题名

探討生物電阻分析儀應用於成年女性體脂肪與內臟脂肪測量結果之分析

并列篇名

The analysis of body fat and visceral fat measurement by bioelectrical impedance analyzer on female adult

DOI

10.6202/THJ-2016-12-04

作者

黃艾君(Ai-Chun Huang)

关键词

電腦斷層掃描 ; 雙能X光吸收儀 ; 腹部脂肪 ; Computerized tomography ; Dual energy X-ray absorptiometry ; visceral fat

期刊名称

慈惠學報

卷期/出版年月

12期(2016 / 12 / 01)

页次

47 - 65

内容语文

繁體中文
中文摘要

研究背景: 本研究應用雙能X 光吸收儀(Dual energy X-ray absorptiometry, DXA)、電腦斷層(Computerized tomography, CT)與站立式生物阻抗分析之體脂計(Omron, HBF361)與(Tanita,BC305)於全身體脂肪率(percentage of body fat)與腹部內臟脂肪面積(VFA- Visceral Fat Area)之測量結果,進行交叉驗證。研究方法: 以DXA、CT 與站立式之腳對腳生物阻抗分析體脂計,針對台灣地區健康女性45名(年齡: 35.10 ± 17.66 歲, 體重: 56.49 ±11.43 公斤, 身高: 160.78 ± 6.31 公分) (平均±標準偏差量)。同時進行全身體脂肪率(BF%)、腹部內臟脂肪面積(VFA)測量,以測量結果其進行相關性、差異分佈分析。結果: 以DXA 與HBF361、BC305 兩方法所測量體脂肪率(BF%)其間的結果,受測者其相關係數、平均差異值(±標準偏差(SD.))各為 R = 0.919、0.897, mean = -1.89 (± 5.60) %、-2.76 (±5.03)%。以CT 與HBF361、BC305 兩裝置所測量腹部內臟脂肪面積(VFA)其間的結果,受測者其相關係數、平均差異值與標準偏差各為 R = 0.919、0.897, mean = -18.91 (± 18.14) cm^2、-19.66(± 22.26) cm^2。結論: 比較站立式商用生物阻抗分析之體脂計與DXA、CT 兩具參考價值測量方法於體脂肪率(BF%)與腹部內臟脂肪面積(VFA)測量,本研究的受測者在對應的測量項目其結果皆達高正相關性,顯示站立式生物阻抗分析於體脂肪率與腹部內臟脂肪面積的測量具有一定的參考與應用價值。
英文摘要

