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Validity of Bioelectric Impedance Equations Used in Estimation of Fat Free Mass in Young Men and Women

Yıl 2024, , 161 - 175, 12.12.2024
https://doi.org/10.17644/sbd.1567678

Öz

The aim of this study was to determine the validity of bioelectrical impedance analysis equations used for the prediction of fat free mass (FFM) in young men and women. A total of 195 young adults, 113 males and 82 females between ages of 18 and 25 years, participated in this study voluntarily. The resistance (R) and reactance (Xc) values obtained from the participants' by using hand-to-foot BIA method were applied to 8 commonly used equations (Deurenberg 1990, Deurenberg 1991, Lohman 1992, Kyle 2001, Kyle 2003, Sun 2003, Lukaski and Bolonchuk 1987, Segal 1988) to determine the FFM. The FFM values obtained from the BIA equations were compared with the FFM values obtained from Dual Energy X-Ray Absorbsiometer (DXA), which was used as a reference method. Differences between FFM values obtained from BIA equations and DXA were analyzed by paired samples t-test. The level of accuracy between the FFM values obtained from BIA equations and DXA was determined by Lin's concordance correlation coefficient (ρc). The limits of agreement were determined as 95% for FFM which was obtained from the BIA equations and DXA. Results indicated no significant difference between FFM obtained from Lukaski ve Bolonchuk 1987 equation and measured from DXA in men (p>0.05). In men the correlation coefficient between the same equation and DXA (ρc = 0.93) was moderate. On the other hand, no significant difference was found between the FFM estimated by Deurenberg 1990, Deurenberg 1991 and Sun 2003 and measured by DXA in women (p>0.05). The concordance correlation coefficients between the FFM values obtained from these three equations and DXA were also moderate (pc 0.93, 0.91 and 0.92 respectively). The findings of this study showed that Lukaski and Bolonchuk 1987 formula can be used for predicting body composition in young men and Deurenberg 1990, Deurenberg 1991 and, Sun 2003 equations can be used for predicting body composition in young women. The findings of this study also demonstrated that the BIA equations used in the assessment of body composition are population specific.

