Abstract
Background
A more comprehensive assessment of growth and nutrition in children is required in China due to rapid socioeconomic processes. We aimed to investigate height and body mass index (BMI) trajectories from 1975 to 2015 and the prevalence of stunting and obesity in 2016 among children in Chinese cities.
Methods
A total of 904,263 children from birth to 6.9 years were collected from a series of nationally representative surveys in China. Height and BMI trajectories and prevalence of stunting, underweight, overweight and obesity were assessed.
Results
The average height level of Chinese urban children under 7 years presented a positive secular trend from 1975 to 2015; however, a slowing tendency occurred in 2005‒2015. An apparent increase was observed at the 5th, 50th and 95th percentiles of BMI in urban children aged 3 years and older, with a more prominent increase at the 95th percentile. The total prevalence of stunting and underweight under 7 years was 1.4% and 2.0%, respectively. The total prevalence of overweight and obesity under 7 years was 12.6% and 4.3%, respectively, with 12.7% and 4.9% for boys, 12.6% and 3.6% for girls, 12.1% and 4.0% in urban areas and 13.1% and 4.5% in suburban rural areas.
Conclusions
The average height level of Chinese urban children has reached World Health Organization child growth standards since 2005 and presented a slowing tendency in secular trend in 2005‒2015. More attention and efforts and public health interventions should be urgently made to combat overweight and obesity among preschool children.
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Introduction
The growth and nutrition of children is one of the main markers of socioeconomic development and civilizational progress in a population. Regular monitoring and assessment of children’s growth and nutrition is essential and conducive to the formulation and revision of children’s health and nutrition strategies and rational investment and allocation of health resources. The Chinese government attaches great importance to the growth, development and nutrition of children. It launched a national special survey entitled “the National Survey on Physical Growth and Development of Children (NSPGDC)” in nine cities in China in 1975, and this national survey has continued to the present day [1, 2]. The NSPGDC is the earliest, large-scale, population-based nationally representative special survey on the growth and development of children under 7 years old, and the NSPGDC and its subprojects are primary data sources for developing national health strategies and national growth standards for Chinese children [3,4,5].
China transitioned from a low-income to an upper middle-income country along with the sustained and rapid development of the social economy in the past few decades. An overall trend, such as decreasing under-nutrition and increasing over-nutrition was reported among children and adolescents aged 7–18 years in China between 1985 and 2014 [6, 7]. However, a more comprehensive analysis and assessment report in young children is still inadequate or even lacking in China with rapid socioeconomic processes, which is not conducive to evidence-based revision and improvement of children’s health and nutrition strategies.
Using five rounds of the NSPGDC [1, 2, 8,9,10] and one of its subprojects [11], we aimed to investigate 40-year trends in height and body mass index (BMI) trajectories from 1975 to 2015 and the prevalence of stunting, underweight, overweight and obesity in 2016 among children under 7 years old in Chinese cities. In addition, we also examined the effect of some economic or sociodemographic variables on children’s growth and nutrition. Our spatiotemporal analysis may be useful for the revision and refinement of children’s health and nutrition strategies for China as well as other rapidly developing countries or regions.
Methods
Data source
Data were derived from the NSPGDC in nine cities of China [1, 2, 8,9,10], which was a repeated cross-sectional national special survey undertaken since 1975, once every 10 years, and a subproject of the NSPGDC, namely, the National Epidemiological Survey on Simple Obesity in Childhood (NESSOC) in the same nine cities [11]. To exhibit a more complete picture of the growth and nutrition of Chinese children, we used all data of the series of the NSPGDC from 1975 to 2015 to exhibit secular trends in height and BMI trajectories and the latest data of the NESSOC in 2016 to examine the updated prevalence of stunting, underweight, overweight and obesity among children under 7 years old in Chinese cities.
