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Comparison of Effectiveness of Body Mass Index and BioelectricalImpedance Methods in Assessment of Obesity

Year 2014, , 67 - 86, 30.12.2014
https://doi.org/10.1501/antro_0000000303

Abstract

Objective: Obesity is a common public health problem in both developed and developing countries nowadays. Due to health risks associated with obesity, easy, precise, reliable, cost-effective, and broadly applicable methods are necessary for its assessment in population based studies and in clinical practice. The purpose of this study was to determine the prevalence of obesity in university students according to the international standards of body mass index and body fat percentage obtained by bioelectrical impedance and to compare these two different methods for defining obesity. Material and Methods: A cross-sectional study was carried out among 400 undergraduate students from Ankara University, Ankara, the capital of Turkey. Body height was measured with a portable stadiometer (Holtain Ltd. Harpenden). Body weight, body fat mass, body fat percent, fat free mass and total body water were obtained using BIA method by Tanita BC-418 MA (Tanita Corporation of America, Inc., Arlington Heights, IL). Results: Mean body fat percent assessed by bioelectrical impedance was 25.3 ± 7.2% in women and 15.99 ± 5.6% in men. This study demonstrated a lower prevalence of overweight and obesity in university students compared with Turkish general population. Our observation has also established that there is significant correlation between body fat and body mass index in both sexes (p=0.000). Furthermore, this correlation was greater in women compared with men. Conclusion: Our results show that bioelectrical impedance is more useful than body mass index in assessment of obesity in population based studies. Key words: Obesity; Bioelectrical impedance; Body mass index