Kaynakça

  • 1. Ackland, T. R., Lohman, T. G., Sundgot-Borgen, J., Maughan, R. J., Meyer, N. L., Stewart, A. D., ve Müller, W. (2012). Current status of body composition assessment in sport: review and position statement on behalf of the ad hoc research working group on body composition health and performance, under the auspices of the IOC Medical Commission. Sports Medicine, 42, 227-249.
  • 2. Andreacci, J. L., Nagle, T., Fitzgerald, E., Rawson, E. S., ve Dixon, C. B. (2013). Effect of exercise intensity on percent body fat determined by leg-to-leg and segmental bioelectrical impedance analyses in adults. Research Quarterly for Exercise and Sport, 84(1), 88-95.
  • 3. Andreoli, A., Scalzo, G., Masala, S., Tarantino, U., ve Guglielmi, G. (2009). Body composition assessment by dual-energy X-ray absorptiometry (DXA). La Radiologia Medica, 114(2), 286-300.
  • 4. Antonio, J., Kenyon, M., Ellerbroek, A., Carson, C., Burgess, V., Tyler-Palmer, D., Mike, J., Roberts, J., Angeli, G., ve Peacock, C. (2019). 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. Journal of Functional Morphology and Kinesiology, 4(2), 23-32. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7739224/pdf/jfmk-04-00023.pdf
  • 5. Chiarlitti, N. A., Delisle-Houde, P., Reid, R. E., Kennedy, C., ve Andersen, R. E. (2018). Importance of body composition in the national hockey league combine physiological assessments. TheJournal of Strength & Conditioning Research, 32(11), 3135-3142.
  • 6. Clasey, J. L., Kanaley, J. A., Wideman, L., Heymsfield, S. B., Teates, C. D., Gutgesell, M. E., Thorner, M. O., Hartman, M. L.ve Weltman, A. (1999). Validity of methods of body composition assessment in young and older men and women. Journal of Applied Physiology, 86(5), 1728-1738.
  • 7. Deurenberg, P., van der Kooij, K., Evers, P., ve Hulshof, T. (1990). Assessment of body composition by bioelectrical impedance in a population aged greater than 60 y. The American Journal of Clinical Nutrition, 51(1), 3-6.
  • 8. Deurenberg, P., Weststrate, J. A., ve Seidell, J. C. (1991). Body mass index as a measure of body fatness: Age-and sex-specific prediction formulas. British Journal of Nutrition, 65(2), 105-114.
  • 9. Deurenberg, P., ve Deurenberg-Yap, M. (2003). Validity of body composition methods across ethnic population groups. Acta Diabetologica, 40(1), 246 - 249.
  • 10. Eckerson, J. M., Housh, T. J., ve Johnson, G. O. (1992). Validity of bioelectrical impedance equations for estimating fat-free weight in lean males. Medicine and Science in Sports and Exercise, 24(11), 1298-1302.
  • 11. Eliakim, A., Ish-Shalom, S., Giladi, A., Falk, B., ve Constantini, N. (2000). Assessment of body composition in ballett dancers: Correlation among anthropometric measurements, bio-electrical impedance analysis, and dual-energy X-ray absorptiometry. International Journal of Sports Medicine, 21(08), 598-601.
  • 12. Gallagher, M. R., Walker, K. Z., veO'Dea, K. (1998). The influence of a breakfast meal on the assessment of body composition using bioelectrical impedance. European Journal of Clinical Nutrition, 52(2), 94-97.
  • 13. Gomez, T., Mole, P. A., ve Collins, A. (1993). Dilution of body fluid electrolytes affects bioelectrical impedance measurements. Research in Sports Medicine: An International Journal, 4(4), 291-298.
  • 14. Graves, J. E., Pollock, M. L., Colvin, A. B., Van Loan, M., ve Lohman, T. G. (1989). Comparison of different bioelectrical impedance analyzers in the prediction of body composition. American Journal of Human Biology, 1(5), 603-611.
  • 15. Hazır, T., Köse, M. G., Esatbeyoğlu, F., Ekinci, Y. E., ve İşler, A. K. (2020). Effects of high intensity exercise on body composition measured by bioelectrical ımpedance analysis. Spor Hekimligi Dergisi/Turkish Journal of Sports Medicine, 55(2).
  • 16. Hazır, T., Köse, M. G., Kulaksızoğlu, T. N., Esatbeyoğlu, F., ve İşler, A. K. (2023). Menstrual döngü ve sirkadiyen ritme göre akut yüksek şiddette egzersizin biyoelektrik empedans analizinden ölçülen faz açısı üzerine etkisi: Pilot çalışma. Spor Bilimleri Dergisi, 34(4), 185-196.
  • 17. Irving, B. A., Davis, C. K., Brock, D. W., Weltman, J. Y., Swift, D., Barrett, E. J., Gaesser, G. A., ve Weltman, A. (2008). Effect of exercise training intensity on abdominal visceral fat and body composition. Medicine and Science in Sports and Exercise, 40(11), 1863.
  • 18. Karelis, A. D., St-Pierre, D. H., Conus, F., Rabasa-Lhoret, R., ve Poehlman, E. T. (2004). Metabolicand body composition factors in subgroups of obesity: What do we know? The Journal of Clinical Endocrinology & Metabolism, 89(6), 2569-2575.
  • 19. Kyle, U. G., Genton, L., Karsegard, L., Slosman, D. O., ve Pichard, C. (2001). Single prediction equation for bioelectrical impedance analysis in adults aged 20–94 years. Nutrition, 17(3), 248-253. https://doi.org/10.1002/ajhb.23951
  • 20. Kyle, U. G., Genton, L., Hans, D., ve Pichard, C. (2003). Validation of a bioelectrical impedance analysis equation to predict appendicular skeletal muscle mass (ASMM). Clinical Nutrition, 22(6), 537-543.