The NSPGDC was carried out in five rounds in nine cities of China in 1975, 1985, 1995, 2005 and 2015. Of these nine cities, Beijing and Shanghai are province-level municipalities that have almost the highest level of socioeconomic development in China, and the other seven cities are provincial capital cities that have almost the highest level of socioeconomic development in their respective provinces, including Harbin (Heilongjiang’s provincial capital), Xi’an (Shaanxi), Nanjing (Jiangsu), Wuhan (Hubei), Guangzhou (Guangdong), Fuzhou (Fujian) and Kunming (Yunnan). On the other hand, these nine cities covered all seven geographical regions of China, including East China (Shanghai, Nanjing, Fuzhou), South China (Guangzhou), North China (Beijing), Central China (Wuhan), Southwest China (Kunming), Northwest China (Xi’an), and Northeast China (Harbin). The NSPGDC used stratified cluster sampling according to urban/suburban rural areas and administrative districts in each survey city. Children under 3 years old were from the street community, and children aged 3 to 6.9 years were from kindergarten. Urban children are determined as permanently living in urban areas in the surveyed city, or these children moved into the surveyed city from other large cities and lived for more than two-thirds of the children’s age; and suburban rural children, as either one or both parents are farmers and children are brought up in the suburban rural area (surrounding the surveyed city). Children under 7 years old are classified into 22 age groups: newborn to 3 days, monthly for 1 to 5 months, bimonthly for 6 to 11 months, tri-monthly for 12 to 23 months, half-yearly for 2 to 5.9 years, and yearly for 6 to 6.9 years. The classification of age groups follows the criteria of ‘‘low limit’’; for example, 3 months represents children aged 3.0–3.9 months. Each sex-age subgroup consists of about 200 children in urban/rural areas of each survey city. About 1800 children were included in each age subgroup for urban boys, urban girls, rural boys and rural girls. Exclusion criteria were temporary residents, premature birth, birth weight below 2.5 kg, multiple births, acute illness within a month, chronic illness, and obvious malnourishment and physical handicap.
The NESSOC was one of the subprojects of the NSPGDC and the most representative epidemiological special survey on childhood obesity in China [11, 12], and the surveyed cities and sampling method were the same as the NSPGDC. One or more districts were selected as the study units in each survey city, and the estimated numbers of children under 7 years old were more than 10 thousand, with about half in urban areas and half in rural areas. Children below 3 years were selected from the street community, and children aged 3 to 6.9 years were selected from kindergarten. The survey number of communities and kindergartens was estimated based on the total number of children under 7 years old and the age distribution of children in the selected districts of each survey city. The participation proportion of the study subjects was not less than 95% in the selected communities and kindergartens, and the total number of participants was not less than 10 thousand in each survey city.
Sample size
A total of 904,263 children under 7 years were included in this present study, with 793,772 children from five rounds of the NSPGDC between 1975 and 2015 and 110,491 children from the NESSOC in 2016. Table 1 shows the detailed sample sizes by gender, urban/rural area, and survey year.
Anthropometric measurements
Using unified measuring tools/instruments in a standardized way by specially trained technicians or nurses [2, 13], weight was measured with children wearing the lightest vest, shorts or underwear by newborn scales (accurate to 10 g) for newborns, and lever scales (accurate to 50 g, in 1975–2005) or electronic scales (T-scale M303, accurate to 50 g, in 2015) for children aged 1 month to 6.9 years, and height (not in shoes) was measured as recumbent length with a horizontal infantometer (accurate to 0.1 cm) for children under 3 years old and as standing height with a metal column height measuring device (accurate to 0.1 cm) for children aged 3 to 6.9 years in 1975‒2015. All height measurements were recorded to the nearest 0.1 cm. Measurement errors of weight and height were not more than 0.05 kg or 0.5 cm between two repeated measurements.
Quality control
The NSPGDC and its subproject (NESSOC) were undertaken in nine cities of China. The steering committee was located in Beijing (capital of China), and the nine coordinating subgroups in each survey city worked simultaneously following a uniform program, organizing and training local survey teams, carrying out the measurements and checking the questionnaires under the direction and supervision of the Beijing steering committee. All the field investigators participated in rigorous training and passed professional examinations before starting the field investigation. Unified measuring tools/instruments were equipped for each field site of each survey city. The field investigation started in May and finished in October of the same year. All physical measurements were carried out at least 1 hour after a meal between approximately 8 a.m. and 4 p.m. The questionnaire design, questionnaire entry and data verification were completed by the Beijing steering committee.
Economic or sociodemographic data
Data on gross domestic product (GDP) per capita, Engel’s coefficient, health professionals including doctors and nurses, and under-5 and infant mortality rates between 1978 and 2020 were obtained from the China Statistical Yearbook 2022 [14].