References

  • Amani, R. (2007) “Comparison between bioelectrical impedance analysis and body mass index methods in determination of obesity prevalence in Ahvazi women”, Eur J Clin Nutr. 61(4), 478–482.
  • Arroyo, M., Rocandio, AM., Ansotegui, L., Herrera, H., Salces, I., Rebato, E. (2004) “Comparison of predicted body fat percentage from anthropometric methods and from impedance in university students”, Br J Nutr. 92(5), 827-832.
  • Bevegni, C., Adami, GF. (2003) “Obesity and obesity surgery in ancient Greece”, Obes. Surg. 13,808–809.
  • Bodur, S., Uğuz, M. (2007) “The evaluating of body fat percentage by using body mass index and bioelectrical impedance analysis in 11 to 15 years old children”, Genel Tıp Dergisi, 17(1), 21-27.
  • Bowden, RG., Lanning, BA., Doyle, EI., Johnston, HM., Nassar, EI., Slonaker, B., Scanes, G., Rasmussen, C. (2005) “Comparison of body composition measures to dual-energy X-ray absorptiometry”, J Exerc Physiol, 8(2), 1–9.
  • Bozkirli, E., Ertorer, ME., Bakiner, O., Tutuncu, NB., Demirag, NG. (2007) “The validity of the World Health Organisation's obesity body mass index criteria in a Turkish population: a hospital-based study”, Asia Pac J Clin Nutr., 16(3), 443-447.
  • Brown, PJ. (1991) “Culture and the evolution of obesity”, Hum. Nat. , 2, 31–57.
  • Brown, PJ., Krick, SV. (2001) “Culture and ethnicity in the etiology of obesity: diet, television and the illusion of personal choice”, Obesity, Physical Growth and Development, F.E. Johnston, G. Foster, (Ed.) London: Smith-Gordon, 111–57.
  • Carrasco, F., Reyes, E., Rimler, O., Rios, F. (2004) “Predictive accuracy of body mass index in estimating body fatness measured by bioelectrical impedance”, Arch Latinoam Nutr., 54, 280–286.
  • Charbonneau-Roberts, G., Saudny-Unterberger, H., Kuhnlein, HV., Egeland, GM. (2005) “Body mass index may overestimate the prevalence of overweight and obesity among the Inuit”, Int J Circumpolar Health, 64, 163-9.
  • Cordain, L., Eaton, SB., Sebastian, A., Mann, N., Lindeberg, S., Watkins, BA., O'Keefe, JH., Brand-Miller, J. (2005) “Origins and evolution of the Western diet: health implications for the 21st century”, Am J Clin Nutr., 81(2), 341-54.
  • Demerath, EW., Reed, D., Rogers, N., Sun, SS., Lee, M., Choh, AC., Couch, W., Czerwinski, SA., Chumlea, WC., Siervogel, RM., Towne, B. (2008) “Visceral adiposity and its anatomical distribution as predictors of the metabolic syndrome and cardiometabolic risk factor levels”, Am J Clin Nutr., 88(5), 1263-71.
  • Deurenberg, P., Deurenberg-Yap, M., Guricci, S. (2002) “Asians are different from Caucasians and from each other in their body mass index/body fat percent relationship”, Obes Rev., 3, 141-146.
  • Diniz Araujo, ML., Coelho Cabral, P., Kruze Grande de Arruda, I., Siqueira Tavares Falcao, AP., Silva Diniz, A. (2012) “Body fat assessment by bioelectrical impedance and its correlation with anthropometric indicators”., Nutr Hosp., 27(6), 1999-2005.
  • Dittmar, M. (2003) “Reliability and variability of bioimpedance measures in normal adults: effects of age, gender, and body mass”, Am J Phys Anthropol., 122, 361-370.
  • Erceg, DN., Dieli-Conwright, CM., Rossuello, AE., Jensky, NE., Sun, S., Schroeder, ET. (2010) “The Stayhealthy bioelectrical impedance analyzer predicts body fat in children and adults” , Nutr Res., 30, 297-304.
  • Frankenfield, DC., Rowe, WA., Cooney, RN., Smith, JS., Becker, D. (2001) “Limits of body mass index to detect obesity and predict body composition”, Nutrition, 17, 26–30.
  • Freedman, DS., Khan, LK., Serdula, MK., Dietz, WH., Srinivasan, SR., Berenson, GS. (2004) “Inter-relationships among childhood BMI, childhood height, and adult obesity: the Bogalusa Heart Study”, Int J Obes Relat Metab Disord., 28, 10-16.
  • Gupta, N., Balasekaran, G., Victor Govindaswamy, V., Hwa, CY., Shun, LM. (2011) “Comparison of body composition with bioelectric impedance (BIA) and dual energy X-ray absorptiometry (DEXA) among Singapore Chinese” , J Sci Med Sport., 14(1), 33-35.
  • Gültekin, T, Ozer, BK., Akin, G., Bektas, Y., Sagir, M., Gülec, E. (2009) “Prevalence of overweight and obesity in Turkish adults”, Anthropol Anz., 6, 205-212.
  • Güney,, E., Özgen, AG., Saraç, F., Yılmaz, C., Kabalak, T. (2003) “Comparison of bioelectrical impedance and other methods used for diagnosis of obesity”, ADÜ Tıp Fakültesi Dergisi, 2(4), 15- 18.
  • Habib, SS. (2013) “Body mass index and body fat percentage in assessment of obesity prevalence in Saudi adults”, Biomed Environ Sci., 26(2), 94-99.
