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Open Access 01-12-2024 | Research

Exploring the complex dynamics of BMI, age, and physiological indicators in early adolescents

Authors: Ning Ding, Suyun Li, Han Zhou, Zhenchuang Tang, Tianlin Gao, Meina Tian, Changqing Liu, Xiaoyan Luo, Hongtong Chen, Lianlong Yu, Yao Chen, Li Yang, Lichao Zhu

Published in: BMC Pediatrics | Issue 1/2024

Abstract

Background and objectives

To investigate the relationship between body mass index (BMI) and blood biochemical indicators in early adolescence, and to provide ideas for early prevention of diseases and explore possible disease-related predictors.

Methods

3125 participants aged 10 ∼ 14 years were selected from China from the survey of “China Nutrition and Health Surveillance ( 2016 ∼ 2017 ) “. Employing advanced statistical methods, including generalized linear models, heatmaps, hierarchical clustering, and generalized additive models, the study delved into the associations between BMI and various biochemical indicators.

Results

In early adolescence, indicators including systolic pressure, diastolic pressure, weight, height, BMI, hemoglobin, blood uric acid, serum creatinine, albumin, vitamin A presented increasing trends with the increase of age ( P < 0.05 ), whereas LDL-C, vitamin D, and ferritin showed decreasing trends with the increase of age ( P < 0.05 ). The increase in hemoglobin and blood uric acid levels with age was more pronounced in males compared to females ( P < 0.05 ). BMI was positively correlated with blood glucose, hemoglobin, triglyceride, LDL-C, blood uric acid, serum creatinine, ferritin, transferrin receptor, hs-CRP, total protein, vitamin A ( P < 0.05 ). There was a significant BMI × age interaction in the correlation analysis with LDL-C, transferrin receptor, serum creatinine, and hs-CRP ( P < 0.05 ). BMI was a risk factor for hypertension, hypertriglyceridemia, low high density lipoprotein cholesterolemia, and metabolic syndrome in all age groups ( OR > 1, P < 0.05 ).

Conclusions

High BMI was a risk factor for hypertension, hypertriglyceridemia, low high density lipoprotein cholesterolemia, and MetS in early adolescents. With the focus on energy intake beginning in early adolescence, the maintenance of a healthy weight warrants greater attention.

Azegami T, Nishimura T, Murai-Takeda A, Yamada-Goto N, Sato Y, Mori M. The distributions of hematologic and biochemical values in healthy high-school adolescents in Japan. PLoS ONE. 2020;15(11):e0242272.PubMedPubMedCentralCrossRef

Li Y, Mussa AE, Tang A, Xiang Z, Mo X. Establishing reference intervals for ALT, AST, UR, Cr, and UA in apparently healthy Chinese adolescents. Clin Biochem. 2018;53:72–6.PubMedCrossRef

Said L, Gubbels JS, Kremers SPJ. Dietary knowledge, Dietary Adherence, and BMI of Lebanese adolescents and their parents. Nutrients. 2020;12(8).

Lim E, Miyamura J, Chen JJ. Racial/Ethnic-Specific reference intervals for Common Laboratory tests: a comparison among asians, blacks, hispanics, and White. Hawaii J Med Public Health. 2015;74(9):302–10.PubMedPubMedCentral

Bandesh K, Jha P, Giri AK, Marwaha RK, Scaria V, Tandon N, et al. Normative range of blood biochemical parameters in urban Indian school-going adolescents. PLoS ONE. 2019;14(3):e0213255.PubMedPubMedCentralCrossRef

Loh TP, Metz MP. Trends and physiology of common serum biochemistries in children aged 0–18 years. Pathology. 2015;47(5):452–61.PubMedCrossRef

Bragança M, Oliveira BR, Fonseca JM, Batalha MA, Bogea EG, Coelho C, et al. Assessment of blood biomarkers in adolescents classified by body mass index and body fat percentage. Cad Saude Publica. 2020;36(6):e00084719.PubMedCrossRef