Statistical analysis
BMI was calculated as weight (kg) divided by the square of length/height (m). A 40-year change in height from 1975 to 2015 was examined, but only a 30-year change in BMI from 1985 to 2015 was analyzed due to the scarcity of the raw dataset in 1975, and BMI was not calculated and documented in 1975, as BMI was not widely used. We defined prevalence of stunting as < − 2 standard deviations (SD) from median for length/height-for-age, underweight as < − 2 SD, overweight as ≥ + 1 SD but < + 2 SD, and obesity as ≥ + 2 SD from median for BMI-for-age based on the China growth standards for 0–18 years [4] or the World Health Organization (WHO) growth standards for 0–5 years and the WHO growth references for 5–19 years [15, 16]. A comparable definition of the prevalence according to the same cutoffs when using the China and WHO criteria may be more feasible and reasonable for the under-7-year data in this present study. Differences in the prevalence based on the China and WHO criteria were tested by McNemar’s test. A two-sided P value of less than 0.05 was considered statistically significant. Data analysis was performed in SAS v9.4 (SAS Institute, Cary, North Carolina).
Results
Height trajectory change from 1975 to 2015
The average height level of Chinese urban children under 7 years presented a positive secular trend between 1975 and 2015; however, a slowing tendency occurred in 2005‒2015 (Fig. 1), with a total of 5.8 cm increments in 1975‒2015 (1.3 cm in 1975‒1985, 1.7 cm in 1985‒1995, 2.2 cm in 1995‒2005 and 0.7 cm in 2005‒2015) for boys aged 3 years and a total of 5.6 cm increments (1.2 cm, 1.8 cm, 1.9 cm and 0.7 cm, respectively) for girls. Compared with WHO standards/references, the height level of Chinese urban children under 7 years has undergone a changing process from falling behind in 1995 and before to reaching in 2005 and to outstripping in 2015.
The urban‒rural differences in average height showed a narrowing tendency between 1975 and 2015, with a sharp narrowing gap in 2005‒2015, and the differences in 2015 were less than 0.5 cm in most of the age groups (Fig. 2). For example, the urban‒rural differences were 3.3 cm in 1975, 2.9 cm in 1985, 2.5 cm in 1995, 1.8 cm in 2005 and 0.5 cm in 2015 for boys aged 3 years and 3.5 cm, 3.0 cm, 2.5 cm, 1.6 cm and 0.4 cm for girls, respectively.
Body mass index trajectory change from 1985 to 2015
An apparent increase was observed at the 5th, 50th and 95th percentiles of BMI in urban children aged 3 years and older, with a more prominent increase at the 95th percentile (Fig. 3), for example, a total of 2.7 kg/m2 increments at the 95th percentile during 1985–2015 (0.7 kg/m2 in 1985–1995, 1.2 kg/m2 in 1995–2005 and 0.8 kg/m2 in 2005–2015) for boys aged 5 years and a total of 2.2 kg/m2 increments (0.6 kg/m2, 0.9 kg/m2 and 0.7 kg/m2, respectively) for girls. Furthermore, the nutritional level of urban children aged 3–6.9 years was higher for boys but lower for girls than WHO standards/references in 2015 (Fig. 4).
Stunting prevalence in 2016
The total prevalence of stunting based on the Chinese criteria was 1.4% (Table 2). The stunting prevalence was 1.4% for boys and 1.4% for girls, ranging from 0.7% to 1.9% among different age groups, was 1.2% in urban areas and 1.6% in rural areas, and varied from the lowest 0.3% in Nanjing to the highest 4.6% in Guangzhou. The stunting prevalence was lower based on the WHO criteria than based on the Chinese criteria in all the corresponding examined groups (Table 2).
Underweight prevalence in 2016
The total prevalence of underweight based on the Chinese criteria was 2.0%, with boys 2.0% and girls 2.1% and urban 2.2% and rural 1.9% (Table 3). The underweight prevalence ranged from 1.5% to 2.7% among different age groups, from the lowest 0.7% in Nanjing to the highest 3.7% in Kunming. The underweight prevalence was lower based on the WHO criteria than based on the Chinese criteria in all the corresponding examined groups (Table 3).
Overweight and obesity prevalence in 2016
The total prevalence of overweight and obesity based on the Chinese criteria was 12.6% and 4.3%, respectively, with 12.7% and 4.9% for boys and 12.6% and 3.6% for girls (Table 3). The prevalence of overweight and obesity increased with age, with overweight increasing from 9.8% in the 1- to 11-month group to 14.6% in the 6- to 6.9-year group and obesity increasing from 2.0% to 8.7%. The overweight and obesity prevalence was 12.1% and 4.0% in urban areas and 13.1% and 4.5% in rural areas, respectively, varying from the lowest 7.8% in Kunming to the highest 18.3% and in Nanjing for overweight and from the lowest 2.2% in Kunming to the highest 5.6% in Harbin for obesity. The obesity prevalence based on the WHO criteria seemed to be close to that based on the Chinese criteria, such as overall 4.3% versus 4.3%, urban 4.0% versus 4.0% and rural 4.6% versus 4.5%; however, differences existed in gender, age and cities (Table 3).