  • Heydari, ST., Ayatollahi, SM., Zare, N. (2011) “Diagnostic value of bioelectrical impedance analysis versus body mass index for detection of obesity among students”, Asian J Sports Med,. 2(2), 68-74.
  • Heymsfield, SB., Lohman, TG., Wang, Z., Going, SB. (2005) Human body composition, Human Kinetics: Champaign, IL.
  • Kahn, HS., Williamson, DF. (1994) “Abdominal obesity and mortality risk among men in nine-teenth century North America”, Int. J. Obes., 18, 686–91.
  • Kaya, A., Tonyukuk Gedik, V., Bayram, F., Bahçeci, M., (2011) Obesity, dislipidemia, hypertension guidelines for physician, TEMD. Ankara.
  • Kaya, H., Özçelik, O. (2009) “Comparison of effectiveness of body mass index and bioelectric impendace analysis methoods on body composition in subjects with different ages and sex”, F.Ü. Sağ. Bil. Tıp Derg., 23(1), 01-05.
  • Kennedy, AP., Shea, JL., Sun, G. (2009) “Comparison of the classification of obesity by BMI vs. dual-energy X-ray absorptiometry in the Newfoundland population”, 17(11), 2094-9.
  • Kontogianni, MD., Panagiotakos, DB., Skopouli, FN. (2005) “Does body mass index reflect adequately the body fat content in perimenopausal women?” Maturitas, 51, 307–313.
  • Lee, SY., Gallagher, D. (2008) “Assessment methods in human body composition”, Curr Opin Clin Nutr Metab Care, 11(5), 566-72.
  • Moran, C., Garcia-Hernandez, E., Cortes, MA., Calzada, L., Salazar, L.,
  • Bermudez, JA. (1996) “Estradiol and progesterone endometrial receptors and body fat distribution in obese women”, Gynecol Obstet Invest., 42(2), 117-9.
  • Okorodudu, DO., Jumean, MF., Montori, VM., Romero-Corral, A., Somers, VK., Erwin, PJ., Lopez-Jimenez, F. (2010) “Diagnostic performance of body mass index to identify obesity as defined by body adiposity: a systematic review and meta-analysis”, International Journal of Obesity, 34, 791–799.
  • Organization for Economic Co-operation and Development (OECD). (2012).
  • Obesity update 2012, http://www.oecd.org/health/49716427.pdf
  • Özçelik, O., Çolak, R., Ayan, V., Aslan, M. (2002) “Comparison of body mass index and bioelectircal impedance analysis in assessment of body composition of adolescents”, Fırat Tıp Dergisi, 7(4), 865-870.
  • Peltz, G., Aguirre, MT., Sanderson, M., Fadden, MK. (2010) “The role of fat mass index in determining obesity”, Am J Hum Biol., 22(5), 639-647.
  • Pontzer, H., Raichlen, DA., Wood, BM., Mabulla, AZP., Racette, SB., Marlowe, FW. (2012) “Hunter-Gatherer Energetics and Human Obesity”, PLoS ONE 7(7):e40503.
  • Romero-Corral, A., Somers, VK., Sierra-Johnson, J., Thomas, RJ., Collazo-Clavell, ML., Korinek, J., Allison, TG., Batsis,
  • JA., Sert-Kuniyoshi, FH., Lopez-Jimenez, F. (2008) “Accuracy of body mass index in diagnosing obesity in the adult general population”, Int J Obes., 32(6), 959-66.
  • Sandeep, S., Gokulakrishnan, K., Velmurugan, K., Deepa, M., Mohan, V. (2010) “Visceral and subcutaneous abdominal fat in relation to insulin resistance & metabolic syndrome in non-diabetic south Indians”, Indian J Med Res., 131, 629-35.
  • Speliotes ve diğer., (2010) “Association analyses of 249,796 individuals reveal 18 new loci associated with body mass index”, Nat. Genet., 42(11), 937-48. Sun, G., French, CR., Martin, GR.,
  • Younghusband, B., Green, RC., Xie, YG., Mathews, M., Barron, JR., Fitzpatrick, DG.,
  • Gulliver, W., Zhang, H. (2005) “Comparison of multifrequency bioelectrical impedance analysis with dual-energy X-ray absorptiometry for assessment of percentage body fat in a large, healthy population”, Am J Clin Nutr., 81(1), 74-8.
  • T.C. Sağlık Bakanlığı. (2010). Ministry of Health of Turkey General Directorate of Primary Health Care, Obesity Prevention and Control Program of Turkey (2010-2014), Ankara.
  • Trowell, H. (1975) “Obesity in the Western World”, Plant Foods Man, 1, 157–65.
  • Türk Erişkinlerinde Kalp Hastalıkları ve Risk Faktörleri (TEKHARF) (2009). http://tekharf.org/2009.html.
  • Türkiye Diyabet, Hipertansiyon, Obezite ve Endokrinolojik Hastalıklar Prevalans Çalışması (TURDEP). (2010) http://www.turkendokrin.org
  • Ulijaszek, SJ., Lofink, H. (2006) “Obesity from biocultural perspective”, Annual Reviews in Anthropology, 35,337-60.
  • Weiner, JS., Lourie, JA. (1981) Practical Human Biology, Academic Press, New York.
  • World Health Organization (WHO). (1995). Physical status: The use and interpretation of anthropometry. WHO Technical Report Series.
  • World Health Organization (WHO). (2013) Overweight and obesity, http://www.who.int/features/factfiles/obesity/en/.

