Evolution path and research hotspots in the field of 24-hourmovement behavior among children and adolescents

doi:10.11852/zgetbjzz2024-0070

Abstract

Abstract: Objective To visualize the research hotspots and emerging trends in the field of international research on 24-hour(24h) movement behavior among children and adolescents, in order to provide reference for their healthy development. Methods Literature on 24h movement behavior of children and adolescents was searched in the Web of Science core collection from January 2002 to September 2022. The CiteSpace software was used to visualize the network analysis of keyword co-occurrence, cluster analysis, and citation burst for 1 616 articles. Results The evolutionary trajectory of 24-hour activity patterns among children and adolescents internationally can be categorized into three phases: the "Transformation Period" characterized by understanding the differential impacts of behaviors on health; the "Formation Period" marked by epidemiological surveys of 24-hour activity behaviors; and the "Development Period", highlighted by the release of guidelines for 24-hour activity behaviors. Conclusions In comparison with international experiences, domestic research in this area started later and faces limitations, including insufficient epidemiological evidence, a lack of unified standards for Objective measurement tools, and inadequate evidence supporting physical activity guidelines. It is recommended that future studies prioritize large-scale epidemiological investigations, standardization of measurement instruments, and refinement of physical activity guidelines to foster healthy development among children and adolescents.

Key words: 24h movement behavior, children and adolescents, research hotspots, evolution path

摘要： 目的探索国际儿童青少年24h活动行为的前沿热点和发展趋势,为促进儿童青少年健康发展提供依据。方法以Web of Science^TM核心合集数据库为数据源,检索2002年1月—2022年12月儿童青少年24h活动行为相关文献,通过CiteSpace软件对纳入1 616篇文献进行关键词共线分析、关键词聚类分析、关键词突现分析。结果国际儿童青少年24h活动的演化路径可以划分为“变革期”、“形成期”、“发展期”3个阶段,对应“不同行为对健康的影响”、“24h活动行为流行病学调查”、“24h活动行为指南发布”3个阶段特征。前沿热点聚焦于24h活动行为与肥胖、24h活动行为与建成环境、24h活动行为的测量。结论对比国际经验,国内相关研究起步较晚,存在流行病学证据支撑不足、客观测量工具标准尚未统一、身体活动指南证据缺乏等局限性问题。建议后续研究重视大样本流行病学调查和测量工具标准化,并完善身体活动指南,以促进儿童青少年健康发展。

关键词: 24h活动行为, 儿童青少年, 前沿热点, 演化路径

CLC Number:

R179
G353.1

ZHAO Hanhua, WANG Di, GAO Ying. Evolution path and research hotspots in the field of 24-hourmovement behavior among children and adolescents[J]. Chinese Journal of Child Health Care, 2024, 32(12): 1343-1348.

赵晗华, 王地, 高莹. 儿童青少年24小时活动行为的演化路径与热点解析[J]. 中国儿童保健杂志, 2024, 32(12): 1343-1348.

