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M. Pouliot, J. Despres, S. Lemieux, S. Moorjani, C. Bouchard, A. Tremblay, A. Nadeau, P. Lupien (1994)
Waist circumference and abdominal sagittal diameter: best simple anthropometric indexes of abdominal visceral adipose tissue accumulation and related cardiovascular risk in men and women.The American journal of cardiology, 73 7
Lucy Browning, Owen Mugridge, A. Dixon, Sri Aitken, A. Prentice, S. Jebb (2011)
Measuring Abdominal Adipose Tissue: Comparison of Simpler Methods with MRIObesity Facts, 4
T. Salopuro, Leena Pulkkinen, J. Lindström, M. Kolehmainen, A. Tolppanen, Johan Eriksson, T. Valle, S. Aunola, P. Ilanne-Parikka, Sirkka Keinänen-Kiukaanniemi, J. Tuomilehto, M. Laakso, M. Uusitupa (2009)
Variation in the UCP2 and UCP3 genes associates with abdominal obesity and serum lipids: The Finnish Diabetes Prevention StudyBMC Medical Genetics, 10
(2017)
Osnovy antropometrii (Fundamentals of Anthropometry), Moscow: Ekon-Inform, 2017
(2009)
Bioimpedansnyi analiz sostava tela cheloveka (Bioimpedance Analysis of Human Body Composition)
(2017)
Anthropological studies in the Altai Republic: A preliminary analysis of the morphological features of northern and southern Altaians, Vestn
M. Ibrahim (2010)
Subcutaneous and visceral adipose tissue: structural and functional differencesObesity Reviews, 11
(2019)
The use of local impedance measurement for the assessment of subcutaneous and visceral fat deposition in the abdominal area in university students
I. Jialal, S. Devaraj (2018)
Subcutaneous adipose tissue biology in metabolic syndromeHormone Molecular Biology and Clinical Investigation, 33
L. Brondani, T. Assmann, B. Souza, Ana Bouças, L. Canani, D. Crispim (2014)
Meta-Analysis Reveals the Association of Common Variants in the Uncoupling Protein (UCP) 1–3 Genes with Body Mass Index VariabilityPLoS ONE, 9
Official Site of the World Health Organization
A. Zuur, E. Ieno, C. Elphick (2010)
A protocol for data exploration to avoid common statistical problemsMethods in Ecology and Evolution, 1
Official Site of the Office of the Federal Service for Supervision in the Sphere of Consumer Rights Protection and Human Welfare in the Altai Republic , 2006 – 2015
Miwa Ryo, K. Maeda, T. Onda, M. Katashima, Akiko Okumiya, M. Nishida, Tohru Yamaguchi, T. Funahashi, Y. Matsuzawa, Tadashi Nakamura, I. Shimomura (2005)
A new simple method for the measurement of visceral fat accumulation by bioelectrical impedance.Diabetes care, 28 2
H. Scharfetter, T. Schlager, R. Stollberger, R. Felsberger, H. Hutten, H. Hinghofer-Szalkay (2001)
Assessing abdominal fatness with local bioimpedance analysis: basics and experimental findingsInternational Journal of Obesity, 25
Tetsu Tanaka, S. Kishi, K. Ninomiya, Daijiro Tomii, K. Koseki, Y. Sato, T. Okuno, Kei Sato, Hideki Koike, K. Yahagi, Kota Komiyama, J. Aoki, K. Tanabe (2019)
Impact of abdominal fat distribution, visceral fat, and subcutaneous fat on coronary plaque scores assessed by 320-row computed tomography coronary angiography.Atherosclerosis, 287
Reyna Sámano, C. Huesca-Gómez, R. López-Marure, A. Herńandez-Cabrera, A. Rodríguez-Ventura, Maricruz Tolentino, R. Morales, R. Gamboa (2018)
Association between UCP polymorphisms and adipokines with obesity in Mexican adolescentsJournal of Pediatric Endocrinology and Metabolism, 31
Hongjuan Fang, Elizabeth Berg, Xiao-guang Cheng, W. Shen (2018)
How to best assess abdominal obesityCurrent Opinion in Clinical Nutrition and Metabolic Care, 21
(2020)
A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. 2018
A. Pravednikova, S. Shevchenko, V. Kerchev, M. Skhirtladze, S. Larina, Z. Kachaev, A. Egorov, Y. Shidlovskii (2020)
Association of uncoupling protein (Ucp) gene polymorphisms with cardiometabolic diseasesMolecular Medicine, 26
The aim of the study was to analyze the association of a complex of anthropogenetic and environmental factors with the subcutaneous and visceral fat indices measured by local configurations of bioimpedance analysis in ethnic Altaians. This study involved 110 relatively healthy men (62) and women (48), representatives of the indigenous peoples of Altai, aged from 17 to 35 years. The study program included anthropometric examination, determination of body composition using bioimpedance (ABC-02 Medass analyzer), measurement of local impedances in the abdominal region, and identification of genotypes by polymorphic systems of uncoupling protein genes UCP1–3. Sexual dimorphism was shown for most of the studied morphological and functional traits. Subcutaneous and visceral fat indices were found to be highly correlated with the index of central obesity and body fat percentage. Endogenous traits, sex, age, and the number of “thrifty” alleles of the genes of uncoupling proteins 1–3 did not have a significant effect on the subcutaneous and visceral fat indices in the examined group of young people (17–35 years old). Informative feature selection using random forests and the Boruta algorithm revealed that the leading predictors associated with abdominal topography of fat deposition in the examined group are WHtR (Waist-to-height ratio) and BFP (body fat percentage).
Moscow University Biological Sciences Bulletin – Springer Journals
Published: May 18, 2021
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