The cumulative effect and sensitive period of overweight/obesity on high blood pressure in children based on the Tianjin Birth Cohort Study

Tianshu Feng , Rui Deng , Yang Peng , Jing Li , Bin Dong

Metabolism and Target Organ Damage ›› 2025, Vol. 5 ›› Issue (4) : 62

PDF
Metabolism and Target Organ Damage ›› 2025, Vol. 5 ›› Issue (4) :62 DOI: 10.20517/mtod.2025.95
Original Article
The cumulative effect and sensitive period of overweight/obesity on high blood pressure in children based on the Tianjin Birth Cohort Study
Author information +
History +
PDF

Abstract

Aim: Sensitive periods in child development are times when certain exposures may exert greater influences on health outcomes. The exposure to overweight/obesity and its cumulative effect during children’s sensitive periods may be associated with a higher risk of high blood pressure (HBP) in childhood.

Methods: A total of 522 boys and 534 girls (mean age: 9.6 years old, standard deviation: 0.6) from the birth cohort were selected for subsequent analysis. The curves of body mass index Z-score were generated by mixed-effect models. The statistically significant relative risk (RR) values of the first derivatives of the curves, evaluated at 0.5 year intervals, were used to identify the sensitive period. The area under the curve was employed to measure the cumulative exposure to overweight/obesity. Binary logistic regression model was used to investigate the association between the cumulative effect and risk of HBP in children.

Results: The sensitive periods identified were 2.5-5.5 years in boys and 7.0-8.5 years in girls. During these sensitive periods, the cumulative effect [RR: 1.12, 95% confidence interval (CI): 1.07-1.17, P < 0.001] and the average cumulative effect (RR: 1.21, 95%CI: 1.16-1.28, P < 0.001) of overweight/obesity exerted a greater impact on the risk of HBP than during periods outside the sensitive periods (cumulative effect: RR: 1.01, 95%CI: 1.00-1.03, P = 0.036; average cumulative effect: RR: 1.02, 95%CI: 1.00-1.03, P = 0.049).

Conclusion: This study identified the sensitive periods during which overweight/obesity influences the risk of HBP in children aged 9-10 years and demonstrated the greater cumulative effect of overweight/obesity on the elevated risk of HBP.

Keywords

Overweight / sensitive period / cumulative effect / child / high blood pressure / birth cohort

Cite this article

Download citation ▾
Tianshu Feng, Rui Deng, Yang Peng, Jing Li, Bin Dong. The cumulative effect and sensitive period of overweight/obesity on high blood pressure in children based on the Tianjin Birth Cohort Study. Metabolism and Target Organ Damage, 2025, 5(4): 62 DOI:10.20517/mtod.2025.95

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Falkner B, Gidding SS, Baker-Smith CM, et al; American Heart Association Council on Hypertension; Council on Lifelong Congenital Heart Disease and Heart Health in the Young; Council on Kidney in Cardiovascular Disease; Council on Lifestyle and Cardiometabolic Health; and Council on Cardiovascular and Stroke Nursing. Pediatric primary hypertension: an underrecognized condition: a scientific statement from the american heart association. Hypertension. 2023;80:e101-11.

[2]

Tran AH,Becker RC.Subclinical systolic and diastolic dysfunction is evident in youth with elevated blood pressure.Hypertension2020;75:1551-6 PMCID:PMC7266265
[3]

Khoury M.Hypertension in adolescents: diagnosis, treatment, and implications.Lancet Child Adolesc Health2021;5:357-66

[4]

Chen X.Tracking of blood pressure from childhood to adulthood: a systematic review and meta-regression analysis.Circulation2008;117:3171-80 PMCID:PMC3568631
[5]

Zhou J,Jiang D.National, regional and provincial prevalence of childhood hypertension in China in 2020: a systematic review and modelling study.Lancet Child Adolesc Health2024;8:872-81

[6]

Cai S,Chen Z.Secular trends in physical fitness and cardiovascular risks among Chinese college students: an analysis of five successive national surveys between 2000 and 2019.Lancet Reg Health West Pac2025;58:101560 PMCID:PMC12053983
[7]

Haapala EA.Prevention of cardiovascular diseases since early childhood - is keeping kids at normal weight the best investment?.Eur J Prev Cardiol2019;26:1323-5

[8]

Ge WX,Ding ZY.Pediatric body mass index trajectories and the risk of hypertension among adolescents in China: a retrospective cohort study.World J Pediatr2023;19:76-86

[9]

Wang X,Huang S.Body mass index trajectory and incident hypertension: results from a longitudinal cohort of Chinese children and adolescents, 2006-2016.Am J Public Health2020;110:1689-95 PMCID:PMC7542296
[10]

Frankenhuis WE,McNamara JM.Echoes of early life: recent insights from mathematical modeling.Child Dev2018;89:1504-18 PMCID:PMC6175464
[11]

Plante I,Vaillancourt C,Parent L.Killing two birds with one stone: pregnancy is a sensitive window for endocrine effects on both the mother and the fetus.Environ Res2022;205:112435

[12]

