More articles from Volume 45, Issue 3, 2016
Effect of low potassium concentration on cadmium induced epileptiform activity of leech retzius neurons
Application of sepsis-related organ failure assessment score in the intensive care units
Examination of myeloperoxidase activity, as an indicator of inflammation in obese participants with metabolic syndrome
The influence of head posture on the vertical dimension and the growth of facial skeleton
Levels of interleukin IL-6 in gingival fluid during orthodontic tooth movement: Children vs. adult
Assessment methods of body composition
Dea Karaba-Jakovljevic
Abstract
Keywords
References
1.
Bjorntorp P. Portal adipose tissue as a generator of risk factors for cardiovascular disease and diabetes. Atherosclerosis. 1990;493–6.
2.
Martin A, Drinkwater D. Variability in the measures of body fat. Sports Medicine. 1991;277–88.
3.
Keys A, Brozek J. Body fat in adult man. Physiol Rev. 1953;(3):245–325.
4.
Forbes R, Cooper A, Michell H. The composition of the adult human body as determined by chemical analysis. J Biol Chem. 1956;359–66.
5.
Clarys J, Martin A, Drinkwater D. Gross issue weights in the human body by cadaver dissection. Hum Biol. 1984;459–73.
6.
Behnke A, Feen B, Welham W. Specific gravity of healthy man. J Am Med Assoc. 1942;495–8.
7.
Heymsfield S, Ebbeling C, Zheng J, Pietrobelli A. Multicomponent molecular-level body composition reference methods: evolving concepts and future directions. Obes Rev. 2015;(4):282–94.
8.
Srdic B, Stokic E, Tomic-Naglic D, Jakovljevic K, D. Antropometrijske odlike metabolički zdravih žena sa prekomernom telesnom masom i gojaznošću. Journal of the Anthropological Society of Serbia. 2011;41–7.
9.
Jakovljevic K, Lukac D, Grujic D, Drapsin N, Klasnja M, A. Parametri anaerobnog fiziološkog profila vrhunskih sportista. Srp Arh Celok Lek. 2015;(7–8):423–8.
10.
Barak O, Gaćeša P, Drapšin J, M, Jakovljević K, Klašnja D, et al. Promene antropometrijskih parametara natkolenice u toku programiranog treninga snage. Praxis medica. 2007;(1–2):45–9.
11.
Gaćeša P, Barak J, Drapšin O, Klašnja M, Srdić A, B, et al. Komparativna analiza antropometrijskih i spirometrijskih parametara kod sportista. Praxis medica. 2008;(3–4):57–61.
12.
Gacesa P, Barak J, O, Jakovljevic K, Klasnja J, A. Body mass index and body fat content in elite athletes. EQOL. 2011;(2):43–8.
13.
Obesity-preventing and managing the global epidemic. Report of WHO consultation on obesity Geneve. 1997;7–17.
14.
Heyward H, Stolarczyk M. Applied Body Composition Assessment. Human Kinetics. 1996;4–19.
15.
Hayes P, Sowood P, Belyavin A. Subcutaneous fat thickness measured by magnetic resonance imaging, ultrasound and calipers. Med Sci Sport Exerc. 1988;(3):303–9.
16.
Harrison G, Buskirk E, Carter L, J. 1988;55–70.
17.
Khaled M, Mccutcheon M, Reddy S, Pearman P, Hunter G. Electrical impedance in assesing human body composition: The BIA method. Am J Clin Nutr. 1988;789–92.
18.
Deurenberg P, Weststrate J, Hautvast J. Van der Kooy I. Is the bioelectrical impedance method valid? American Journal of Clinical Nutrition. 1991;179.
19.
Lee Y, Kwon O, Shin C, Lee M, S. Use of Bioelectrical Impedance Analysis for the Assessment of Nutritional Status in Critically Ill Patients. Clin Nutr Res. 2015;(1):32–40.
20.
Kutac P, Kopecky M. Comparison of body fat using various bioelectrical impedance analyzers in university students. Acta Gymnica. 2015;(4):177–86.
21.
Behnke A, Wilmore J. Evaluation and regulation of body build and composition. 1974;
22.
Brozek J, Grande F, Anderson T, Keys A. Densitometric analysis of body composition: revision of some quantative assumptions. Ann NY Acad Sci. 1963;113–40.
23.
Buskirk E. Underwater weighing and body density: a review of procedures. 1961;90–105.
24.
Siri W. Body composition from fluid spaces and density: analysis of methods. 1961;223–44.
25.
Pollock M, Wilmore J. Exercise in health and disease: Evaluation and prescription for prevention and rehabilitation. 1990;
26.
Schutte J, Townsend E, Hugg J, Shoup R, Malina R, Blomqvist C. Density of lean body mass is greater in blacks than in whites. J Appl Physiol. 1984;1647–9.
27.
Eston R, Hawes M, Martin A, Reilly T. Human body composition. 2009;3–47.
28.
Probst M, Goris M, Vandereycken W, Van Coppenolle H. Body composition of anorexia nervosa patients assessed by underwater weighing and skinfold-thickness measurements before and after weight gain. Am J Clin Nutr. 2001;190–7.
