength and conditioning research.

[21]  Kathryn A. Keller,et al.  Body Composition and Bone Mineral Density of Division 1 Collegiate Football Players: A Consortium of College Athlete Research Study. , 2017, Journal of strength and conditioning research.

[22]  A. Bazzocchi,et al.  DXA: Technical aspects and application. , 2016, European journal of radiology.

[23]  Ryan E. R. Reid,et al.  Seasonal Changes in Whole Body and Regional Body Composition Profiles of Elite Collegiate Ice-Hockey Players , 2016, Journal of strength and conditioning research.

[24]  Ronald L. Snarr,et al.  Comparison of Total and Segmental Body Composition Using DXA and Multifrequency Bioimpedance in Collegiate Female Athletes , 2015, Journal of strength and conditioning research.

[25]  C. Zancanaro,et al.  Seasonal DXA-measured body composition changes in professional male soccer players , 2015, Journal of sports sciences.

[26]  T. Bosch,et al.  Abdominal Body Composition Differences in NFL Football Players , 2014, Journal of strength and conditioning research.

[27]  Kyungwon Oh,et al.  Characteristics of Body Fat, Body Fat Percentage and Other Body Composition for Koreans from KNHANES IV , 2011, Journal of Korean medical science.

[28]  A. Utter,et al.  Evaluation of multifrequency bioelectrical impedance analysis in assessing body composition of wrestlers. , 2010, Medicine and science in sports and exercise.

[29]  S. Heymsfield,et al.  Dual Energy X-Ray Absorptiometry Body Composition Reference Values from NHANES , 2009, PloS one.

[30]  Oktay Kaya,et al.  The relationship between body composition and anaerobic performance of elite young wrestlers. , 2007, Journal of sports science & medicine.

[31]  R. Ross,et al.  Body mass index and waist circumference independently contribute to the prediction of nonabdominal, abdominal subcutaneous, and visceral fat. , 2002, The American journal of clinical nutrition.

[32]  K. Ellis Human body composition: in vivo methods. , 2000, Physiological reviews.

[33]  R. Lansky Wrestling and Olympic-Style Lifts: In-Season Maintenance of Power and Anaerobic Endurance , 1999 .

[34]  J. Roemmich,et al.  Weight loss and wrestling training: effects on nutrition, growth, maturation, body composition, and strength. , 1997, Journal of applied physiology.

[35]  J. Roemmich,et al.  Sport-Seasonal Changes in Body Composition, Growth, Power and Strength of Adolescent Wrestlers , 1996, International journal of sports medicine.

[36]  J. Lancaster,et al.  Is it possible to derive a reliable estimate of human visceral and subcutaneous abdominal adipose tissue from simple anthropometric measurements? , 1995, Metabolism: clinical and experimental.

[37]  C. Horswill Applied Physiology of Amateur Wrestling , 1992, Sports medicine.

[38]  T. Silver,et al.  Body Composition Assessment: A Comparison of the Bod Pod, InBody 770, and DXA , 2019 .

[39]  Haddad Monoem Performance Optimization in Taekwondo: From Laboratory to Field , 2014 .

[40]  Y. Aydın,et al.  Compatibility of different methods for the measurement of visceral fat in different body mass index strata. , 2010, Diagnostic and interventional radiology.

[41]  J. Kelly,et al.  The effects of a collegiate wrestling season on body composition, cardiovascular fitness and muscular strength and endurance. , 1978, Medicine and science in sports.