Zhang X,Martin RM.Analysis of ‘sensitive’ periods of fetal and child growth.Int J Epidemiol2019; 48:116-23 PMCID:PMC6380295
[13]

de Onis M, Onyango AW, Borghi E, Siyam A, Nishida C, Siekmann J. Development of a WHO growth reference for school-aged children and adolescents.Bull World Health Organ2007;85:660-7 PMCID:PMC2636412
[14]

Dong Y,Song Y.National blood pressure reference for Chinese Han children and adolescents aged 7 to 17 years.Hypertension2017;70:897-906 PMCID:PMC5722224
[15]

Flynn JT,Baker-Smith CM.Clinical practice guideline for screening and management of high blood pressure in children and adolescents.Pediatrics2017;140:e20173035

[16]

Calcaterra V,Magenes VC.Sugar-sweetened beverages and metabolic risk in children and adolescents with obesity: a narrative review.Nutrients2023;15:702 PMCID:PMC9918944
[17]

Chen J,Li W.Physical activity and eating behaviors patterns associated with high blood pressure among Chinese children and adolescents.BMC Public Health2023;23:1516 PMCID:PMC10413547
[18]

Zhang N,Zhang M.Interpretation on dietary guidelines for Chinese school-aged children (2022).Chinese Journal of school health2022;43:805-8

[19]

Brown VA.An introduction to linear mixed-effects modeling in R.Adv Methods Pract Psychol Sci2021;4:2515245920960351

[20]

Fan B,Dayimu A.Body mass index trajectories during young adulthood and incident hypertension: a longitudinal cohort in Chinese population.J Am Heart Assoc2019;8:e011937 PMCID:PMC6507204
[21]

Zhang T,Xi B.Rate of change in body mass index at different ages during childhood and adult obesity risk.Pediatr Obes2019;14:e12513 PMCID:PMC6684349
[22]

Araújo J,Barros H.Duration and degree of adiposity: effect on cardiovascular risk factors at early adulthood.Int J Obes2017;41:1526-30

[23]

Norris T,Bann D.Duration of obesity exposure between ages 10 and 40 years and its relationship with cardiometabolic disease risk factors: a cohort study.PLoS Med2020;17:e1003387 PMCID:PMC7723271
[24]

Ben-Shlomo Y,Hughes R,Davies D.Immediate postnatal growth is associated with blood pressure in young adulthood: the Barry Caerphilly Growth Study.Hypertension2008;52:638-44

[25]

Belfort MB,Rich-Edwards J,Gillman MW.Size at birth, infant growth, and blood pressure at three years of age.J Pediatr2007;151:670-4 PMCID:PMC2278009
[26]

Perng W,Kramer MS.Early weight gain, linear growth, and mid-childhood blood pressure: a prospective study in project viva.Hypertension2016;67:301-8 PMCID:PMC4769100
[27]

Aris IM,Chen LW.Postnatal height and adiposity gain, childhood blood pressure and prehypertension risk in an Asian birth cohort.Int J Obes2017;41:1011-7 PMCID:PMC5473468
[28]

Jones A,Falaschetti E.Adipose and height growth through childhood and blood pressure status in a large prospective cohort study.Hypertension2012;59:919-25 PMCID:PMC3428923
[29]

Ortiz-Pinto MA,Ferriz-Vidal I.Association between general and central adiposity and development of hypertension in early childhood.Eur J Prev Cardiol2019;26:1326-34

[30]

Tebar WR,Farah BQ,Vanderlei LCM.High blood pressure and its relationship to adiposity in a school-aged population: body mass index vs waist circumference.Hypertens Res2018;41:135-40

[31]

Dong H, Yan Y, Liu J, et al; China Child and Adolescent Cardiovascular Health (CCACH) collaboration members. Reference centiles for evaluating total body fat development and fat distribution by dual-energy x-ray absorptiometry among children and adolescents aged 3-18 years. Clin Nutr. 2021;40:1289-95.

[32]

Yu S,Tang J.Fat-free mass may play a dominant role in the association between systolic blood pressure and body composition in children and adolescents.Br J Nutr2024;131:622-9

[33]

Agbaje AO,Tuomainen TP.Effects of arterial stiffness and carotid intima-media thickness progression on the risk of overweight/obesity and elevated blood pressure/hypertension: a cross-lagged cohort study.Hypertension2022;79:159-69 PMCID:PMC8654123
[34]

Cioffi CE,Welsh JA.Truncal-to-leg fat ratio and cardiometabolic disease risk factors in US adolescents: NHANES 2003-2006.Pediatr Obes2019;14:e12509 PMCID:PMC6546534
[35]

Dong J,Yan Y.Prevalence of hypertension and hypertension phenotypes after three visits in Chinese urban children.J Hypertens2022;40:1270-7

[36]

Liu Z,Zhao M,Xi B.Weight status change from birth to childhood and high blood pressure in childhood.Future2024;2:164-71

[37]

Oikonen M,Magnussen CG.Repeated blood pressure measurements in childhood in prediction of hypertension in adulthood.Hypertension2016;67:41-7

PDF

105

Accesses

0

Citation

Detail
Sections
Recommended

/