EVALUATION OF ANTHROPOMETRIC CHANGES IN DIFFERENT PATHOLOGIES OF THYROID GLAND HORMONE FUNCTIONS
20.03.2023
International Scientific Journal "Science and Innovation". Series D. Volume 2 Issue 3
Nishonov Yu.N., Madaminov S.M., Abdulhakimov A.R., Zokirjonov D.Z, Kholmatov Sh.O.
Abstract. In this article, the authors conducted a retrospective analysis of studies of various thyroid factors and their effects on anthropometric parameters worldwide
Keywords: method of extraction, decrease in sensitivity to insulin, weight, body mass index, polycyclic aromatic hydrocarbons, triiodothyronine (T3), thyroxine (T4), thyrotropin-releasing hormone (TRH).
References:
1. Giménez-Palop O. et al. Circulating ghrelin in thyroid dysfunction is related to insulin resistance and not to hunger, food intake, or anthropometric changes //European Journal of Endocrinology. - 2005. - T. 153. - no. 1. – S. 73-79.
2. Dehghani S. et al. Prenatal exposure to polycyclic aromatic hydrocarbons and effects on neonatal anthropometric indices and thyroid-stimulating hormone in a Middle Eastern population //Chemosphere. - 2022. - T. 286. - S. 131605.
3. Geens T. et al. Daily intake of bisphenol A and triclosan and their association with anthropometric data, thyroid hormones, and weight loss in overweight and obese individuals //Environment international. - 2015. - T. 76. - S. 98-105.
4. Urrea CR et al. Thyroid hormone axis and anthropometric recovery of children/adolescents with overweight/obesity: a scoping review // medRxiv. - 2022. - S. 2022.01. 17.22269437.
5. Niegawa T. et al. Evaluation of uric acid levels, thyroid function, and anthropometric parameters in Japanese children with Down syndrome //Journal of clinical biochemistry and nutrition. - 2017. - T. 61. - no. 2. - S. 146-152
6. Brindel P. et al. Anthropometric factors in differentiated thyroid cancer in French Polynesia: a case–control study //Cancer Causes & Control. - 2009. - T. 20. - S. 581 -590.
7. Lence -Anta JJ et al. Environmental, lifestyle, and anthropometric risk factors for differentiated thyroid cancer in Cuba: a case-control study //European thyroid journal. - 2014. - T. 3. – no. 3. - S. 189-196.
8. Dessalew GW, Woldeyes DH, Abegaz BA The relationship between anthropometric variables and race performance //Open access journal of sports medicine. - 2019. - S. 209 -216.
9. Hojaij F. et al. Parathyroid gland anatomical distribution and relation to anthropometric and demographic parameters: a cadaveric study //Anatomical science international. - 2011. - T. 86. - S. 204 -212. 2 2 2
10. Schwingshackl L. et al. Fruit and vegetable consumption and changes in anthropometric variables in adult populations: a systematic review and meta-analysis of prospective cohort studies // PloS one. - 2015. - T. 10. – no. 10. – S. e0140846.
11. Mohammed J. et al. Relationship between anthropometric variables and lung function parameters among primary school children //Annals of Nigerian Medicine. - 2015. - T. 9. – no. 1. – S. 20-20.
12. Şükrü A., Üstünsoy S., Armutçu F. Indices of central and peripheral obesity; anthropometric measurements and laboratory parameters of metabolic syndrome and thyroid function //Balkan medical journal. - 2015. - T. 32. - no. 4. – S. 414-420.
13. Muller I. et al. CATS II long-term anthropometric and metabolic effects of maternal sub-optimal thyroid function in offspring and mothers //The Journal of Clinical Endocrinology & Metabolism. - 2020. - T. 105. - no. 7. - S. 2150-2161.
14. Dvorakova M. et al. Relationship between pituitary-thyroid axis hormones and anthropometric parameters in Czech adult population //Physiological research. - 2008. - T. 57.
15. Guignard R. et al. Alcohol drinking, tobacco smoking, and anthropometric characteristics as risk factors for thyroid cancer: a nationwide case-control study in New Caledonia //American journal of epidemiology. - 2007. - T. 166. - no. 10. – S. 1140-1149.
SCIENCE & INNOVATION