  • 21. Kyle, U. G., Bosaeus, I., De Lorenzo, A. D., Deurenberg, P., Elia, M., Gómez, J. M., Heitmann, B. L., Kent-Smith, L., Melchior, J. C., Pirlich, M., Scharfetter, H., Schols, A. M. W. J., Pichard, C.,ve Composition of the ESPEN Working Group. (2004). Bioelectrical impedance analysis—part I: review of principles and methods. Clinical Nutrition, 23(5), 1226-1243.
  • 22. Kyle, U. G., Bosaeus, I., De Lorenzo, A. D., Deurenberg, P., Elia, M., Gómez, J. M., Heitmann, B. L., Kent-Smith, L., Melchior, J.C., Pirlich, M., Scharfetter, H., Schols, A. M. W. J., ve Pichard, C. (2004). Bioelectrical impedance analysis—part II: utilization in clinical practice. Clinical Nutrition, 23(6), 1430-1453.
  • 23. Langer, R., Borges, J., Pascoa, M., Cirolini, V., Guerra-Júnior, G., ve Gonçalves, E. (2016). Validity of bioelectrical impedance analysis to estimation fat-free mass in the army cadets. Nutrients, 8(3), 121-133. https://doi.org/10.3390/nu8030121
  • 24. Lawrence, I., ve Lin, K. (1992). Assay validation using the concordance correlation coefficient. Biometrics,48(2) 599-604.
  • 25. Lowry, D. W., ve Tomiyama, A. J. (2015). Air displacement plethysmography versus dual-energy x-ray absorptiometry in under weight, normal-weight, and overweight / obese individuals. PloSone, 10(1), e0115086.
  • 26. Lukaski, H. C., Johnson, P. E., Bolonchuk, W. W., ve Lykken, G. I. (1985). Assessment of fat-free mass using bioelectrical impedance measurements of the human body. The American Journal of Clinical Nutrition, 41(4), 810-817.
  • 27. Lukaski, H., ve Raymond-Pope, C. J. (2021). New frontiers of body composition in sport. International Journal of Sports Medicine, 42(07), 588-601.
  • 28. Marra, M., Sammarco, R., De Lorenzo, A., Iellamo, F., Siervo, M., Pietrobelli, A., Donini, L. M., Santarpia, L., Cataldi, M., Pasanisi, F., ve Contaldo, F. (2019). Assessment of body composition in health and disease using bioelectrical impedance analysis (BIA) and dual energy x-ray absorptiometry (DXA): A critical overview. Contrast Media & Molecular Imaging, 2019, 1-9 . https : // doi . org / https : // doi . org /10.1155/2019/3548284
  • 29. Maw, G.J., Mackenzie, I.L. ve Taylor, N.A. (1995). Redistribution of body fluids during postural manipulations. Acta Physiologica Scandinavica, 155(2), 157-63.
  • 30. Mazzoccoli, G. (2016). Body composition: Where and when. European Journal of Radiology, 85(8), 1456-1460.
  • 31. McBride, G. (2005). A proposal for strength-of-agreement criteria for Lin’s concordance correlation coefficient. NIWA Client Report: HAM2005-062.
  • 32. Öztürk, M. (2005). Üniversitede Eğitim-Öğretim Gören Öğrencilerde Uluslararası Fiziksel Aktivite Anketinin Geçerliliği ve Güvenirliği ve Fiziksel Aktivite Düzeylerinin Belirlenmesi[Yayımlanmamış Yüksek Lisans Tezi]. Hacettepe Üniversitesi.
  • 33. Moon, J. R. (2013). Body composition in athletes and sports nutrition: an examination of the bioimpedance analysis technique. European Journal of Clinical Nutrition, 67(1), S54-S59.
  • 34. Nickerson, B. S., Esco, M. R., Bishop, P. A., Schumacker, R. E., Richardson, M. T., Fedewa, M. V., Wingo, J. E., ve Welborn, B. A. (2017). Validity of Selected Bioimpedance equations for estimating body composition in men and women: A four-compartment model comparison. The Journal of Strength & Conditioning Research., 31(7), 1963-1972. https://doi.org/10.1519/JSC.0000000000001648.
  • 35. Pichard, C., Kyle, U. G., Bracco, D., Slosman, D. O., Morabia, A., ve Schutz, Y. (2000). Reference values of fat-free and fat masses by bioelectrical impedance analysis in 3393 healthy subjects. Nutrition, 16(4), 245-254.
  • 36. Roos, A.N., Westendorp, R.G., Frolich, M. ve Meinders, A.E. (1992). Tetrapolar body impedance is influenced by body posture and plasma sodium concentration. European Journal of Clinical Nutrition. 46(1), 53-60.
  • 37. Saglam, M., Arikan, H., Savci, S., Inal-Ince, D., Bosnak-Guclu, M., Karabulut, E., ve Tokgozoglu, L. (2010). International physical activity questionnaire: reliability and validity of the Turkish version. Perceptual and Motor Skills, 111(1), 278-284.
  • 38. Schierbauer, J., Günther, S., Haupt, S., Zimmer, R. T., Herz, D., Voit, T., Zimmermann, P., Wachsmuth, N. B., Aberer, F.ve Moser, O. (2023). Acute fluid intake impacts assessment of body composition via bioelectrical impedance analysis. a randomized, controlled crossover pilot trial. Metabolites, 13(4), 473.
  • 39. Sergi, G., De Rui, M., Stubbs, B., Veronese, N., ve Manzato, E. (2017). Measurement of lean body mass using bioelectrical impedance analysis: A consideration of the pros and cons. Aging Clinical and Experimental Research, 29(4), 591-597. https://doi.org/10.1007/s40520-016-0622-6
  • 40. Sun, S. S., Chumlea, W. C., Heymsfield, S. B., Lukaski, H. C., Schoeller, D., Friedl, K., Kuczmarski, R.J., Flegal, K. M., Johnson, C. L., ve Hubbard, V. S. (2003). Development of bioelectrical impedance analysis prediction equations for body composition with the use of a multicomponent model for use in epidemiologic surveys. The American Journal of Clinical Nutrition, 77(2), 331-340.
  • 41. Turnagöl, H. H. (2016). Body composition and bone mineral density of collegiate American football players. Journal of Human Kinetics, 51(1), 103-112.

