Body composition assessment by anthropometry and bioelectrical impedance
Keywords:
body composition, body mass index, anthropometry/methods, electric impedance, adult
Abstract
Introduction. Anthropometry and electric impedance methods are widely used for body composition assessment. However the evidence is unclear whether the results obtained from the two methods can be compared.Objective. Two methods are compared for assessment of body composition; anthropometry and electric impedance.
Materials and methods. Body composition was measured in 70 women; aged 22 to 56 and 53 men; aged 24 to 54, using anthropometry (Durning/Womersley and Jackson/Pollock skinfolds equations) and electric impedance (foot to foot electric impedance) to obtain percentage body fat.
Results. The mean percentage body fat was significant higher with Durning/Womersley (25.2%) than Jackson/Pollock (20.1%) and electric impedance (19.3%) for men (p<0.001). The mean percentage body fat was significant higher with Durning/Womersley (36.9%) than Jackson/Pollock (31.0%) and electric impedance (27.6%) for women (p<0.001). Correlation coefficient was high when two methods were compared (r>0.77) however, the concordance between methods to classify obesity subjects was low (K<0.5).
Conclusions. The percentages obtained from the anthropometry method were higher than the bioelectrical impedance method. A significant difference was found between methods applied in men and women, and therefore these methods are not comparable.
Downloads
Download data is not yet available.
References
1. Seidell JC. Relationships of total and regional body fat composition to morbidity and mortality. En: Roche AF, Heymsfield SB, Lohman TG, editors. Human Body Composition. Champaign IL: Human Kinetics Publishers; 1996. p.345-53.
2. Malina RM, Bouchard C. The study of growth, maturation and performance. En: Malina RM, Bouchard C, editors.Growth, maturation an physical activity. Champaign IL: Human Kinetics Publishers; 1991. p.11-20.
3. Boileau RA, Horswirr CA. Body composition in sports: Measurement and applications for weight loss and gain. In: Garret WE, Kirkendall DT, editors. Exercise and sport science. Philadelphia: Lippincontt Williams and Wilkins; 2000. p.319-38.
4. Lukaski HC. Methods for assessment of human body composition: traditional and new. Am J Clin Nutr. 1987;46:537-56.
5. Wang ZM, Heshka S, Pierson RN Jr, Heymsfield SB. Systematic organization of body-composition methodology: an overview with emphasis on componentbased methods. Am J Clin Nutr. 1995;61:457-65.
6. Roche AF. Anthropometry and ultrasound. En: Roche AF, Heymsfield SB, Lohman TG, editors. Human body composition. Champaign IL: Human Kinetics Publishers; 1996. p.167-82.
7. Valtueña S, Arija V, Salas Salvadó J. Estado actual de los métodos de evaluación de la composición corporal: descripción, reproducibilidad, precisión, ámbitos de aplicación, seguridad, coste y perspectivas de futuro. Med Clin (Barc). 1996;106:624-35.
8. Urrejola P, Hodgson MI, Icaza MG. Evaluación de la composición corporal en niñas usando impedanciometría eléctrica y pliegues subcutáneos. Rev Chil Pediatr. 2001;72:26-33.
9. World Health Organization. Obesity: preventing and managing the global epidemic. In: Report of World Health Organization Consultation on Obesity. Geneva 3-5 june, 1997. Geneva: World Health Organization; 1998. p.1-276.
10. Lohman TG. Prediction equations and skinfolds, bioelectrical impedance, and body mass index. In: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.37-56.
11. Durnin JV, Womersley J. A comparison of the skinfold method with extent of "overweight" and various weightheight relationships in assessment of obesity. Br J Nutr. 1977;38:271-84.
12. Lohman TG. Skinfolds and body density and their relation to body fatness: A review. Hum Biol. 1983;53:181-225.
13. Brodie DA. Techniques of measurement of body composition. Part I. Sports Med. 1988;5:11-40.
14. Brodie DA. Techniques of measurement of body composition. Part II. Sports Med. 1988;5:74-98.
15. Jackson AS, Pollock ML. Practical assessment of body composition. Phys Sports Med. 1985;13:76-89.
16. Durnin JV, Womersley J. Body fat assessed from total body density and its estimation from skinfold thickness: measurements on 481 men and women aged from 16 to 72 years. Br J Nutr. 1974;32:77-97.
