Basal metabolic rate, body fat distribution and its correlation among Xibo adults in Xinjiang

XU Guo-Chang; HOU Yan-Li; HU Neng-Neng; LIU Rong-Zhi; WEN You-Feng

doi:10.16098/j.issn.0529-1356.2020.02.023

PDF(779 KB)

Acta Anatomica Sinica ›› 2020, Vol. 51 ›› Issue (2) : 289-293. DOI: 10.16098/j.issn.0529-1356.2020.02.023

Anthropology

Basal metabolic rate, body fat distribution and its correlation among Xibo adults in Xinjiang

XU Guo-chang¹ HOU Yan-li² HU Neng-neng³ LIU Rong-zhi² WEN You-feng^4*

Author information +

History +

Abstract

Objective To understand the distribution characteristics of body fat content and basal metabolic rate among Xibo adults in Xinjiang and to explore the correlation between them. Methods The people aged between 35 and 70 were randomly selected to be the research object, and a total of 536 people (263 males and 273 females) were selected for the study. Subcutaneous fat, visceral fat, weight, stature, defat weight, body fat rate and basal metabolic rate were measured using the body composition analyzer. The correlation between body fat content and basal metabolic rate was studied by regression analysis, and regression equation coefficient was calculated. Results There were statistically significant in total fat, defate body weight and body fat percentage (P<0.05) of different aged Xibo adults in Xinjiang, except for male visceral fat and female subcutaneous fat. There were statistically significant subcutaneous fat, total fat and body fat percentage(P<0.05) between the sexes, except for visceral fat. The visceral fat content among Xibo adults in Xinjiang was negatively correlated with basal metabolic rate (P<0.05). Conclusion Body lipid distribution is differences in different aged and gender among Xibo adults in Xinjiang. There is a negative correlation between visceral fat and basal metabolic rate.

Key words

Basal metabolic rate / Body fat / Xibo ethnicity / Body composition analysis / Adult

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

XU Guo-chang HOU Yan-li HU Neng-neng LIU Rong-zhi WEN You-feng. Basal metabolic rate, body fat distribution and its correlation among Xibo adults in Xinjiang[J]. Acta Anatomica Sinica. 2020, 51(2): 289-293 https://doi.org/10.16098/j.issn.0529-1356.2020.02.023

References

［1］ Li YN. Study on the relationship between obesity and common chronic diseases based on BMI and WC ［D］. Beijing University of Chinese Medicine, 2018. (in Chinese)

李彦妮. 基于BMI和WC判定的肥胖与常见慢病之间相互影响的关系研究［D］.北京中医药大学,2018.

［2］ Wei RY, Huang XF, Li H, et al. Characteristics of fat distribution in middle-aged and elderly people of Zhuang nationality in Baise City［J］.Journal of Youjiang Medical College for Nationalities, 2014,36(1):1-3. (in Chinese)

韦荣耀,黄秀峰,李海,等.百色市壮族中老年人脂肪分布特点［J］.右江民族医学院学报,2014,36(1):1-3.

［3］ Moro T, Tinsley G, Bianco A, et al. Effects of eight weeks of time-restricted feeding (16/8) on basal metabolism, maximal strength, body composition, inflammation, and cardiovascular risk factors in resistance-trained males［J］. J Transl Med, 2016, 14(1):290.

［4］ Hirsch KR,SmithRyan AE,Blue MNM, et al. Influence of segmental body composition and adiposity hormones on resting metabolic rate and substrate utilization in overweight and obese adults［J］. J Endocrinol Invest, 2017,40(6):635-643.

［5］ Yu DN, Xian TZh, Wang LJ, et al. Analysis of body composition and resting metabolic rate of 858 middle-aged and elderly people in urban area of Beijing［J］. Chinese Journal of Epidemiology,2018,39(5):686-688. (in Chinese)

于冬妮，鲜彤章，王丽娟，等. 北京市城区858例中老年体检人群体成分和静息代谢率分析［J］. 中华流行病学杂志，2018，39（5）：686-688.

［6］ Huang HM, Wang RW, Li S, et al. Comparative study of obesity based on body mass index and body fat index, based on diagnostic test［J］.Chinese Journal of Sports Medicine,2017,36(3):218-225. (in Chinese)

黄晖明,王人卫,李森,等.体重指数与体脂率指标评价肥胖、基于诊断试验的比较研究［J］.中国运动医学杂志,2017,36(3):218-225.

［7］ Wei HH, Robert WW, Zin RL, et al. Effects of circuit exercise and Tai Chi on body composition in middle-aged and older women［J］. Geriatr Gerontol Int, 2015,15(3):282-288.

［8］ Cynthia D, Glenn M, Chertow GA. et al. Associations of body mass index and body fat with markers of inflammation and nutrition among patients receiving hemodialysis［J］. Am J Kidney Dis, 2017,70(6):817-825.

［9］ Du HM, Sun ZY, Zhang XH, et al. Body constitution of Chinese Qiang adults［J］.Acta Anatomica Sinica,2018,49(4):540-542. (in Chinese)

杜慧敏,孙泽阳,张兴华,等.中国羌族身体体成分特点［J］.解剖学报,2018,49(4):540-542.

［10］ Hibi M, Takase H, Iwasaki M, et al. Efficacy of tea catechin-rich beverages to reduce abdominal adiposity and metabolic syndrome risks in obese and overweight subjects: a pooled analysis of 6 human trials［J］. Nutr Res,2018,55:1-10.

［11］ Wang YT, Chen F, Wang JL, et al. The relationship between increased ratio of visceral-to-subcutaneous fat area and renal outcome in Chinese adult with type 2 diabetes and diabetic kidney disease［J］. Can J Diabetes, 2019,43(6):415-420.

［12］ Shatha H, Shuaihua P, Peter J, et al. Current evidence supporting the link between dietary fatty acids and cardiovascular disease［J］. Lipids, 2016,51(5):507-517.

［13］ Alberga AS, Prud’homme D, Sigal RJ, et al. Does exercise training affect resting metabolic rate in adolescents with obesity ［J］? Appl Physiol Nutr Metab, 2017,42(1):15-22.