Genç Erkek ve Kadınlarda Yağsız Vücut Kütlesinin Kestiriminde Kullanılan Biyoelektrik İmpedans Denklemlerinin Geçerliği

Yıl 2024, , 161 - 175, 12.12.2024
https://doi.org/10.17644/sbd.1567678

Öz

Bu çalışmanın amacı genç erkek ve kadınlarda yağsız vücut kütlesinin (YVK) kestiriminde kullanılan biyoelektrik impedans analizi (BIA) denklemlerinin geçerliğini belirlemektir. Çalışmaya yaşları 18 ila 25 arasında değişen 113 erkek, 82 kadın olmak üzere toplam 195 yetişkin gönüllü olarak katılmıştır. Katılımcıların elden ayağa BIA yöntemi kullanılarak elde edilen rezisyans (R) ve reaktans (Xc) değerleri yaygın olarak kullanılan 8 denkleme uygulanarak (Deurenberg 1990, Deurenberg 1991, Lohman 1992, Kyle 2001, Kyle 2003, Sun 2003, Lukaski ve Bolonchuk 1987, Segal 1988) YVK belirlenmiştir. BIA denklemlerinden elde edilen YVK değerleri referans yöntem olarak kullanılan Dual Enerji X-Işını Absorbsiometre’den (DXA) elde edilen YVK değerleriyle karşılaştırılmıştır. BIA denklemlerinden ve DXA’dan elde edilen YVK değerleri arasındaki farklar Bağımlı Gruplarda t Testi ile analiz edilmiştir. BIA denklemlerinden ve DXA’dan elde edilen YVK değerleri arasındaki doğruluk düzeyi Lin’in uyum (Concordance) korelasyon katsayısı (ρc) ile belirlenmiştir. Bireysel seviyede değerlendirme için her bir BIA denklemi ve DXA’dan elde edilen YVK arasında Bland-Altman grafikleme yapılmış ve %95 tutarlık sınırları belirlenmiştir. Erkeklerde Lukaski ve Bolonchuk 1987 denkleminden kestirilen YVK ve DXA’da ölçülen YVK arasında anlamlı fark saptanmamıştır (p>0.05). Benzer şekilde erkeklerde aynı denklemin DXA ile uyum korelasyon katsayısı ρc = 0.93 orta düzeydedir. Kadınlarda Deurenberg 1990, Deurenberg 1991 ve Sun 2003 ile kestirilen YVK ve DXA’da ölçülen YVK arasında anlamlı fark saptanmamıştır (p>0.05). Bu üç denklemden elde edilen YVK değerleri ve DXA arasındaki uyum korelasyon katsayıları (pc) sırasıyla 0.93, 0.91 ve 0.92’dir ve orta düzeydedir. Bu çalışmanın bulguları genç erkeklerde YVK’nın kestiriminde Lukaski ve Bolonchuk 1987, kadınlarda ise Deurenberg 1990, Deurenberg 1991 ve Sun 2003 formüllerinin kullanılabileceğini göstermiştir. Bununla beraber, bu çalışmanın bulguları vücut kompozisyonunun değerlendirilmesinde kullanılan BIA denklemlerinin popülasyon spesifik olduğunu da göstermiştir.