Discussion
In the past few decades, China has achieved world-renowned socioeconomic progress, which has had a profound impact on various walks of life. GDP per capita increased from 385 Chinese Yuan (CNY) in 1978 to 72,000 CNY in 2020, Engel’s coefficient decreased from 65.9% in 1978 to 29.3% in 2017, health professionals rose from 2.85 per 1000 population in 1980 to 7.57 per 1000 population in 2020 with doctors from 1.17 to 2.90 and nurses from 0.47 to 3.34, infant mortality rate declined from 50.2‰ in 1991 to 5.4‰ in 2020 and under-5 mortality rate from 61.0‰ to 7.5‰, and these changing trends of economic and sociodemographic variables are shown in Fig. 5. During this period, children under 7 years old presented a positive rapid secular growth trend; furthermore, children from 7 to 18 years also exhibited a similar positive rapid secular trend [17, 18]. In general, this positive rapid secular change in Chinese children should mainly be attributed to rapid socioeconomic progress and improved health services.
Several notable features in the secular growth trend in China may have important public health implications. First, a slowing tendency was the latest and most prominent feature in the process of secular trend in Chinese children. Children’s health and nutrition strategies should be adjusted swiftly from focusing on physical growth level to promoting integrated early development. In addition, promoting socioeconomic development and improving people’s livelihood and health services was regarded as a powerful and replicable measure to ensure children’s growth potential. Second, the narrowing urban‒rural difference in height directly resulted from larger increments in rural children than urban children, especially in 2015. The urbanization construction of suburban rural areas has been accelerating and incorporating urban areas, especially in the last 10 years [3]. Perhaps urban‒rural disparities in children’s growth will further narrow or even disappear in the near future. Moreover, the narrowing urban‒rural difference further suggested that promoting socioeconomic development and urbanization construction was also regarded as an important measure to achieve equal development of urban, suburban and rural areas. Third, the growth level of children in cities of China has reached WHO child growth standards under 5 years since 2005. A systematic analysis showed that Chinese urban children under 5 years were the tallest in 141 low-income and middle-income countries in 2011, and Chinese rural children were put as the ninth tallest out of 141 countries with respect to rural height [19]. In general, children in cities of China have basically realized their growth potential and reached the standard of a well-nourished population, and children in rural regions have been rapidly catching up.
Under-nutrition in children is no longer the main nutritional concern in cities of China. In the nine survey cities, the prevalence of stunting and underweight was about 1% in 2016, regardless of the China or WHO criteria. Trend analysis from the series of the NSPGDC showed that child nutrition has entered a new development stage in China, with over-nutrition prevalence overtaking under-nutrition prevalence in Chinese cities since 2005 [20]. China has lifted all rural poor populations and regional overall poverty in 2022, and the problem of malnutrition in rural areas will be solved soon. However, considering that China is a large developing country with a vast territory and a large regional socioeconomic disparity, under-nutrition in rural children is still a major public health concern that cannot be ignored in some vulnerable regions and subgroups [21, 22], and child nutrition in rural areas, especially in poor rural areas, still needs to be given sustainable action.
Overweight and obesity in children is a serious public health problem in cities of China. Secular trends in BMI trajectories from the NSPGDC illustrated an alarming increase at the upper percentiles, which was the most direct evidence of an apparent increase in obesity prevalence in children. Data from the series of the NESSOC indicated a rapid increasing trend in obesity prevalence in children under 7 years of age in Chinese cities between 1986 and 2016 [11, 12]. Similarly, data from another national survey also illustrated the rapid increasing trend in obesity prevalence in children aged 7–18 years in China over the past decades [23]. Briefly, a rapid rise in obesity prevalence was the most noteworthy epidemic characteristic among children and adolescents in China in recent decades. In addition, focusing attention should be given to emerging epidemic features in that the overweight and obesity prevalence in rural areas increased faster and was even higher than that in urban areas. In 2010–2014, overweight and obesity showed a more rapid increase for children aged 7–18 years in rural areas than in urban areas [7, 23]. Recent epidemic features of overweight and obesity in children in China strongly support that obesity prevention and control in childhood should target not only urban children but also rural children.