Nihiser AJ, Lee SM, Wechsler H, McKenna M, Odom E, Reinold C, et al. Body mass index measurement in schools. J Sch Health. 2007;77(10):651–71. quiz 722 – 654.PubMedCrossRef

Mansell T, Magnussen CG, Nuotio J, Laitinen TT, Harcourt BE, Bekkering S, et al. Decreasing severity of obesity from early to late adolescence and young adulthood associates with longitudinal metabolomic changes implicated in lower cardiometabolic disease risk. Int J Obes (Lond). 2022;46(3):646–54.PubMedCrossRef

10.

Gaete V. [Adolescent psychosocial development]. Rev Chil Pediatr. 2015;86(6):436–43.PubMedCrossRef

11.

[Experts consensus for prevention. And treatment of dyslipidemia in children and adolescents]. Zhonghua Er Ke Za Zhi. 2009;47(6):426–8.

12.

Huo JK, Zhou LJ, Wen B, Wang XJ, Dong B, Ma J. [The method of blood pressure evaluation among children and adolescents aged 7 to 17 years old in China]. Zhonghua Yu Fang Yi Xue Za Zhi. 2019;53(12):1299–304.PubMed

13.

Tropeano A, Corica D, Li Pomi A, Pepe G, Morabito LA, Curatola SL, et al. The metabolic syndrome in pediatrics: do we have a reliable definition? A systematic review. Eur J Endocrinol. 2021;185(2):265–78.PubMedCrossRef

14.

Commission PsRoCNHaFP. Anthropometric measurements method in health surveillance(WS/T424-2013). In: Commission PsRoCNHaFP; 2013.

15.

Soliman A, De Sanctis V, Elalaily R. Nutrition and pubertal development. Indian J Endocrinol Metab. 2014;18(Suppl 1):S39–47.PubMedPubMedCentralCrossRef

16.

Colley RC, Clarke J, Doyon CY, Janssen I, Lang JJ, Timmons BW, et al. Trends in physical fitness among Canadian children and youth. Health Rep. 2019;30(10):3–13.PubMed

17.

Júlíusson PB, Roelants M, Nordal E, Furevik L, Eide GE, Moster D, et al. Growth references for 0–19 year-old Norwegian children for length/height, weight, body mass index and head circumference. Ann Hum Biol. 2013;40(3):220–7.PubMedCrossRef

18.

Cacciari E, Milani S, Balsamo A, Dammacco F, De Luca F, Chiarelli F, et al. Italian cross-sectional growth charts for height, weight and BMI (6–20 y). Eur J Clin Nutr. 2002;56(2):171–80.PubMedCrossRef

19.

Nielsen TRH, Lausten-Thomsen U, Fonvig CE, Bøjsøe C, Pedersen L, Bratholm PS, et al. Dyslipidemia and reference values for fasting plasma lipid concentrations in Danish/North-European White children and adolescents. BMC Pediatr. 2017;17(1):116.PubMedPubMedCentralCrossRef

20.

Hwang IC, Park YM, Kang WC, Moon J. Association between height and lipid profile among Korean men: results from the 10-year Korea National Health and Nutrition Examination Survey. Eur J Prev Cardiol. 2020;27(19):2205–7.PubMedCrossRef

21.

Kouda K, Nakamura H, Fan W, Takeuchi H. Negative relationships between growth in height and levels of cholesterol in puberty: a 3-year follow-up study. Int J Epidemiol. 2003;32(6):1105–10.PubMedCrossRef

22.

Pyles LA, Lilly CL, Mullett CJ, Polak ES, Elliott EM, Neal WA. LDL cholesterol level in fifth-grade schoolchildren associates with stature. J Lipid Res. 2017;58(11):2197–201.PubMedPubMedCentralCrossRef

23.