Research background: This study was aimed to cross validate the measurement of total body fat and visceral fat area by Dual energy X-ray absorptiometry (DXA), Computerized tomography (CT) and standing bioelectrical impedance analyzer, which were Omron HBF361 and Tanita BC305. Methodology: The study was conducted by using DXA, CT and standing bioelectrical impedance analyzer to analyze the percentage of body fat (% BF), visceral fat area (VFA) on 45 Taiwanese adult female (age: 35.10±17.66 years old years (mean ±standard deviation, SD), body weight: 56.49±11.43 kg, body height: 160.78±6.31 cm) followed by correlation and mean variance analysis. Results: Comparing with DXA, the correlation of the percentage of body fat (% BF) observed by HBF361 and BC305 were 0.919 and 0.897, respectively, while the mean variance of this analysis were -1.89±5.60% and -2.76±5.03% (mean ± standard deviation, SD), respectively. Comparing with CT, the correlation of the VFA observed by HBF361 and BC305 were 0.919 and 0.987, respectively, while the mean variance of this analysis were 18.91±18.14 cm^2 and -19.66 ±22.26 cm^2, respectively.
主题分类 醫藥衛生 > 預防保健與衛生學
醫藥衛生 > 社會醫學
参考文献
  1. Berker, D,Kopoaral, S,Isik, S,Passoglu, L,Aydin, Y,Erol, K,Delibasi, T,Guler, S(2010).Compatibliity of different methods for the measurement of visceral fat in different body mass index strata.Diagn Interv Radiol,16,99-105.
  2. Boneva-Asiova, Z,Boyanov, MA(2008).Body composition analysis by leg-to-leg bioelectrical impedance and dual-energy X-ray absorptiometry in non-obese and obese individuals.Diabetes Obes Metab,10,1012-1018.
  3. Borkan, GA,Gerzof, SG,Robbins, Ah,Hults, DE,Silbert, CK,Silbert, JE(1982).Assessment of abdominal fat content by computed tomography.Am J Clin Nutr,36,172-177.
  4. Bosy-Westphal, A,Lter, W,Hitze, B,Sato, Tm, Kossel, E,Gluer, CC,Heller, M,Muller, MJ(2008).Accuracy of bioelectrical impedance consume3r device for measurement of body composition in comparison to whole body magnetic resonance imaging and dual X-ray absorptiometry.Obes Facts,1,319-324.
  5. Dehghan, M,Merchant, AT(2008).Is bioelectrical impedance accurate for use in large epidemiological studies?.Nutr J,7,26.
  6. Freedman, DS,Williamson, DF,Croft, JB,Ballew, C,Byers, T(1995).Relation of body fat distribution to ischemic heart disease. The National Health and Nutrition Examination Survey I (NHANES I) Epidemiologic follow-up study.Am J Epidemiol,142,53-56.
  7. Gagnon, C,Menard, J,Bourbonnais, A,Ardilouze, JL,Baillargeon, JP,Carpentier, AC,Langlois, MF(2010).Comparison of foot-to-foot and hand-to-foot bioelectrical impedance methods in a population with a wide range of body mass indices.Metab Syndr Relat Disord,8,437-441.
  8. Janssen, I,Heymsfield, SB,Allison, DB,Kotler, DP,Ross, R(2002).Body mass index and waist circumference independently contribute to the prediction of nonabdominal, abdominal subcutaneous, and visceral fat.Am J Clin Nutr,75,683-688.
  9. Lane, JT,Mack-Shipman, LR,Anderson, JC,Moore, TE,Erickson, JM,Ford, TC,Stoner, JA,Larsen, JL(2005).Comparion of CT and dual-energy DEXA using a modified trunk compartment in the measurement of abdominal fat.Endocrine,27,295-299.
  10. Larsson, B,Svadsudd, K,Welin, L,Wihelmsen, L,Bjorntorp, P,Tibblin, G(1984).Abdominal adipose tissue distribution, obesity, and risk of cardiovascular disease and death: 13 year follow up of participants in the study of men born in 1913.Br Med J Clin Res Ed,288,1401-1404.
  11. Lukaski, HC,Johnson, PE,Bolonchuk, WW,Lykken, GI(1985).Assessment of fat-free mass using bioelectrical impedance measurements of the humanbody.Am J Clin Nutr,41(4),810-817.
  12. Nakai, R,Azuma, T,Kishimoto, T,Hirata, T,Takizawa, O,Hyon, SH,Tsutsumi, S(2010).Development of a high-precision image-processing automatic measurement system for MRI visceral fat images acquired using a binomial RF-excitation pulse.Magn Reson Imaging,28,520-526.
  13. Nunez, C,Gallagher, D,Visser, M,Pi-Sunyer, FX,Wang, Z,Heymsfield, SB(1997).Bioimpednace analysis: evaluation of leg-to-leg system based on pressure contact footpad electrodes.Med Sci Sports Exerc,29,524-531.
  14. Oka, R,Kobayashi, J,Yagi, K,Tanii, H,Miyamoto, S,Assno, A,Hagishita, T,Mori, M,Moriuchi, T,Kobayashi, M,Katsuda, S,Kawashiri, MA,Nohara, A,Takeda, Y,Mabuchi, H,Yamagish, M(2008).Ressessment of the cutoff values of waist circumference and visceral fat area for identifying Japanese subjects at risk for the metabolic syndrome.Diabetes Res Clin Pract,79,474-481.
  15. Pietrobelli, A,Rubiano, F,St-Onge, MP,Heymsfield, SB(2004).New bioimpednace analysis system: improved phenotyping with whole-body analysis.Eur J Clin Nutr,58,1479-1484.
  16. Reilly, MP,Rader, DJ(2003).The metabolic syndrome: more than the sum of its parts?.Circulation,108,1545-1551.
  17. Rimm, EB,Stampfer, MJ,Giovannucci, E,Ascherio, A,Spiegelman, D,Colditz, GA,Willett, WC(1995).Body size and fat distribution as predictors of coronary heart disease among middle-aged and older US men.Am J Epidemiol,141,1117-1127.
  18. Ryo, M,Maeda, K,Onda, T,Katashima, M,Okumiya, A,Nishida, M,Yamaguchi, T,Funahashi, T,Matsuawa, Y,Nakamura, T,Shimomura, I.A New simple method for the measurement of visceral fat accumulation by bioelectrical impedance.Diabetes care,28,451-453.
  19. Scharfetter, H,Schlager, T,Stollberger, R,Felsberger, R,Hutten, H,Hinghofer-Szalkay, H(2001).Assessing abdominal fatness with local bioimpedance analysis: basics and experimental findings.Int J Obes Relat Metab Disord,25,502-511.
  20. Smith, SR,Lovejoy, JC,Greenway, F,Ryan, D,deJonge, L,de, la, Bretonne, J,Volafova, J,Bray, GA(2001).Contributions of total body fat, abdominal subcutaneous adipose tissue compartments, and visceral adipose tissue to the metabolic complications of obesity.Metabolism,50,425-435.
  21. Snijder, MB,Visser, M,Dekker, JM,Seidell, JC,Fuerst, T,Tylavsky, F,Cauley, J,Lang, T,Nevitt, M,Harris, Tb(2002).The prediction of visceral fat by dual-energy X-ray absorptiometry in the elderly: a comparison with computed tomography and anthropometry.Int J Obes Relat Metab Disord,26,984-993.
  22. von Eyben, FE,Mouritsen, E,Holm, J,,Montvilas, P,Dimcevski, G,Suciu, G,Helleberg, I,Kristensen, L,von Eyben, R(2003).Intra-abdominal obesity and metabolic risk factors: a study of young adults.Int J Obes Relat Metab Disord,27,941-949.
  23. Yoshizumi, T,Nakamura, T,Yamane, M,Islam, AH,Menju, M,Yamasaki, K,Arai, T,Kotani, K,Funshashi, T,Yamshita, S,Matsuzawa, Y(1999).Abdominal fat: standardized technique for measurement at CT.Radiology,211,283-286.
print cancel