Our study has several strengths. First, we used the earliest, large-scale national data to investigate long-term trends in height trajectories in Chinese children from 1975 to 2015. Second, we illustrated more comprehensive BMI trajectories by the 5th, 50th and 95th percentiles from 1985 to 2015. Third, we calculated and compared the updated prevalence of stunting, underweight, overweight and obesity using the latest NESSOC data based on both the China and WHO criteria. However, our study also had several limitations. First, the NSPGDC and its subproject (NESSOC) were undertaken in cities and did not cover rural areas, so the malnutrition prevalence in this present study may be inadequate in reflecting the situation in all of China. Second, our data only covered the 0–7-year part of the national studies rather than the whole 0–18-year range. Secular trends in height and weight status aged 7–18 years have been described elsewhere [6, 7, 24, 25]. Third, we illustrated the change in economic or sociodemographic variables in the general Chinese population; however, the change in the specific study population that may be more exact for exploring its association with children’s growth and nutrition was not publicly obtained for all the surveyed cities in the survey years.
In conclusion, in the process of a positive secular trend in China over the past few decades, the average height level of urban children under 7 years has reached WHO child growth standards since 2005 and presented a slowing tendency in the trend in 2005‒2015. The BMI trajectory highlighted an apparent increase in children at ages 3 years and older from 1985 to 2015, especially at the upper percentiles. More attention and efforts and public health interventions should be urgently made to combat overweight and obesity epidemics among preschool children. Our observed achievements and challenges from a rapidly developing China may be useful for both China and other rapidly developing countries or regions to revise and refine children’s health and nutrition strategies.
Data availability
The datasets used during the current study are not publicly available due to limitations of ethical approval involving the subject data and anonymity, but are available from the corresponding author on reasonable request.
References
Institute of Pediatrics of Chinese Academy of Medical Sciences. Studies on physical development of children and adolescents in new Chinese. Chin Med J (Engl). 1977;3:364–72.
Zhang YQ, Li H, Wu HH, Zong XN, Zhu ZH, Pan Y, et al. The 5th national survey on the physical growth and development of children in the nine cities of China: anthropometric measurements of Chinese children under 7 years in 2015. Am J Phys Anthropol. 2017;163:497–509.
Zong XN, Li H. Physical growth of children and adolescents in China over the past 35 years. Bull World Health Organ. 2014;92:555–64.
Zong XN, Li H. Construction of a new growth references for China based on urban Chinese children: comparison with the WHO growth standards. PLoS One. 2013;8:e59569.
Zong XN, Li H, Zhang YQ, Wu HH, Zhao GL, Working Committee of the China National Newborn Growth Standards Project. Construction of China national newborn growth standards based on a large low-risk sample. Sci Rep. 2021;11:16093.
Dong Y, Lau PWC, Dong B, Zou Z, Yang Y, Wen B, et al. Trends in physical fitness, growth, and nutritional status of Chinese children and adolescents: a retrospective analysis of 1.5 million students from six successive national surveys between 1985 and 2014. Lancet Child Adolesc Health. 2019;3:871–80.
Dong Y, Jan C, Ma Y, Dong B, Zou Z, Yang Y, et al. Economic development and the nutritional status of Chinese school-aged children and adolescents from 1995 to 2014: an analysis of five successive national surveys. Lancet Diabetes Endocrinol. 2019;7:288–99.
Zhang X, Huang Z. The second national growth and development survey of children in China, 1985: children 0 to 7 years. Ann Hum Biol. 1988;15:289–305.
Coordinating Group of Nine Cities on Physical Growth and Development of Children. A survey on the physical growth of children under 7 years in the urban and suburban rural areas of nine cities of China in 1995. Zhonghua Yi Xue Za Zhi. 1998;78:187–91 (in Chinese).
Coordinating Study Group of Nine Cities on Physical Growth and Development of Children, Capital Institute of Pediatrics. A national survey on growth under 7 years of age in nine cities of China, 2005. Zhonghua Er Ke Za Zhi. 2007;45:609–14 (in Chinese).
Capital Institute of Pediatrics, Coordinating Study Group of Nine Cities on the Physical Growth and Development of Children. A national epidemiological survey on obesity of children under seven years of age in nine cities of China in 2016. Zhonghua Er Ke Za Zhi. 2018;56:745–52 (in Chinese).