Oh NK, Song YM, Kim SH, Park MJ. Short stature is Associated with increased risk of Dyslipidemia in Korean adolescents and adults. Sci Rep. 2019;9(1):14090.PubMedPubMedCentralCrossRef

24.

De Marco S, Marcovecchio ML, Caniglia D, De Leonibus C, Chiarelli F, Mohn A. Circulating asymmetric dimethylarginine and lipid profile in pre-pubertal children with growth hormone deficiency: effect of 12-month growth hormone replacement therapy. Growth Horm IGF Res. 2014;24(5):216–20.PubMedCrossRef

25.

Zhu X, Wang K, Zhou Q, Xu J. Establishment of age- and sex-specific reference intervals for serum liver function tests in pediatric population aged 1-<18 years: a prospective study. J Clin Lab Anal. 2021;35(4):e23708.PubMedPubMedCentralCrossRef

26.

Adeli K, Higgins V, Nieuwesteeg M, Raizman JE, Chen Y, Wong SL, et al. Complex reference values for endocrine and special chemistry biomarkers across pediatric, adult, and geriatric ages: establishment of robust pediatric and adult reference intervals on the basis of the Canadian Health measures Survey. Clin Chem. 2015;61(8):1063–74.PubMedCrossRef

27.

Colantonio DA, Kyriakopoulou L, Chan MK, Daly CH, Brinc D, Venner AA, et al. Closing the gaps in pediatric laboratory reference intervals: a CALIPER database of 40 biochemical markers in a healthy and multiethnic population of children. Clin Chem. 2012;58(5):854–68.PubMedCrossRef

28.

Interator H, Lebenthal Y, Hoshen M, Safra I, Balicer R, Leshno M, et al. Distinct lipoprotein curves in normal weight, overweight, and obese children and adolescents. J Pediatr Gastroenterol Nutr. 2017;65(6):673–80.PubMedCrossRef

29.

Shirasawa T, Ochiai H, Ohtsu T, Nishimura R, Morimoto A, Hoshino H, et al. LDL-cholesterol and body mass index among Japanese schoolchildren: a population-based cross-sectional study. Lipids Health Dis. 2013;12:77.PubMedPubMedCentralCrossRef

30.

Ma X, Zhang C, Su H, Gong X, Kong X. Increasing body Mass Index predicts Rapid decline in renal function: a 5 year retrospective study. Horm Metab Res. 2018;50(7):556–61.PubMedCrossRef

31.

Lu JL, Molnar MZ, Naseer A, Mikkelsen MK, Kalantar-Zadeh K, Kovesdy CP. Association of age and BMI with kidney function and mortality: a cohort study. Lancet Diabetes Endocrinol. 2015;3(9):704–14.PubMedPubMedCentralCrossRef

32.

Li XM, Ma YT, Xie X, Yang YN, Li XM, Zheng YY. Relationship between serum creatinine and obesity in children in Xinjiang, China. Genet Mol Res. 2014;13(2):2409–16.PubMedCrossRef

33.

Parmaksız G, Kekeç ŞD, Cengiz ND, Noyan A. The relationship between body mass index and renal length in obese children. Pediatr Nephrol. 2020;35(5):901–5.PubMedCrossRef

34.

Ece A, Çetinkaya S, Ekşioğlu S, Şenel S, Özkasap S, Giniş T, et al. Kidney growth and renal functions under the growth hormone replacement therapy in children. Ren Fail. 2014;36(4):508–13.PubMedCrossRef

35.

Suteerojntrakool O, Khongcharoensombat T, Chomtho S, Bongsebandhu-Phubhakdi C, Tempark T, Fewtrell M. Anthropometric markers and Iron status of 6-12-year-old Thai children: associations and predictors. J Nutr Metab. 2021;2021:9629718.PubMedPubMedCentralCrossRef

36.

Alam F, Ashraf N, Kashif R, Arshad H, Fatima SS. Soluble transferrin receptor, Ferritin index in Pakistani population. Pak J Pharm Sci. 2017;30(2):537–40.PubMed

37.