Obezitenin Değerlendirilmesinde Beden Kütle İndeksi ve Biyoelektrik Empedans Metotlarının Etkinliğinin Karşılaştırılması

Year 2014, , 67 - 86, 30.12.2014
https://doi.org/10.1501/antro_0000000303

Abstract

Amaç: Obezite günümüzde hem gelişmiş hem de gelişmekte olan ülkelerde karşımıza çıkan önemli bir halk sağlığı problemidir. Obezitenin sağlık riskleri ile yakından ilişkili olması, geniş örneklem gruplarında ve klinik uygulamalarda uygulaması kolay, güvenilir, düşük maliyetli tanı metotlarının gerekliliğine işaret etmektedir. Bu bağlamda araştırmamızda populasyon çalışmalarında kullanımı sıklıkla tercih edilen beden kütle indeksi ve biyoelektrik empedans metotları yardımı ile obezite prevelansının belirlenmesi ve bu iki metodun hassasiyetlerinin karşılaştırılması amaçlanmaktadır. Gereç ve Yöntemler: Araştırma kapsamında Ankara Üniversitesi Dil ve Tarih-Coğrafya Fakültesi'nin farklı bölümlerinde öğrenimini sürdüren 400 lisans öğrencisinden kesitsel yöntem ile ağırlık, boy ve vücut kompozisyonu değişkenlerine ait veriler toplanmıştır. Boy uzunluğu ölçümünde taşınabilir stadiyometre (Holtain Ltd. Harpenden), ağırlık, yağ kütlesi, vücut yağ yüzdesi, yağsız vücut kütlesi ve total vücut suyu değişkenlerinin ölçümünde ise Tanita BC-418 MA (50Hz) model vücut analizatörü (Tanita Corporation of America, Inc., Arlington Heights, IL) kullanılmıştır. Bulgular: Biyoelektrik empedans yöntemi ile elde edilen vücut yağ yüzdesi ortalama değerleri kadınlarda %25.3+7.2, erkeklerde %15.99+5.6 olarak tespit edilmiştir. Üniversite öğrencilerinden elde edilen obezite prevelansı değerlerinin ülkemiz genel populasyonu değerlerinden daha düşük olduğu görülmektedir. Her iki cinsiyette de yağ kütlesi ve beden kütle indeksi arasında güçlü korelasyonların olduğu belirlenmiştir (p=0.000). Ek olarak bu korelasyonlar kadınlarda erkeklere göre daha yüksektir. Sonuç: Populasyon çalışmalarında obezitenin değerlendirilmesinde beden kütle indeksine göre biyoelektrik empedans metodunun kullanılmasının daha uygun olduğu görülmektedir