17. Jackson AS, Pollock ML. Generalized equations for predicting body density of men. Br J Nutr. 1978;40:497-504.
18. Foster KR, Lukaski HC. Whole-body impedance -what does it measure? Am J Cli Nutr. 1996;64(Suppl.3):388-96.
19. Kotler DP, Burastero S, Wang J, Pierson RN Jr. Prediction of body cell mass, fat-free mass, and total body water with bioelectrical impedance analysis: effects of race, sex and disease. Am J Clin Nutr. 1996;64(Suppl.3):489-97.
20. Casanova-Román M, Rodríguez I, Rico de Cos S, Casanova-Bellido M. Análisis de la composición corporal por parámetros antropométricos y bioeléctricos. An Pediatr (Barc). 2004;61:23-31.
21. Lupoli L, Sergi G, Coin A, Perissinotto E, Volpato E, Busetto L, et al. Body composition in underweight elderly subjects: reliability of bioelectrical impedance analysis. Clin Nutr. 2004;23:1371-80.
22. Ellis KJ. Selected body composition methods can be used in field studies. J Nutr 2001;131:1589-95.
23. Gualdi-Russo ET, Toselli S. Influence of various factors on the measurement of multifrequency bioimpedance. Homo. 2002;53:1-16.
24. Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, Gómez JM, et al. Bioelectrical impedance analysis-part I: review of principles and methods. Clin Nutr. 2004;23:1226-42.
25. Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, Gómez JM, et al. Bioelectrical impedance analysis-part II: utilization in clinical practice. Clin Nutr. 2004;23:1430-53.
26. Martínez E. Validación de los métodos antropométricos para la estimación de la grasa corporal en adultos de origen latinoamericano. Lec Nutr. 2002;9:9-23.
27. TANITA. Manual de instrucciones del analizador de la composición corporal TBF300. Tokio: TANITA Corporation; 2000. p.1-40.
28. Harrison G, Buskirk ER, Carter JE, Johnston FE, Lohman TG, Pollock ML, et al. Skinfold thicknesses and measurement technique. En: Lohman TG, Roche AF, Martorell R, editors. Antropometric standardization reference manual. Champaign IL: Human Kinetics Publishers; 1988. p.55-70.
29. Lohman TG. The prevalence of obesity in children in the United States. En: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.79-89.
30. Deurenberg P, Andreoli A, Borg P, Kukkonen-Harjula K, De-Lorenzo A, Van-Marken L, et al. The validity of predicted body fat percentage from body mass index and from impedance in samples of five
European populations. Eur J Clin Nutr. 2001;55:973-9.
31 Heyward VH, Stolarczyk LM. Body composition basics. En: Heyward VH, Stolarczyk LM, editors. Applied body composition assessment. Champaign IL: Human Kinetics Publishers; 1996. p.2-20.
32. Norton K. Estimación antropométrica de la grasa o adiposidad. En: Norton K, Olds T, editores. Antropométrica. Rosario: Biosystem Servicio Educativo; 2000. p.116-36.
33. Nuñez CH, Gallagher D, Visser M, Pisunyer F, Wang Z, Heymsfield SB. Bioimpedance analysis: evaluation of leg-to-leg system based on pressure contact footpad electrodes. Med Sci Sports Exerc. 1997;29:524-31.
34. National Institutes of Health Technology. NIH Consensus statement. Bioelectrical impedance analysis in body composition measurement. National Institutes of Health Technology Assessment Conference Statement. December 12-14, 1994. Nutrition. 1996;12:749-62.
35. Lohman TG. Basic concepts in body composition assessment. En: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.1-5.
2. Malina RM, Bouchard C. The study of growth, maturation and performance. En: Malina RM, Bouchard C, editors.Growth, maturation an physical activity. Champaign IL: Human Kinetics Publishers; 1991. p.11-20.
3. Boileau RA, Horswirr CA. Body composition in sports: Measurement and applications for weight loss and gain. In: Garret WE, Kirkendall DT, editors. Exercise and sport science. Philadelphia: Lippincontt Williams and Wilkins; 2000. p.319-38.
4. Lukaski HC. Methods for assessment of human body composition: traditional and new. Am J Clin Nutr. 1987;46:537-56.
5. Wang ZM, Heshka S, Pierson RN Jr, Heymsfield SB. Systematic organization of body-composition methodology: an overview with emphasis on componentbased methods. Am J Clin Nutr. 1995;61:457-65.