Shin SH, Lee YJ, Lee YA, Kim JH, Lee SY, Shin CH. High-sensitivity C-Reactive protein is Associated with prediabetes and Adiposity in Korean Youth. Metab Syndr Relat Disord. 2020;18(1):47–55.PubMedCrossRef

38.

de Dios O, Herrero L, Vales-Villamarín C, Mahíllo-Fernández I, Soriano-Guillén L, Garcés C. Sex steroid hormones, leptin, and high-sensitivity C-reactive protein levels in adolescents. Andrology. 2021;9(3):829–36.PubMedCrossRef

39.

Navarro P, de Dios O, Gavela-Pérez T, Jois A, Garcés C, Soriano-Guillén L. High-sensitivity C-Reactive protein and leptin levels related to body Mass Index changes throughout Childhood. J Pediatr. 2016;178:178–82.PubMedCrossRef

40.

Wang L, Song L, Liu B, Zhang L, Wu M, Cao Z, et al. Trends and Status of the prevalence of elevated blood pressure in children and adolescents in China: a systematic review and Meta-analysis. Curr Hypertens Rep. 2019;21(11):88.PubMedCrossRef

41.

Araújo J, Ramos E, Barros H. Decreases in adiposity reduce the risk of hypertension: results from a prospective cohort of adolescents. Prev Med. 2019;120:1–7.PubMedCrossRef

42.

Parker ED, Sinaiko AR, Kharbanda EO, Margolis KL, Daley MF, Trower NK, et al. Change in Weight Status and Development of Hypertension. Pediatrics. 2016;137(3):e20151662.PubMedPubMedCentralCrossRef

43.

Daniels SR, Greer FR. Lipid screening and cardiovascular health in childhood. Pediatrics. 2008;122(1):198–208.PubMedCrossRef

44.

Lozano P, Henrikson NB, Morrison CC, Dunn J, Nguyen M, Blasi PR, et al. Lipid screening in Childhood and Adolescence for detection of multifactorial dyslipidemia: evidence report and systematic review for the US Preventive Services Task Force. JAMA. 2016;316(6):634–44.PubMedCrossRef

45.

Habib A, Molayemat M, Habib A. Association of lipid profile and BMI Z-score in southern Iranian children and adolescents. J Pediatr Endocrinol Metab. 2019;32(8):827–35.PubMedCrossRef

46.

Friedland O, Nemet D, Gorodnitsky N, Wolach B, Eliakim A. Obesity and lipid profiles in children and adolescents. J Pediatr Endocrinol Metab. 2002;15(7):1011–6.PubMedCrossRef

47.

Zhang CX, Tse LA, Deng XQ, Jiang ZQ. Cardiovascular risk factors in overweight and obese Chinese children: a comparison of weight-for-height index and BMI as the screening criterion. Eur J Nutr. 2008;47(5):244–50.PubMedCrossRef

48.

Ferreira AP, Nóbrega Ode T, França NM. Association of body mass index and insulin resistance with metabolic syndrome in Brazilian children. Arq Bras Cardiol. 2009;93(2):147–53.PubMedCrossRef

Title: Exploring the complex dynamics of BMI, age, and physiological indicators in early adolescents
Authors: Ning Ding
Suyun Li
Han Zhou
Zhenchuang Tang
Tianlin Gao
Meina Tian
Changqing Liu
Xiaoyan Luo
Hongtong Chen
Lianlong Yu
Yao Chen
Li Yang
Lichao Zhu
Publication date: 01-12-2024
Publisher: BioMed Central
Published in: BMC Pediatrics / Issue 1/2024
Electronic ISSN: 1471-2431
DOI: https://doi.org/10.1186/s12887-024-04680-8

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Exploring the complex dynamics of BMI, age, and physiological indicators in early adolescents

Abstract

Background and objectives

Methods

Results

Conclusions

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background and objectives

Methods

Results

Conclusions

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