Zong XN, Li H. Secular trends in prevalence and risk factors of obesity in infants and preschool children in 9 Chinese cities, 1986–2006. PLoS One. 2012;7:e46942.
Institute of Pediatrics of Chinese Academy of Medical Sciences. Implementation scheme of physical development of children and adolescents in new Chinese, 1975. Chin Med J (Engl). 1976;56:63–4.
National Bureau of Statistics of China. China Statistical Yearbook 2022. Beijing: China Statistics Press; 2022.
WHO Multicentre Growth Reference Study Group. WHO Child Growth Standards based on length/height, weight, and age. Acta Paediatr Suppl. 2006;450:76–85.
de Onis M, Onyango AW, Borghi E, Siyam A, Nishida C, Siekmann J. Development of WHO growth reference for school-aged children and adolescents. Bull World Health Organ. 2007;85:660–7.
Chen TJ, Ji CY. Secular change in stature of urban Chinese children and adolescents, 1985–2010. Biomed Environ Sci. 2013;26:13–22.
Chen TJ, Ji CY. Secular changes of stature in rural children and adolescents in China, 1985–2010. Biomed Environ Sci. 2014;27:573–81.
Paciorek CJ, Stevens GA, Finucane MM, Ezzati M, Nutrition Impact Model Study Group (Child Growth). Children’s height and weight in rural and urban populations in low-income and middle-income countries: a systematic analysis of population-representative data. Lancet Glob Health. 2013;1:e300–9.
Zong XN, Li H, Zhang YQ, Wu HH. Child nutrition to new stage in China: evidence from a series of national surveys, 1985–2015. BMC Public Health. 2019;19:402.
Jiang Y, Su X, Wang C, Zhang L, Zhang X, Wang L, et al. Prevalence and risk factors for stunting and severe stunting among children under three years old in mid-western rural areas of China. Child Care Health Dev. 2015;41:45–51.
Wang A, Scherpbier RW, Huang X, Guo S, Yang Y, Josephs-Spaulding J, et al. The dietary diversity and stunting prevalence in minority children under 3 years old: a cross-sectional study in forty-two counties of Western China. Br J Nutr. 2017;118:840–8.
Wang S, Dong YH, Wang ZH, Zou ZY, Ma J. Trends in overweight and obesity among Chinese children of 7–18 years old during 1985–2014. Zhonghua Yu Fang Yi Xue Za Zhi. 2017;51:300–5 (in Chinese).
Ma J, Wu SS, Song Y, Hu PJ, Zhang B. Secular growth trends in height and weight of Chinese children aged 7 to 18 year-old from 1985 to 2005. Beijing Da Xue Xue Bao Yi Xue Ban. 2010;42:318–22 (in Chinese).
Gao D, Dong Y, Yin Y, Zou Z, Ma J. Secular trends of height and weight in Chinese children from 2005 to 2014. Chin J Sch Health. 2018;39:252–5 (in Chinese).
Acknowledgements
We thank the National Health Commission of the People’s Republic of China and all the other departments involved in this survey for their coordination and organization in the process of starting and implementing this survey. We thank all the investigators in this survey for their excellent fieldwork, especially their careful measurements.
Funding
This study was supported by the Maternal and Child Health Program of the National Health Commission of the People’s Republic of China (2015–42).
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ZXN contributed to investigation, formal analysis, methodology, data curation, conceptualization, and writing of the original draft. LH contributed to funding acquisition, conceptualization, project administration, supervision, reviewing and editing. ZYQ contributed to investigation, formal analysis, data curation, and reviewing and editing. All the authors read, reviewed and approved the final manuscript as submitted.
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The study protocols of the NSPGDC were approved by the Ethics Committee of the Capital Institute of Pediatrics (SHERLL2015009). Informed consent was verbal and the ethics committee approved this procedure. Purpose, procedure, discomfort and benefit of the surveys were adequately explained by the staff of the cooperating groups to the parents, guardians and teachers involved in the survey. All the participants were voluntary.
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Zong, XN., Li, H. & Zhang, YQ. Height and body mass index trajectories from 1975 to 2015 and prevalence of stunting, underweight and obesity in 2016 among children in Chinese cities: findings from five rounds of a national survey. World J Pediatr 20, 404–412 (2024). https://doi.org/10.1007/s12519-023-00747-1
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DOI: https://doi.org/10.1007/s12519-023-00747-1