Population Health Sciences, Bristol Medical School, University of Bristol, Bristol, UK.
NIHR Applied Research Collaboration West (ARC West) at University Hospitals Bristol and Weston NHS Foundation Trust, Bristol, UK.
Cochrane Database Syst Rev. 2024 May 20;5(5):CD015328. doi: 10.1002/14651858.CD015328.pub2.
Prevention of obesity in children is an international public health priority given the prevalence of the condition (and its significant impact on health, development and well-being). Interventions that aim to prevent obesity involve behavioural change strategies that promote healthy eating or 'activity' levels (physical activity, sedentary behaviour and/or sleep) or both, and work by reducing energy intake and/or increasing energy expenditure, respectively. There is uncertainty over which approaches are more effective and numerous new studies have been published over the last five years, since the previous version of this Cochrane review.
To assess the effects of interventions that aim to prevent obesity in children by modifying dietary intake or 'activity' levels, or a combination of both, on changes in BMI, zBMI score and serious adverse events.
We used standard, extensive Cochrane search methods. The latest search date was February 2023.
Randomised controlled trials in children (mean age 5 years and above but less than 12 years), comparing diet or 'activity' interventions (or both) to prevent obesity with no intervention, usual care, or with another eligible intervention, in any setting. Studies had to measure outcomes at a minimum of 12 weeks post baseline. We excluded interventions designed primarily to improve sporting performance.
We used standard Cochrane methods. Our outcomes were body mass index (BMI), zBMI score and serious adverse events, assessed at short- (12 weeks to < 9 months from baseline), medium- (9 months to < 15 months) and long-term (≥ 15 months) follow-up. We used GRADE to assess the certainty of the evidence for each outcome.
This review includes 172 studies (189,707 participants); 149 studies (160,267 participants) were included in meta-analyses. One hundred forty-six studies were based in high-income countries. The main setting for intervention delivery was schools (111 studies), followed by the community (15 studies), the home (eight studies) and a clinical setting (seven studies); one intervention was conducted by telehealth and 31 studies were conducted in more than one setting. Eighty-six interventions were implemented for less than nine months; the shortest was conducted over one visit and the longest over four years. Non-industry funding was declared by 132 studies; 24 studies were funded in part or wholly by industry. Dietary interventions versus control Dietary interventions, compared with control, may have little to no effect on BMI at short-term follow-up (mean difference (MD) 0, 95% confidence interval (CI) -0.10 to 0.10; 5 studies, 2107 participants; low-certainty evidence) and at medium-term follow-up (MD -0.01, 95% CI -0.15 to 0.12; 9 studies, 6815 participants; low-certainty evidence) or zBMI at long-term follow-up (MD -0.05, 95% CI -0.10 to 0.01; 7 studies, 5285 participants; low-certainty evidence). Dietary interventions, compared with control, probably have little to no effect on BMI at long-term follow-up (MD -0.17, 95% CI -0.48 to 0.13; 2 studies, 945 participants; moderate-certainty evidence) and zBMI at short- or medium-term follow-up (MD -0.06, 95% CI -0.13 to 0.01; 8 studies, 3695 participants; MD -0.04, 95% CI -0.10 to 0.02; 9 studies, 7048 participants; moderate-certainty evidence). Five studies (1913 participants; very low-certainty evidence) reported data on serious adverse events: one reported serious adverse events (e.g. allergy, behavioural problems and abdominal discomfort) that may have occurred as a result of the intervention; four reported no effect. Activity interventions versus control Activity interventions, compared with control, may have little to no effect on BMI and zBMI at short-term or long-term follow-up (BMI short-term: MD -0.02, 95% CI -0.17 to 0.13; 14 studies, 4069 participants; zBMI short-term: MD -0.02, 95% CI -0.07 to 0.02; 6 studies, 3580 participants; low-certainty evidence; BMI long-term: MD -0.07, 95% CI -0.24 to 0.10; 8 studies, 8302 participants; zBMI long-term: MD -0.02, 95% CI -0.09 to 0.04; 6 studies, 6940 participants; low-certainty evidence). Activity interventions likely result in a slight reduction of BMI and zBMI at medium-term follow-up (BMI: MD -0.11, 95% CI -0.18 to -0.05; 16 studies, 21,286 participants; zBMI: MD -0.05, 95% CI -0.09 to -0.02; 13 studies, 20,600 participants; moderate-certainty evidence). Eleven studies (21,278 participants; low-certainty evidence) reported data on serious adverse events; one study reported two minor ankle sprains and one study reported the incident rate of adverse events (e.g. musculoskeletal injuries) that may have occurred as a result of the intervention; nine studies reported no effect. Dietary and activity interventions versus control Dietary and activity interventions, compared with control, may result in a slight reduction in BMI and zBMI at short-term follow-up (BMI: MD -0.11, 95% CI -0.21 to -0.01; 27 studies, 16,066 participants; zBMI: MD -0.03, 95% CI -0.06 to 0.00; 26 studies, 12,784 participants; low-certainty evidence) and likely result in a reduction of BMI and zBMI at medium-term follow-up (BMI: MD -0.11, 95% CI -0.21 to 0.00; 21 studies, 17,547 participants; zBMI: MD -0.05, 95% CI -0.07 to -0.02; 24 studies, 20,998 participants; moderate-certainty evidence). Dietary and activity interventions compared with control may result in little to no difference in BMI and zBMI at long-term follow-up (BMI: MD 0.03, 95% CI -0.11 to 0.16; 16 studies, 22,098 participants; zBMI: MD -0.02, 95% CI -0.06 to 0.01; 22 studies, 23,594 participants; low-certainty evidence). Nineteen studies (27,882 participants; low-certainty evidence) reported data on serious adverse events: four studies reported occurrence of serious adverse events (e.g. injuries, low levels of extreme dieting behaviour); 15 studies reported no effect. Heterogeneity was apparent in the results for all outcomes at the three follow-up times, which could not be explained by the main setting of the interventions (school, home, school and home, other), country income status (high-income versus non-high-income), participants' socioeconomic status (low versus mixed) and duration of the intervention. Most studies excluded children with a mental or physical disability.