29.
Wells J, Fewtrell M. Measuring body composition. Arch Dis Child. 2006;612–7.
30.
Demerath E, Guo S, Chumlea W, Towne B, Roche A, Siervogel R. Comparison of percent body fat estimates using air displacement plethysmography and hydrodensitometry in adults and children. Int J Obesity. 2002;389–97.
31.
Noreen E, Lemon P. Reliability of air displacement plethysmoraphy in a large heterogeneous sample. Med Sci Sport Exer. 2006;1505–9.
32.
Secchiutti A, Fagour C, Perlemoine C, Gin H, Durrieu J, Rigalleau V. Air displacement plethysmography can detect moderate changes in body composition. Eur J Clin Nutr. 2007;25–9.
33.
Ellis K, Yao M, Shypailo R, Urlando A, Wong W, Heird W. Body-composition assessment in infancy: air-displacement plethysmography compared with a reference 4-compartment model. Am J Clin Nutr. 2007;90–5.
34.
Kohrt W. Preliminary evidence that DXA provides an accurate assessment of body composition. J Appl Phys. 1998;372–7.
35.
Bosy-Westphal A, Mast M, Eichhorn C, Becker C, Kutzner D, Heller M, et al. Validation of air-displacement plethysmography for estimation of body fat mass in healthy elderly subjects. Eur J Nutr. 2003;(4):207–16.
36.
Mazess R, Burden H, Bisek J, Hanson J. Dual-energy x-ray absorptiometry for total-body end regional bone-mineral and soft tissue composition. Am J Clin Nutr. 1990;(6):1106–12.
37.
Laskey M. Dual-energy X-ray absorptiometry and body composition. Nutrition. 1996;(1):45–51.
38.
Tothill P, Avenell A, Love J, Reid D. Comparisons between Hologic, Lunar and Norland dual-energy X-ray absorptiometers and other techniques used for whole-body soft tissue measurements. Eur J Clin Nutr. 1994;(11):781–94.
39.
Larsson B, Svardsudd K, Welin L. Abdominal adipose tissuedistribution, obesity, and risk of cardiovascular disease and death: A13 year follow-up of participants in the study of men born in 1913. Br Med J. 1984;(6428):1401–4.
40.
Williams J, Wells J, Wilson C. Evaluation of Lunar Prodigy dualenergy X-ray absorptiometry for assessing body composition in healthy persons and patients by comparison with the criterion 4-component model. Am J Clin Nutr. 2006;(5):1047–54.
41.
Booth R, Goddard B, Paton A. Measurement of fat thickness in man: a comparison of ultrasound, Harpenden calipers and electrical conductivity. Brit J Nutr. 1966;(04):719–25.
42.
Taksali S, Caprio S, Dziura J, Dufour S, Calí A, Goodman T. High visceral and low abdominal subcutaneous fat stores in the obese adolescent A determinant of an adverse metabolic phenotype. Diabetes. 2008;(2):367–71.
43.
Mayans D, Cartwright M, Walker F. Neuromuscular ultrasonography: quantifying muscle and nerve measurements. Phys Med Rehabil Cli. 2012;(1):133–48.
44.
Toomey C, Mccreesh K, Leahy S, Jakeman P. Technical considerations for accurate measurement of subcutaneous adipose tissue thickness using B-mode ultrasound. Ultrasound. 2011;(2):91–6.
45.
Armellini F, Zamboni M, Rigo L, Todesco T, Bosello O, Bergamo-Andreis I. The contribution of sonography to the measurement of intra-abdominal fat. J Clin Ultrasound. 1990;(7):563–7.
46.
Schweitzer L, Geisler C, Pourhassan M, Braun W, Glüer C, Bosy-Westphal A, et al. What is the best reference site for a single MRI slice to assess whole-body skeletal muscle and adipose tissue volumes in healthy adults? Am J Clin Nutr. 2015;(1):58–65.
47.
Demerath E, Shen W, Lee M, Choh A, Czerwinski S, Siervogel R. Approximation of total visceral adipose tissue with a single magnetic resonance image. Am J Clin Nutr. 2007;(2):362–8.
48.
Heymsfield S, Hu H, Shen W, Carmichael O. Emerging Technologies and their Applications in Lipid Compartment Measurement. Trends Endocrinol Metab. 2015;(12):688–98.
49.
Schaudinn A. Predictive accuracy of single-and multi-slice MRI for the estimation of total visceral adipose tissue in overweight to severely obese patients. NMR Biomed. 2015;583–90.
50.
Machann J. Fraction of unsaturated fatty acids in visceral adipose tissue (VAT) is lower in subjects with high total VAT volume -a combined 1H MRS and volumetric MRI study in male subjects. NMR Biomed. 2013;232–6.
Citation
Copyright
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Article metrics
Google scholar:
See link
The statements, opinions and data contained in the journal are solely those of the individual authors and contributors and not of the publisher and the editor(s). We stay neutral with regard to jurisdictional claims in published maps and institutional affiliations.