References

[1] Kuzik N, Poitras VJ, Tremblay MS, et al. Systematic review of the relationships between combinations of movement behaviours and health indicators in the early years (0-4 years)[J]. BMC Public Health, 2017, 17(Suppl 5):849-863.
[2] Chen CM. CiteSpace Ⅱ: Detecting and visualizing emerging trends and transient patterns in scientific literature[J]. J Am Soc Inf Sci Technol, 2006,57(3):359-377.
[3] Chen CM, Dubin R, Kim MC.Emerging trends and new developments in regenerative medicine: A scientometric update (2000—2014)[J].Expert Opin Biol Ther, 2014,14(9):1295-1317.
[4] Tremblay MS, Colley RC, Saunders TJ, et al. Physiological and health implications of a sedentary lifestyle[J]. Appl Physiol Nutr Metab, 2010, 35(6):725-740.
[5] Sekine M, Yamagami T, Handa K, et al. A dose-response relationship between short sleeping hours and childhood obesity: Results of the toyama birth cohort study[J]. Child Care Health Dev, 2002, 28(2):163-170.
[6] Nelson MC, Gordon-Larsen P. Physical activity and sedentary behavior patterns are associated with selected adolescent health risk behaviors[J].Pediatrics,2006,117(4):1281-1290.
[7] Steele RM, van Sluijs EMF, Cassidy A, et al. Targeting sedentary time or moderate- and vigorous-intensity activity: Independent relations with adiposity in a population-based sample of 10-y-old British children[J]. Am J Clin Nutr, 2009, 90(5):1185-1192.
[8] Tremblay MS, Esliger DW, Tremblay A, et al. Incidental movement, lifestyle-embedded activity and sleep: New frontiers in physical activity assessment[J]. Appl Physiol Nutr Metab, 2007, 32(Suppl 2):208-217.
[9] Colley RC, Wong SL, Garriguet D, et al. Physical activity, sedentary behaviour and sleep in Canadian children:Parent-report versus direct measures and relative associations with health risk[J]. Health Rep, 2012, 23(2):45-52.
[10] Katzmarzyk PT, Staiano AE. Relationship between meeting 24-hour movement guidelines and cardiometabolic risk factors in children[J].J Phys Act Health, 2017, 14(10):779-784.
[11] Tremblay MS, Carson V, Chaput JP. Introduction to the Canadian 24-hour movement guidelines for children and youth: An integration of physical activity, sedentary behaviour, and sleep[J]. Appl Physiol Nutr Metab, 2016, 41(6 Suppl 3):Ⅲ-Ⅳ.
[12] Okely AD, Ghersi D, Loughran SP, et al.A collaborative approach to adopting/adapting guidelines. The Australian 24-hour movement guidelines for children (5-12 years) and young people (13-17 years): An integration of physical activity, sedentary behaviour, and sleep[J]. Int J Behav Nutr Phys Act, 2022, 19(1):2-23.
[13] Pedišic' Z. Measurement issues and poor adjustments for physical activity and sleep undermine sedentary behaviour research - the focus should shift to the balance between sleep, sedentary behaviour, standing and activity[J]. Kinesiology, 2014, 46(1):135-146.
[14] Pedišic' Z, Dumuid D, Olds TS. Integrating sleep, sedentary behaviour, and physical activity research in the emerging field of time-use epidemiology : Definitions, concepts, statistical methods, theoretical framework, and future directions[J]. Kinesiology, 2017, 49(2):252-269.
[15] Saunders TJ, Gray CE, Poitras VJ, et al. Combinations of physical activity, sedentary behaviour and sleep: Relationships with health indicators in school-aged children and youth[J]. Appl Physiol Nutr Metab, 2016, 41(Suppl 6):283-293.
[16] Chaput JP, Saunders J, Carson V. Interactions between sleep, movement and other non-movement behaviours in the pathogenesis of childhood obesity[J]. Obes Rev, 2017(18):7-14.
[17] Blundell JE, Gibbons C, Caudwell P, et al. Appetite control and energy balance: impact of exercise[J]. Obes Rev, 2015, 16(Suppl 1):67-76.
[18] Epstein LH, Paluch RA, Consalvi A, et al. Effects of manipulating sedentary behavior on physical activity and food intake[J]. J Pediatr, 2002, 140(3):334-339.
[19] 王丽娟. 5~18岁儿童青少年24h活动研究:现状,影响因素与健康效应[J]. 中国体育科技, 2022, 58(1):45-56.
Wang LJ. 24-hour movement of children and adolescents aged 5-18 : Current situation, influencing factors, and healthy impact[J].China Sport Science and Technology, 2022, 58(1):45-56.(in Chinese)
[20] Caetano IT, Miranda VPN, Dos Santos FK, et al. Ecological correlates related to adolescent movement behaviors:A latent class analysis[J].PLoS One,2022, 17(7):e0271111.
[21] Brittin J, Frerichs L,Sirard JR, et al. Impacts of active school design on school-time sedentary behavior and physical activity: A pilot natural experiment[J]. PLoS One, 2017, 12(12):e0189236.
[22] Khan A, Uddin R. Parental and peer supports are associated with an active lifestyle of adolescents: Evidence from a population-based survey[J]. Public Health, 2020(188):1-3.
[23] Dumuid D, Wake M, Clifford S, et al. The Association of the body composition of children with 24-hour activity composition[J]. J Pediatr, 2019(208):43-49.
[24] Lee EY, Spence JC, Tremblay MS, et al. Meeting 24-hour movement guidelines for children and youth and associations with psychological well-being among South Korean adolescents[J]. Ment Health Phys Act, 2018(14):66-73.
[25] Katzmarzyk PT, Staiano AE. Relationship between meeting 24-hour movement guidelines and cardiometabolic risk factors in children[J]. J Phys Act Health, 2017, 14(10):779-784.
[26] Carson V, Chaput JP, Janssen I, et al. Health associations with meeting new 24-h movement guidelines for Canadian children and youth[J]. Prev Med, 2017(95):7-13.
[27] Gao Y, Cronin NJ, Nevala N, et al. Validity of long-term and short-term recall of occupational sitting time in Finnish and Chinese office workers[J]. J Sport Health Sci, 2017, 9(4):345-351.
[28] Bringolf-Isler B, Mder SU, Ruch N, et al. Measuring and validating physical activity and sedentary behavior comparing a parental questionnaire to accelerometer data and diaries[J]. Pediatr Exerc Sci, 2012, 24(2):229-245.
[29] 宁科, 王庭照, 胡碧升. 国际儿童早期24h运动指南的制定与初步解读[J]. 中国健康教育, 2020, 36(8):747-750.
Ning K, Wang TZ, Hu BS. The formulation and preliminary interpretation of the international 24-hour early chilhood movement guide[J]. Chinese Journal of Health Education, 2020, 36(8):747-750.(in Chinese)
[30] 邱艳平, 王丽娟, 周玉兰,等. 基于成分数据分析的24h活动与儿童基本动作技能的关系[J]. 体育学刊, 2023, 30(1):137-144.
Qiu YP, Wang LJ, Zhou YL, et al. The association between 24h movement behaviors and fundamental motor skills of children based on compositional data analyses[J]. Journal of Physical Education, 2023, 30(1):137-144.(in Chinese)
[31] 王予童, 刘卉萌, 曹岁霞,等. 等时替代模型在流行病学研究中的应用[J]. 中华流行病学杂志, 2022, 43(11):1842-1847.
Wang YT, Liu HM, Cao SX, et al. Publication of isotemporal substitution model in epidemiological research[J]. Chin J Epidemiology, 2022, 43(11):1842-1847.(in Chinese)
[32] Gao Y, Haapala EA, Vanhala A, et al. Sedentary thresholds for accelerometry-based mean amplitude deviation and electromyography amplitude in 7-11 years old children[J]. Front Physiol, 2019(10):997-1006.
[33] Gao Y, Melin M, Makarainen K, et al. Children's physical activity and sedentary time compared using assessments of accelerometry counts and muscle activity level[J]. Peer J,2018(6):e5437
[34] 常振亚, 王树明. 学龄前儿童身体活动采样间隔和强度分界值的适用性研究[J]. 中国体育科技, 2022, 58(6):17-25.
Chang ZY, Wang SM. Applicability of sampling interval and intensity cutoff value of physical activity in preschool children[J]. China Sport Science and Technology, 2022, 58(6):17-25.(in Chinese)