Kaynakça

  • 1. Ackland, T. R., Lohman, T. G., Sundgot-Borgen, J., Maughan, R. J., Meyer, N. L., Stewart, A. D., ve Müller, W. (2012). Current status of body composition assessment in sport: review and position statement on behalf of the ad hoc research working group on body composition health and performance, under the auspices of the IOC Medical Commission. Sports Medicine, 42, 227-249.
  • 2. Andreacci, J. L., Nagle, T., Fitzgerald, E., Rawson, E. S., ve Dixon, C. B. (2013). Effect of exercise intensity on percent body fat determined by leg-to-leg and segmental bioelectrical impedance analyses in adults. Research Quarterly for Exercise and Sport, 84(1), 88-95.
  • 3. Andreoli, A., Scalzo, G., Masala, S., Tarantino, U., ve Guglielmi, G. (2009). Body composition assessment by dual-energy X-ray absorptiometry (DXA). La Radiologia Medica, 114(2), 286-300.
  • 4. Antonio, J., Kenyon, M., Ellerbroek, A., Carson, C., Burgess, V., Tyler-Palmer, D., Mike, J., Roberts, J., Angeli, G., ve Peacock, C. (2019). 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. Journal of Functional Morphology and Kinesiology, 4(2), 23-32. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7739224/pdf/jfmk-04-00023.pdf
  • 5. Chiarlitti, N. A., Delisle-Houde, P., Reid, R. E., Kennedy, C., ve Andersen, R. E. (2018). Importance of body composition in the national hockey league combine physiological assessments. TheJournal of Strength & Conditioning Research, 32(11), 3135-3142.
  • 6. Clasey, J. L., Kanaley, J. A., Wideman, L., Heymsfield, S. B., Teates, C. D., Gutgesell, M. E., Thorner, M. O., Hartman, M. L.ve Weltman, A. (1999). Validity of methods of body composition assessment in young and older men and women. Journal of Applied Physiology, 86(5), 1728-1738.
  • 7. Deurenberg, P., van der Kooij, K., Evers, P., ve Hulshof, T. (1990). Assessment of body composition by bioelectrical impedance in a population aged greater than 60 y. The American Journal of Clinical Nutrition, 51(1), 3-6.
  • 8. Deurenberg, P., Weststrate, J. A., ve Seidell, J. C. (1991). Body mass index as a measure of body fatness: Age-and sex-specific prediction formulas. British Journal of Nutrition, 65(2), 105-114.
  • 9. Deurenberg, P., ve Deurenberg-Yap, M. (2003). Validity of body composition methods across ethnic population groups. Acta Diabetologica, 40(1), 246 - 249.
  • 10. Eckerson, J. M., Housh, T. J., ve Johnson, G. O. (1992). Validity of bioelectrical impedance equations for estimating fat-free weight in lean males. Medicine and Science in Sports and Exercise, 24(11), 1298-1302.
  • 11. Eliakim, A., Ish-Shalom, S., Giladi, A., Falk, B., ve Constantini, N. (2000). Assessment of body composition in ballett dancers: Correlation among anthropometric measurements, bio-electrical impedance analysis, and dual-energy X-ray absorptiometry. International Journal of Sports Medicine, 21(08), 598-601.
  • 12. Gallagher, M. R., Walker, K. Z., veO'Dea, K. (1998). The influence of a breakfast meal on the assessment of body composition using bioelectrical impedance. European Journal of Clinical Nutrition, 52(2), 94-97.
  • 13. Gomez, T., Mole, P. A., ve Collins, A. (1993). Dilution of body fluid electrolytes affects bioelectrical impedance measurements. Research in Sports Medicine: An International Journal, 4(4), 291-298.
  • 14. Graves, J. E., Pollock, M. L., Colvin, A. B., Van Loan, M., ve Lohman, T. G. (1989). Comparison of different bioelectrical impedance analyzers in the prediction of body composition. American Journal of Human Biology, 1(5), 603-611.