AUTHORS' CONCLUSIONS: The body of evidence in this review demonstrates that a range of school-based 'activity' interventions, alone or in combination with dietary interventions, may have a modest beneficial effect on obesity in childhood at short- and medium-term, but not at long-term follow-up. Dietary interventions alone may result in little to no difference. Limited evidence of low quality was identified on the effect of dietary and/or activity interventions on severe adverse events and health inequalities; exploratory analyses of these data suggest no meaningful impact. We identified a dearth of evidence for home and community-based settings (e.g. delivered through local youth groups), for children living with disabilities and indicators of health inequities.
肥胖症在儿童中的流行(以及其对健康、发育和福祉的重大影响)使得预防肥胖成为国际公共卫生的优先事项。旨在预防肥胖的干预措施包括促进健康饮食或“活动”水平(身体活动、久坐行为和/或睡眠)或两者兼有的行为改变策略,通过减少能量摄入和/或增加能量消耗来发挥作用。对于哪些方法更有效存在不确定性,并且自上次 Cochrane 综述以来,过去五年中已经发表了许多新的研究。
评估通过改变饮食摄入或“活动”水平(或两者兼而有之)来预防儿童肥胖的干预措施对 BMI、zBMI 评分和严重不良事件的影响。
我们使用了标准的、广泛的 Cochrane 检索方法。最新的搜索日期是 2023 年 2 月。
在平均年龄 5 岁及以上但小于 12 岁的儿童中进行的随机对照试验,比较饮食或“活动”干预(或两者兼而有之)与无干预、常规护理或其他合格干预措施预防肥胖的效果,研究必须在基线后至少 12 周测量结局。我们排除了旨在提高运动表现的干预措施。
我们使用了标准的 Cochrane 方法。我们的结局是体重指数(BMI)、zBMI 评分和严重不良事件,在短期(基线后 12 周至<9 个月)、中期(9 个月至<15 个月)和长期(≥15 个月)随访中进行评估。我们使用 GRADE 评估每个结局的证据确定性。
本综述包括 172 项研究(189707 名参与者);149 项研究(160267 名参与者)被纳入荟萃分析。146 项研究基于高收入国家。干预措施的主要实施地点是学校(111 项研究),其次是社区(15 项研究)、家庭(8 项研究)和临床环境(7 项研究);1 项干预措施通过远程医疗进行,31 项研究在多个地点进行。86 项干预措施的持续时间不到 9 个月;最短的研究只有一次就诊,最长的研究持续了四年。132 项研究宣布了非产业资金;24 项研究部分或全部由产业资助。
饮食干预与对照相比,在短期随访时(MD 0,95%置信区间(CI)-0.10 至 0.10;5 项研究,2107 名参与者;低确定性证据)和中期随访时(MD -0.01,95%CI -0.15 至 0.12;9 项研究,6815 名参与者;低确定性证据)或长期随访时(MD -0.05,95%CI -0.10 至 0.01;7 项研究,5285 名参与者;低确定性证据),可能对 BMI 没有影响或影响很小。饮食干预与对照相比,在长期随访时(MD -0.17,95%CI -0.48 至 0.13;2 项研究,945 名参与者;中等确定性证据)和短期或中期随访时(MD -0.06,95%CI -0.13 至 0.01;8 项研究,3695 名参与者;MD -0.04,95%CI -0.10 至 0.02;9 项研究,7048 名参与者;中等确定性证据),可能对 BMI 和 zBMI 没有影响或影响很小。5 项研究(1913 名参与者;极低确定性证据)报告了严重不良事件的数据:一项研究报告了可能由干预引起的严重不良事件(例如过敏、行为问题和腹部不适);四项研究报告没有影响。
与对照相比,活动干预可能对 BMI 和 zBMI 在短期和长期随访时没有影响或影响很小(BMI 短期:MD -0.02,95%CI -0.17 至 0.13;14 项研究,4069 名参与者;zBMI 短期:MD -0.02,95%CI -0.07 至 0.02;6 项研究,3580 名参与者;低确定性证据;BMI 长期:MD -0.07,95%CI -0.24 至 0.10;8 项研究,8302 名参与者;zBMI 长期:MD -0.02,95%CI -0.09 至 0.04;6 项研究,6940 名参与者;低确定性证据)。与对照相比,活动干预可能会导致 BMI 和 zBMI 在中期随访时略有降低(BMI:MD -0.11,95%CI -0.18 至 -0.05;16 项研究,21286 名参与者;zBMI:MD -0.05,95%CI -0.09 至 -0.02;13 项研究,20600 名参与者;中等确定性证据)。11 项研究(21278 名参与者;低确定性证据)报告了严重不良事件的数据;一项研究报告了两例轻微踝关节扭伤,一项研究报告了可能由干预引起的不良事件(例如肌肉骨骼损伤)的发生率;九项研究报告没有影响。
与对照相比,饮食和活动干预可能会导致 BMI 和 zBMI 在短期随访时略有降低(BMI:MD -0.11,95%CI -0.21 至 -0.01;27 项研究,16066 名参与者;zBMI:MD -0.03,95%CI -0.06 至 0.00;26 项研究,12784 名参与者;低确定性证据),并可能导致 BMI 和 zBMI 在中期随访时降低(BMI:MD -0.11,95%CI -0.21 至 0.00;21 项研究,17547 名参与者;zBMI:MD -0.05,95%CI -0.07 至 -0.02;24 项研究,20998 名参与者;中等确定性证据)。与对照相比,饮食和活动干预可能对 BMI 和 zBMI 在长期随访时没有影响或影响很小(BMI:MD 0.03,95%CI -0.11 至 0.16;16 项研究,22098 名参与者;zBMI:MD -0.02,95%CI -0.06 至 0.01;22 项研究,23594 名参与者;低确定性证据)。19 项研究(27882 名参与者;低确定性证据)报告了严重不良事件的数据:四项研究报告了严重不良事件(例如,受伤、低水平的极端节食行为)的发生;15 项研究报告没有影响。
在所有三个随访时间点,结果的异质性明显,无法通过干预的主要设置(学校、家庭、学校和家庭、其他)、国家收入状况(高收入与非高收入)、参与者的社会经济地位(低与混合)和干预的持续时间来解释。大多数研究排除了有精神或身体残疾的儿童。
本综述中的证据表明,一系列以学校为基础的“活动”干预措施,单独或联合饮食干预措施,可能对儿童肥胖在短期和中期有适度的有益作用,但在长期随访时没有作用。饮食干预可能没有影响。关于饮食和/或活动干预对严重不良事件和健康不平等的影响的有限证据表明,没有明显的影响。我们发现,针对家庭和社区环境(例如通过当地青年团体提供)、残疾儿童和健康不平等指标的证据很少。