References

  • Amani, R. (2007) “Comparison between bioelectrical impedance analysis and body mass index methods in determination of obesity prevalence in Ahvazi women”, Eur J Clin Nutr. 61(4), 478–482.
  • Arroyo, M., Rocandio, AM., Ansotegui, L., Herrera, H., Salces, I., Rebato, E. (2004) “Comparison of predicted body fat percentage from anthropometric methods and from impedance in university students”, Br J Nutr. 92(5), 827-832.
  • Bevegni, C., Adami, GF. (2003) “Obesity and obesity surgery in ancient Greece”, Obes. Surg. 13,808–809.
  • Bodur, S., Uğuz, M. (2007) “The evaluating of body fat percentage by using body mass index and bioelectrical impedance analysis in 11 to 15 years old children”, Genel Tıp Dergisi, 17(1), 21-27.
  • Bowden, RG., Lanning, BA., Doyle, EI., Johnston, HM., Nassar, EI., Slonaker, B., Scanes, G., Rasmussen, C. (2005) “Comparison of body composition measures to dual-energy X-ray absorptiometry”, J Exerc Physiol, 8(2), 1–9.
  • Bozkirli, E., Ertorer, ME., Bakiner, O., Tutuncu, NB., Demirag, NG. (2007) “The validity of the World Health Organisation's obesity body mass index criteria in a Turkish population: a hospital-based study”, Asia Pac J Clin Nutr., 16(3), 443-447.
  • Brown, PJ. (1991) “Culture and the evolution of obesity”, Hum. Nat. , 2, 31–57.
  • Brown, PJ., Krick, SV. (2001) “Culture and ethnicity in the etiology of obesity: diet, television and the illusion of personal choice”, Obesity, Physical Growth and Development, F.E. Johnston, G. Foster, (Ed.) London: Smith-Gordon, 111–57.
  • Carrasco, F., Reyes, E., Rimler, O., Rios, F. (2004) “Predictive accuracy of body mass index in estimating body fatness measured by bioelectrical impedance”, Arch Latinoam Nutr., 54, 280–286.
  • Charbonneau-Roberts, G., Saudny-Unterberger, H., Kuhnlein, HV., Egeland, GM. (2005) “Body mass index may overestimate the prevalence of overweight and obesity among the Inuit”, Int J Circumpolar Health, 64, 163-9.
  • Cordain, L., Eaton, SB., Sebastian, A., Mann, N., Lindeberg, S., Watkins, BA., O'Keefe, JH., Brand-Miller, J. (2005) “Origins and evolution of the Western diet: health implications for the 21st century”, Am J Clin Nutr., 81(2), 341-54.
  • Demerath, EW., Reed, D., Rogers, N., Sun, SS., Lee, M., Choh, AC., Couch, W., Czerwinski, SA., Chumlea, WC., Siervogel, RM., Towne, B. (2008) “Visceral adiposity and its anatomical distribution as predictors of the metabolic syndrome and cardiometabolic risk factor levels”, Am J Clin Nutr., 88(5), 1263-71.
  • Deurenberg, P., Deurenberg-Yap, M., Guricci, S. (2002) “Asians are different from Caucasians and from each other in their body mass index/body fat percent relationship”, Obes Rev., 3, 141-146.
  • Diniz Araujo, ML., Coelho Cabral, P., Kruze Grande de Arruda, I., Siqueira Tavares Falcao, AP., Silva Diniz, A. (2012) “Body fat assessment by bioelectrical impedance and its correlation with anthropometric indicators”., Nutr Hosp., 27(6), 1999-2005.
  • Dittmar, M. (2003) “Reliability and variability of bioimpedance measures in normal adults: effects of age, gender, and body mass”, Am J Phys Anthropol., 122, 361-370.
  • Erceg, DN., Dieli-Conwright, CM., Rossuello, AE., Jensky, NE., Sun, S., Schroeder, ET. (2010) “The Stayhealthy bioelectrical impedance analyzer predicts body fat in children and adults” , Nutr Res., 30, 297-304.
  • Frankenfield, DC., Rowe, WA., Cooney, RN., Smith, JS., Becker, D. (2001) “Limits of body mass index to detect obesity and predict body composition”, Nutrition, 17, 26–30.
  • Freedman, DS., Khan, LK., Serdula, MK., Dietz, WH., Srinivasan, SR., Berenson, GS. (2004) “Inter-relationships among childhood BMI, childhood height, and adult obesity: the Bogalusa Heart Study”, Int J Obes Relat Metab Disord., 28, 10-16.
  • Gupta, N., Balasekaran, G., Victor Govindaswamy, V., Hwa, CY., Shun, LM. (2011) “Comparison of body composition with bioelectric impedance (BIA) and dual energy X-ray absorptiometry (DEXA) among Singapore Chinese” , J Sci Med Sport., 14(1), 33-35.
  • Gültekin, T, Ozer, BK., Akin, G., Bektas, Y., Sagir, M., Gülec, E. (2009) “Prevalence of overweight and obesity in Turkish adults”, Anthropol Anz., 6, 205-212.
  • Güney,, E., Özgen, AG., Saraç, F., Yılmaz, C., Kabalak, T. (2003) “Comparison of bioelectrical impedance and other methods used for diagnosis of obesity”, ADÜ Tıp Fakültesi Dergisi, 2(4), 15- 18.
  • Habib, SS. (2013) “Body mass index and body fat percentage in assessment of obesity prevalence in Saudi adults”, Biomed Environ Sci., 26(2), 94-99.
  • Heydari, ST., Ayatollahi, SM., Zare, N. (2011) “Diagnostic value of bioelectrical impedance analysis versus body mass index for detection of obesity among students”, Asian J Sports Med,. 2(2), 68-74.
  • Heymsfield, SB., Lohman, TG., Wang, Z., Going, SB. (2005) Human body composition, Human Kinetics: Champaign, IL.