  • 15. Hazır, T., Köse, M. G., Esatbeyoğlu, F., Ekinci, Y. E., ve İşler, A. K. (2020). Effects of high intensity exercise on body composition measured by bioelectrical ımpedance analysis. Spor Hekimligi Dergisi/Turkish Journal of Sports Medicine, 55(2).
  • 16. Hazır, T., Köse, M. G., Kulaksızoğlu, T. N., Esatbeyoğlu, F., ve İşler, A. K. (2023). Menstrual döngü ve sirkadiyen ritme göre akut yüksek şiddette egzersizin biyoelektrik empedans analizinden ölçülen faz açısı üzerine etkisi: Pilot çalışma. Spor Bilimleri Dergisi, 34(4), 185-196.
  • 17. Irving, B. A., Davis, C. K., Brock, D. W., Weltman, J. Y., Swift, D., Barrett, E. J., Gaesser, G. A., ve Weltman, A. (2008). Effect of exercise training intensity on abdominal visceral fat and body composition. Medicine and Science in Sports and Exercise, 40(11), 1863.
  • 18. Karelis, A. D., St-Pierre, D. H., Conus, F., Rabasa-Lhoret, R., ve Poehlman, E. T. (2004). Metabolicand body composition factors in subgroups of obesity: What do we know? The Journal of Clinical Endocrinology & Metabolism, 89(6), 2569-2575.
  • 19. Kyle, U. G., Genton, L., Karsegard, L., Slosman, D. O., ve Pichard, C. (2001). Single prediction equation for bioelectrical impedance analysis in adults aged 20–94 years. Nutrition, 17(3), 248-253. https://doi.org/10.1002/ajhb.23951
  • 20. Kyle, U. G., Genton, L., Hans, D., ve Pichard, C. (2003). Validation of a bioelectrical impedance analysis equation to predict appendicular skeletal muscle mass (ASMM). Clinical Nutrition, 22(6), 537-543.
  • 21. Kyle, U. G., Bosaeus, I., De Lorenzo, A. D., Deurenberg, P., Elia, M., Gómez, J. M., Heitmann, B. L., Kent-Smith, L., Melchior, J. C., Pirlich, M., Scharfetter, H., Schols, A. M. W. J., Pichard, C.,ve Composition of the ESPEN Working Group. (2004). Bioelectrical impedance analysis—part I: review of principles and methods. Clinical Nutrition, 23(5), 1226-1243.
  • 22. Kyle, U. G., Bosaeus, I., De Lorenzo, A. D., Deurenberg, P., Elia, M., Gómez, J. M., Heitmann, B. L., Kent-Smith, L., Melchior, J.C., Pirlich, M., Scharfetter, H., Schols, A. M. W. J., ve Pichard, C. (2004). Bioelectrical impedance analysis—part II: utilization in clinical practice. Clinical Nutrition, 23(6), 1430-1453.
  • 23. Langer, R., Borges, J., Pascoa, M., Cirolini, V., Guerra-Júnior, G., ve Gonçalves, E. (2016). Validity of bioelectrical impedance analysis to estimation fat-free mass in the army cadets. Nutrients, 8(3), 121-133. https://doi.org/10.3390/nu8030121
  • 24. Lawrence, I., ve Lin, K. (1992). Assay validation using the concordance correlation coefficient. Biometrics,48(2) 599-604.
  • 25. Lowry, D. W., ve Tomiyama, A. J. (2015). Air displacement plethysmography versus dual-energy x-ray absorptiometry in under weight, normal-weight, and overweight / obese individuals. PloSone, 10(1), e0115086.
  • 26. Lukaski, H. C., Johnson, P. E., Bolonchuk, W. W., ve Lykken, G. I. (1985). Assessment of fat-free mass using bioelectrical impedance measurements of the human body. The American Journal of Clinical Nutrition, 41(4), 810-817.
  • 27. Lukaski, H., ve Raymond-Pope, C. J. (2021). New frontiers of body composition in sport. International Journal of Sports Medicine, 42(07), 588-601.
  • 28. Marra, M., Sammarco, R., De Lorenzo, A., Iellamo, F., Siervo, M., Pietrobelli, A., Donini, L. M., Santarpia, L., Cataldi, M., Pasanisi, F., ve Contaldo, F. (2019). Assessment of body composition in health and disease using bioelectrical impedance analysis (BIA) and dual energy x-ray absorptiometry (DXA): A critical overview. Contrast Media & Molecular Imaging, 2019, 1-9 . https : // doi . org / https : // doi . org /10.1155/2019/3548284
  • 29. Maw, G.J., Mackenzie, I.L. ve Taylor, N.A. (1995). Redistribution of body fluids during postural manipulations. Acta Physiologica Scandinavica, 155(2), 157-63.