6. Roche AF. Anthropometry and ultrasound. En: Roche AF, Heymsfield SB, Lohman TG, editors. Human body composition. Champaign IL: Human Kinetics Publishers; 1996. p.167-82.
7. Valtueña S, Arija V, Salas Salvadó J. Estado actual de los métodos de evaluación de la composición corporal: descripción, reproducibilidad, precisión, ámbitos de aplicación, seguridad, coste y perspectivas de futuro. Med Clin (Barc). 1996;106:624-35.
8. Urrejola P, Hodgson MI, Icaza MG. Evaluación de la composición corporal en niñas usando impedanciometría eléctrica y pliegues subcutáneos. Rev Chil Pediatr. 2001;72:26-33.
9. World Health Organization. Obesity: preventing and managing the global epidemic. In: Report of World Health Organization Consultation on Obesity. Geneva 3-5 june, 1997. Geneva: World Health Organization; 1998. p.1-276.
10. Lohman TG. Prediction equations and skinfolds, bioelectrical impedance, and body mass index. In: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.37-56.
11. Durnin JV, Womersley J. A comparison of the skinfold method with extent of "overweight" and various weightheight relationships in assessment of obesity. Br J Nutr. 1977;38:271-84.
12. Lohman TG. Skinfolds and body density and their relation to body fatness: A review. Hum Biol. 1983;53:181-225.
13. Brodie DA. Techniques of measurement of body composition. Part I. Sports Med. 1988;5:11-40.
14. Brodie DA. Techniques of measurement of body composition. Part II. Sports Med. 1988;5:74-98.
15. Jackson AS, Pollock ML. Practical assessment of body composition. Phys Sports Med. 1985;13:76-89.
16. Durnin JV, Womersley J. Body fat assessed from total body density and its estimation from skinfold thickness: measurements on 481 men and women aged from 16 to 72 years. Br J Nutr. 1974;32:77-97.
17. Jackson AS, Pollock ML. Generalized equations for predicting body density of men. Br J Nutr. 1978;40:497-504.
18. Foster KR, Lukaski HC. Whole-body impedance -what does it measure? Am J Cli Nutr. 1996;64(Suppl.3):388-96.
19. Kotler DP, Burastero S, Wang J, Pierson RN Jr. Prediction of body cell mass, fat-free mass, and total body water with bioelectrical impedance analysis: effects of race, sex and disease. Am J Clin Nutr. 1996;64(Suppl.3):489-97.
20. Casanova-Román M, Rodríguez I, Rico de Cos S, Casanova-Bellido M. Análisis de la composición corporal por parámetros antropométricos y bioeléctricos. An Pediatr (Barc). 2004;61:23-31.
21. Lupoli L, Sergi G, Coin A, Perissinotto E, Volpato E, Busetto L, et al. Body composition in underweight elderly subjects: reliability of bioelectrical impedance analysis. Clin Nutr. 2004;23:1371-80.
22. Ellis KJ. Selected body composition methods can be used in field studies. J Nutr 2001;131:1589-95.
23. Gualdi-Russo ET, Toselli S. Influence of various factors on the measurement of multifrequency bioimpedance. Homo. 2002;53:1-16.
24. Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, Gómez JM, et al. Bioelectrical impedance analysis-part I: review of principles and methods. Clin Nutr. 2004;23:1226-42.
25. Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, Gómez JM, et al. Bioelectrical impedance analysis-part II: utilization in clinical practice. Clin Nutr. 2004;23:1430-53.
26. Martínez E. Validación de los métodos antropométricos para la estimación de la grasa corporal en adultos de origen latinoamericano. Lec Nutr. 2002;9:9-23.
27. TANITA. Manual de instrucciones del analizador de la composición corporal TBF300. Tokio: TANITA Corporation; 2000. p.1-40.
28. Harrison G, Buskirk ER, Carter JE, Johnston FE, Lohman TG, Pollock ML, et al. Skinfold thicknesses and measurement technique. En: Lohman TG, Roche AF, Martorell R, editors. Antropometric standardization reference manual. Champaign IL: Human Kinetics Publishers; 1988. p.55-70.
29. Lohman TG. The prevalence of obesity in children in the United States. En: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.79-89.
