KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
Indicators of Mineral Metabolism Depending on the Body Mass Index
Published date: Apr 05 2021
Journal Title: KnE Life Sciences
Issue title: DonAgro: International Research Conference on Challenges and Advances in Farming, Food Manufacturing, Agricultural Research and Education
Pages: 394–401
Authors:
Abstract:
n this study, the elemental status of the hair of adolescent girls in the Orenburg region (n=120) with different levels of body mass index was studied and their average daily diet was evaluated. A nutrition assessment program was used to study the diet. Estimation of the element status was carried out through the study of the chemical composition of the hair by ICP-AES and ICP-MS. It was found that there was a general imbalance of elements in the diet of all of the studied groups, and students with obesity had lower consumption levels of all elements, except Mg and Se. Similarly, obese students had lower levels of all elements in their hair except Se, P, and Zn. Thus, changes in the level of body mass index, as well as geochemical features of the territory of the Orenburg region, affect the content of most macro- and microelements.
Keywords: metabolic syndrome, trace elements, body mass index
References:
[1] Saklayen, M. G. (2018). The Global Epidemic of the Metabolic Syndrome. Current Hypertension Reports, vol. 20, issue 2, p. 12.
[2] Samson, S. L. and Garber, A. J. (2014). Metabolic Syndrome. Endocrinology & Metabolism Clinics of North America, vol. 43, issue 1, pp. 1–23.
[3] Galassi, A., Reynolds, K. and He, J. (2006). Metabolic Syndrome and Risk of Cardiovascular Disease: A Meta–Analysis. The American Journal of Medicine, vol. 119, issue 10, pp. 812–9.
[4] Li, W., et al. (2008). Association Between Metabolic Syndrome and Risk of Stroke: A Meta–Analysis of Cohort Studies. Cerebrovascular Diseases, vol. 25, issue 6, pp. 539–47.
[5] O’Neill, S. and O’Driscoll, L. (2015). Metabolic Syndrome: A Closer Look at the Growing Epidemic and Its Associated Pathologies. Obesity Research, vol. 16, issue 1, pp. 1–12.
[6] Engin, A. (2017). The Definition and Prevalence of Obesity and Metabolic Syndrome. Advances in Experimental Medicine and Biology, vol. 960, pp. 1–17.
[7] Despres, J. P. and Lemieux, I. (2006). Abdominal Obesity and Metabolic Syndrome. Nature, vol. 444, issue 7121, pp. 881–7.
[8] Collaborators, O., et al. (2017). Health Effects of Overweight and Obesity in 195 Countries Over 25 Years. The New England Journal of Medicine, vol. 377, issue 1, pp. 13–27.
[9] Ahirwar, R. and Mondal, P. R. (2019). Prevalence of Obesity in India: A Systematic Review. Diabetology & Metabolic Syndrome, vol. 13, issue 1, pp. 318–21.
[10] Vecchie, A., et al. (2018). Obesity Phenotypes and Their Paradoxical Association with Cardiovascular Diseases. European Journal of Internal Medicine, vol. 48, pp. 6–17.
[11] Bosello, O., Donataccio, M. P. and Cuzzolaro, M. (2016). Obesity or Obesities? Controversies on the Association Between Body Mass Index and Premature Mortality. Eating and Weight Disorders, vol. 21, issue 2, pp. 165–74.
[12] Kobo, O., et al. (2019). Normal Body Mass Index (BMI) Can Rule Out Metabolic Syndrome: An Israeli Cohort Study. Medicine (Baltimore), vol. 98, issue 9, pp. e14712.
[13] Jeong, H. S. (2018). The Relationship Between Workplace Environment and Metabolic Syndrome. Journal of Occupational and Environmental Medicine., vol. 9, issue 4, pp. 176–83.
[14] Robberecht, H., De Bruyne, T. and Hermans, N. (2017). Biomarkers of the Metabolic Syndrome: Influence of Minerals, Oligo– And Trace Elements. Journal of Trace Elements in Medicine and Biology., vol. 43, pp. 23–8.
[15] Shi, Y., et al. (2020). Trace Elements, PPARs, and Metabolic Syndrome. International Journal of Molecular Sciences, vol. 21, issue 7, pp. 2612.
[16] Skalnaya, M. G., et al. (2018). Hair Trace Elements in Overweight and Obese Adults in Association with Metabolic Parameters. Biological Trace Element Research, vol. 186, issue 1, pp. 12–20.
[17] Kizalaite, A., et al. (2019). Determination of Trace Elements in Adipose Tissue of Obese People by Microwave–Assisted Digestion and Inductively Coupled Plasma Optical Emission Spectrometry. Biological Trace Element Research, vol. 189, issue 1, pp. 10–17.
[18] Panchal, S. K., Wanyonyi, S. and Brown, L. (2017). Selenium, Vanadium, and Chromium as Micronutrients to Improve Metabolic Syndrome. Current Hypertension Reports, vol. 19, issue 3, pp. 10.
[19] DeBoer, M. D. (2019). Assessing and Managing the Metabolic Syndrome in Children and Adolescents. Nutrients, vol. 11, issue 8, pp. 1788.
[20] Weir, C. B. and Jan, A. (2020). BMI Classification Percentile and Cut Off Points. In: StatPearls. Treasure Island (FL): StatPearls Publishing.
[21] Bogden, J. D. and Klevay, L. M. (2000). Clinical Nutrition of the Essential Trace Elements and Minerals. USA: Humana Press; Nutrition and Health.
[22] Frame–Peterson, L. A., et al. (2017). Nutrient Deficiencies are Common Prior to Bariatric Surgery. Nutrition in Clinical Practice, vol. 32, issue 4, pp. 463–9.
[23] García, O. P., Long, K. Z. and Rosado, J. L. (2009). Impact of Micronutrient Deficiencies on Obesity. Nutrition Reviews, vol. 67, issue 10, pp. 559–72.
[24] Skrypnik, M. D., et al. (2019). Influence of Endurance and Endurance–Strength Training on Mineral Status in Women with Abdominal Obesity: A Randomized Trial. Medicine (Baltimore), vol. 98, issue 12, pp. e14909.
[25] García, O. P., et al. (2013). Zinc, Iron and Vitamins A, C and e are Associated with Obesity, Inflammation, Lipid Profile and Insulin Resistance in Mexican School–Aged Children. Nutrients., vol. 5, issue 12, pp. 5012–30.
[26] Choi, H. J., et al. (2019). The Association between Mineral and Trace Element Concentrations in Hair and the 10–Year Risk of Atherosclerotic Cardiovascular Disease in Healthy Community–Dwelling Elderly Individuals. Nutrients, vol. 11, issue 3, pp. 637.
[27] Skalny, A. V. (2004). Khimicheskie elementy v fiziologii i ekologii cheloveka. Moscow: ONIKS 21 Vek Publ, p. 216.
[28] Notova, S. V., et al. (2006). Necessity of Taking into Account Regional Peculiarities When Modelling the Processes of Element Interactions in a Human Body. Vestnik Orenburg State University, vol. 2, pp. 59–63.
[29] Skalnyy, A. V., et al. (2014). Regional Features of the Elemental Homeostasis as an Indicator of Ecological and Physiological Adaptation. Ekologia cheloveka vol. 9, pp. 14–17.