  • 30. Mazzoccoli, G. (2016). Body composition: Where and when. European Journal of Radiology, 85(8), 1456-1460.
  • 31. McBride, G. (2005). A proposal for strength-of-agreement criteria for Lin’s concordance correlation coefficient. NIWA Client Report: HAM2005-062.
  • 32. Öztürk, M. (2005). Üniversitede Eğitim-Öğretim Gören Öğrencilerde Uluslararası Fiziksel Aktivite Anketinin Geçerliliği ve Güvenirliği ve Fiziksel Aktivite Düzeylerinin Belirlenmesi[Yayımlanmamış Yüksek Lisans Tezi]. Hacettepe Üniversitesi.
  • 33. Moon, J. R. (2013). Body composition in athletes and sports nutrition: an examination of the bioimpedance analysis technique. European Journal of Clinical Nutrition, 67(1), S54-S59.
  • 34. Nickerson, B. S., Esco, M. R., Bishop, P. A., Schumacker, R. E., Richardson, M. T., Fedewa, M. V., Wingo, J. E., ve Welborn, B. A. (2017). Validity of Selected Bioimpedance equations for estimating body composition in men and women: A four-compartment model comparison. The Journal of Strength & Conditioning Research., 31(7), 1963-1972. https://doi.org/10.1519/JSC.0000000000001648.
  • 35. Pichard, C., Kyle, U. G., Bracco, D., Slosman, D. O., Morabia, A., ve Schutz, Y. (2000). Reference values of fat-free and fat masses by bioelectrical impedance analysis in 3393 healthy subjects. Nutrition, 16(4), 245-254.
  • 36. Roos, A.N., Westendorp, R.G., Frolich, M. ve Meinders, A.E. (1992). Tetrapolar body impedance is influenced by body posture and plasma sodium concentration. European Journal of Clinical Nutrition. 46(1), 53-60.
  • 37. Saglam, M., Arikan, H., Savci, S., Inal-Ince, D., Bosnak-Guclu, M., Karabulut, E., ve Tokgozoglu, L. (2010). International physical activity questionnaire: reliability and validity of the Turkish version. Perceptual and Motor Skills, 111(1), 278-284.
  • 38. Schierbauer, J., Günther, S., Haupt, S., Zimmer, R. T., Herz, D., Voit, T., Zimmermann, P., Wachsmuth, N. B., Aberer, F.ve Moser, O. (2023). Acute fluid intake impacts assessment of body composition via bioelectrical impedance analysis. a randomized, controlled crossover pilot trial. Metabolites, 13(4), 473.
  • 39. Sergi, G., De Rui, M., Stubbs, B., Veronese, N., ve Manzato, E. (2017). Measurement of lean body mass using bioelectrical impedance analysis: A consideration of the pros and cons. Aging Clinical and Experimental Research, 29(4), 591-597. https://doi.org/10.1007/s40520-016-0622-6
  • 40. Sun, S. S., Chumlea, W. C., Heymsfield, S. B., Lukaski, H. C., Schoeller, D., Friedl, K., Kuczmarski, R.J., Flegal, K. M., Johnson, C. L., ve Hubbard, V. S. (2003). Development of bioelectrical impedance analysis prediction equations for body composition with the use of a multicomponent model for use in epidemiologic surveys. The American Journal of Clinical Nutrition, 77(2), 331-340.
  • 41. Turnagöl, H. H. (2016). Body composition and bone mineral density of collegiate American football players. Journal of Human Kinetics, 51(1), 103-112.
Toplam 41 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Spor ve Beslenme
Bölüm Makaleler
Yazarlar

Yasin Ergün Acar 0000-0003-0206-0130

Mehmet Gören Köse 0000-0002-8092-0557

Ayşe Kin İşler 0000-0001-9651-2067

Tahir Hazır 0000-0002-0048-0281

Yayımlanma Tarihi 12 Aralık 2024
Gönderilme Tarihi 15 Ekim 2024
Kabul Tarihi 4 Aralık 2024
Yayımlandığı Sayı Yıl 2024

Kaynak Göster

APA Acar, Y. E., Köse, M. G., Kin İşler, A., Hazır, T. (2024). Genç Erkek ve Kadınlarda Yağsız Vücut Kütlesinin Kestiriminde Kullanılan Biyoelektrik İmpedans Denklemlerinin Geçerliği. Spor Bilimleri Dergisi, 35(3), 161-175. https://doi.org/10.17644/sbd.1567678

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