  • Kahn, HS., Williamson, DF. (1994) “Abdominal obesity and mortality risk among men in nine-teenth century North America”, Int. J. Obes., 18, 686–91.
  • Kaya, A., Tonyukuk Gedik, V., Bayram, F., Bahçeci, M., (2011) Obesity, dislipidemia, hypertension guidelines for physician, TEMD. Ankara.
  • Kaya, H., Özçelik, O. (2009) “Comparison of effectiveness of body mass index and bioelectric impendace analysis methoods on body composition in subjects with different ages and sex”, F.Ü. Sağ. Bil. Tıp Derg., 23(1), 01-05.
  • Kennedy, AP., Shea, JL., Sun, G. (2009) “Comparison of the classification of obesity by BMI vs. dual-energy X-ray absorptiometry in the Newfoundland population”, 17(11), 2094-9.
  • Kontogianni, MD., Panagiotakos, DB., Skopouli, FN. (2005) “Does body mass index reflect adequately the body fat content in perimenopausal women?” Maturitas, 51, 307–313.
  • Lee, SY., Gallagher, D. (2008) “Assessment methods in human body composition”, Curr Opin Clin Nutr Metab Care, 11(5), 566-72.
  • Moran, C., Garcia-Hernandez, E., Cortes, MA., Calzada, L., Salazar, L.,
  • Bermudez, JA. (1996) “Estradiol and progesterone endometrial receptors and body fat distribution in obese women”, Gynecol Obstet Invest., 42(2), 117-9.
  • Okorodudu, DO., Jumean, MF., Montori, VM., Romero-Corral, A., Somers, VK., Erwin, PJ., Lopez-Jimenez, F. (2010) “Diagnostic performance of body mass index to identify obesity as defined by body adiposity: a systematic review and meta-analysis”, International Journal of Obesity, 34, 791–799.
  • Organization for Economic Co-operation and Development (OECD). (2012).
  • Obesity update 2012, http://www.oecd.org/health/49716427.pdf
  • Özçelik, O., Çolak, R., Ayan, V., Aslan, M. (2002) “Comparison of body mass index and bioelectircal impedance analysis in assessment of body composition of adolescents”, Fırat Tıp Dergisi, 7(4), 865-870.
  • Peltz, G., Aguirre, MT., Sanderson, M., Fadden, MK. (2010) “The role of fat mass index in determining obesity”, Am J Hum Biol., 22(5), 639-647.
  • Pontzer, H., Raichlen, DA., Wood, BM., Mabulla, AZP., Racette, SB., Marlowe, FW. (2012) “Hunter-Gatherer Energetics and Human Obesity”, PLoS ONE 7(7):e40503.
  • Romero-Corral, A., Somers, VK., Sierra-Johnson, J., Thomas, RJ., Collazo-Clavell, ML., Korinek, J., Allison, TG., Batsis,
  • JA., Sert-Kuniyoshi, FH., Lopez-Jimenez, F. (2008) “Accuracy of body mass index in diagnosing obesity in the adult general population”, Int J Obes., 32(6), 959-66.
  • Sandeep, S., Gokulakrishnan, K., Velmurugan, K., Deepa, M., Mohan, V. (2010) “Visceral and subcutaneous abdominal fat in relation to insulin resistance & metabolic syndrome in non-diabetic south Indians”, Indian J Med Res., 131, 629-35.
  • Speliotes ve diğer., (2010) “Association analyses of 249,796 individuals reveal 18 new loci associated with body mass index”, Nat. Genet., 42(11), 937-48. Sun, G., French, CR., Martin, GR.,
  • Younghusband, B., Green, RC., Xie, YG., Mathews, M., Barron, JR., Fitzpatrick, DG.,
  • Gulliver, W., Zhang, H. (2005) “Comparison of multifrequency bioelectrical impedance analysis with dual-energy X-ray absorptiometry for assessment of percentage body fat in a large, healthy population”, Am J Clin Nutr., 81(1), 74-8.
  • T.C. Sağlık Bakanlığı. (2010). Ministry of Health of Turkey General Directorate of Primary Health Care, Obesity Prevention and Control Program of Turkey (2010-2014), Ankara.
  • Trowell, H. (1975) “Obesity in the Western World”, Plant Foods Man, 1, 157–65.
  • Türk Erişkinlerinde Kalp Hastalıkları ve Risk Faktörleri (TEKHARF) (2009). http://tekharf.org/2009.html.
  • Türkiye Diyabet, Hipertansiyon, Obezite ve Endokrinolojik Hastalıklar Prevalans Çalışması (TURDEP). (2010) http://www.turkendokrin.org
  • Ulijaszek, SJ., Lofink, H. (2006) “Obesity from biocultural perspective”, Annual Reviews in Anthropology, 35,337-60.
  • Weiner, JS., Lourie, JA. (1981) Practical Human Biology, Academic Press, New York.
  • World Health Organization (WHO). (1995). Physical status: The use and interpretation of anthropometry. WHO Technical Report Series.
  • World Health Organization (WHO). (2013) Overweight and obesity, http://www.who.int/features/factfiles/obesity/en/.
There are 52 citations in total.

Details

Primary Language Turkish
Subjects Anthropology
Other ID JA95CB59SA
Journal Section Research Articles
Authors

Yener Bektaş This is me

Timur Gültekin This is me

Galip Akın This is me

Sibel Önal

Publication Date December 30, 2014
Submission Date August 1, 2014
Acceptance Date December 1, 2014
Published in Issue Year 2014

Cite

APA Bektaş, Y., Gültekin, T., Akın, G., Önal, S. (2014). Obezitenin Değerlendirilmesinde Beden Kütle İndeksi ve Biyoelektrik Empedans Metotlarının Etkinliğinin Karşılaştırılması. Antropoloji(28), 67-86. https://doi.org/10.1501/antro_0000000303

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