30. Deurenberg P, Andreoli A, Borg P, Kukkonen-Harjula K, De-Lorenzo A, Van-Marken L, et al. The validity of predicted body fat percentage from body mass index and from impedance in samples of five
European populations. Eur J Clin Nutr. 2001;55:973-9.
31 Heyward VH, Stolarczyk LM. Body composition basics. En: Heyward VH, Stolarczyk LM, editors. Applied body composition assessment. Champaign IL: Human Kinetics Publishers; 1996. p.2-20.
32. Norton K. Estimación antropométrica de la grasa o adiposidad. En: Norton K, Olds T, editores. Antropométrica. Rosario: Biosystem Servicio Educativo; 2000. p.116-36.
33. Nuñez CH, Gallagher D, Visser M, Pisunyer F, Wang Z, Heymsfield SB. Bioimpedance analysis: evaluation of leg-to-leg system based on pressure contact footpad electrodes. Med Sci Sports Exerc. 1997;29:524-31.
34. National Institutes of Health Technology. NIH Consensus statement. Bioelectrical impedance analysis in body composition measurement. National Institutes of Health Technology Assessment Conference Statement. December 12-14, 1994. Nutrition. 1996;12:749-62.
35. Lohman TG. Basic concepts in body composition assessment. En: Lohman TG, editors. Advances in body composition assessment. Champaign IL: Human Kinetics Publishers; 1992. p.1-5.
How to Cite
1.
Aristizábal JC, Restrepo MT, Estrada A. Body composition assessment by anthropometry and bioelectrical impedance. biomedica [Internet]. 2007 Jun. 1 [cited 2024 May 19];27(2):216-24. Available from: https://revistabiomedica.org/index.php/biomedica/article/view/217
Some similar items:
- Juan Carlos Aristizábal, María Teresa Restrepo, Amalia López, Validation by hydrodensitometry of skinfold thickness equations used for female body composition assessment , Biomedica: Vol. 28 No. 3 (2008)
- Constanza Palomino-Devia, José Antonio González-Jurado, Carlos Alberto Ramos-Parraci, Body composition and physical fitness in Colombian high school students from Ibagué , Biomedica: Vol. 37 No. 3 (2017)
- Constanza Palomino-Devia, Fernando Manuel Otero-Saborido, José Antonio González-Jurado, Analysis of adiposity and physical fitness in young Colombian students , Biomedica: Vol. 36 No. 3 (2016)
- Greta Rodríguez-Arroyo, Irene Paradisi, Merlyn Vívenes-Lugo, Dinorah Castro-Guerra, Álvaro Rodríguez-Larralde, LEP, LDLR and APOA4 gene polymorphisms and their relationship with the risk of overweight, obesity and chronic diseases in adults of the State of Sucre, Venezuela , Biomedica: Vol. 36 No. 1 (2016)
- Ana Yibby Forero , Gina Emely Morales , Luis Carlos Forero, Relationship between physical activity, sedentarism and obesity in adults, Colombia, 2015 , Biomedica: Vol. 43 No. Sp. 3 (2023): Enfermedades crónicas no transmisibles
- Elpidia Poveda, Diana Giraldo, Yibby Forero, Carlos Mendivil, Self-reported physical activity in comparison with anthropometric body fat indicators in school children , Biomedica: Vol. 28 No. 3 (2008)
- Elpidia Poveda, Ney E. Callas, César M. Baracaldo, Carlina Castillo, Patricia Hernández, Leptin levels in school age children associated with anthropometric measurements and lipid profiles , Biomedica: Vol. 27 No. 4 (2007)
- María Ximena Rojas, Rodolfo José Dennis, Reference values for respiratory parameters in the adult population of Bogotá, D.C., Colombia , Biomedica: Vol. 30 No. 1 (2010)
- Doris Cardona, Héctor Byron Agudelo, Trends in adult mortality in the city of Medellín, Colombia, 1994-2003 , Biomedica: Vol. 27 No. 3 (2007)
- Adalberto Campo, Luis Alfonso Díaz, Germán Eduardo Rueda, Validity of the brief Zung's scale for screening major depressive episode among the general population from Bucaramanga, Colombia , Biomedica: Vol. 26 No. 3 (2006)
Issue
Section
Original articles
Article metrics | |
---|---|
Abstract views | |
Galley vies | |
PDF Views | |
HTML views | |
Other views |