Mead Emma, Brown Tamara, Rees Karen, Azevedo Liane B, Whittaker Victoria, Jones Dan, Olajide Joan, Mainardi Giulia M, Corpeleijn Eva, O'Malley Claire, Beardsmore Elizabeth, Al-Khudairy Lena, Baur Louise, Metzendorf Maria-Inti, Demaio Alessandro, Ells Louisa J
Health and Social Care Institute, Teesside University, Middlesbrough, UK, TS1 3BA.
Cochrane Database Syst Rev. 2017 Jun 22;6(6):CD012651. doi: 10.1002/14651858.CD012651.
Child and adolescent overweight and obesity has increased globally, and can be associated with significant short- and long-term health consequences. This is an update of a Cochrane review published first in 2003, and updated previously in 2009. However, the update has now been split into six reviews addressing different childhood obesity treatments at different ages.
To assess the effects of diet, physical activity and behavioural interventions (behaviour-changing interventions) for the treatment of overweight or obese children aged 6 to 11 years.
We searched CENTRAL, MEDLINE, Embase, PsycINFO, CINAHL, LILACS as well as trial registers ClinicalTrials.gov and ICTRP Search Portal. We checked references of studies and systematic reviews. We did not apply any language restrictions. The date of the last search was July 2016 for all databases.
We selected randomised controlled trials (RCTs) of diet, physical activity, and behavioural interventions (behaviour-changing interventions) for treating overweight or obese children aged 6 to 11 years, with a minimum of six months' follow-up. We excluded interventions that specifically dealt with the treatment of eating disorders or type 2 diabetes, or included participants with a secondary or syndromic cause of obesity.
Two review authors independently screened references, extracted data, assessed risk of bias, and evaluated the quality of the evidence using the GRADE instrument. We contacted study authors for additional information. We carried out meta-analyses according to the statistical guidelines in the Cochrane Handbook for Systematic Reviews of Interventions.
We included 70 RCTs with a total of 8461 participants randomised to either the intervention or control groups. The number of participants per trial ranged from 16 to 686. Fifty-five trials compared a behaviour-changing intervention with no treatment/usual care control and 15 evaluated the effectiveness of adding an additional component to a behaviour-changing intervention. Sixty-four trials were parallel RCTs, and four were cluster RCTs. Sixty-four trials were multicomponent, two were diet only and four were physical activity only interventions. Ten trials had more than two arms. The overall quality of the evidence was low or very low and 62 trials had a high risk of bias for at least one criterion. Total duration of trials ranged from six months to three years. The median age of participants was 10 years old and the median BMI z score was 2.2.Primary analyses demonstrated that behaviour-changing interventions compared to no treatment/usual care control at longest follow-up reduced BMI, BMI z score and weight. Mean difference (MD) in BMI was -0.53 kg/m (95% confidence interval (CI) -0.82 to -0.24); P < 0.00001; 24 trials; 2785 participants; low-quality evidence. MD in BMI z score was -0.06 units (95% CI -0.10 to -0.02); P = 0.001; 37 trials; 4019 participants; low-quality evidence and MD in weight was -1.45 kg (95% CI -1.88 to -1.02); P < 0.00001; 17 trials; 1774 participants; low-quality evidence.Thirty-one trials reported on serious adverse events, with 29 trials reporting zero occurrences RR 0.57 (95% CI 0.17 to 1.93); P = 0.37; 4/2105 participants in the behaviour-changing intervention groups compared with 7/1991 participants in the comparator groups). Few trials reported health-related quality of life or behaviour change outcomes, and none of the analyses demonstrated a substantial difference in these outcomes between intervention and control. In two trials reporting on minutes per day of TV viewing, a small reduction of 6.6 minutes per day (95% CI -12.88 to -0.31), P = 0.04; 2 trials; 55 participants) was found in favour of the intervention. No trials reported on all-cause mortality, morbidity or socioeconomic effects, and few trials reported on participant views; none of which could be meta-analysed.As the meta-analyses revealed substantial heterogeneity, we conducted subgroup analyses to examine the impact of type of comparator, type of intervention, risk of attrition bias, setting, duration of post-intervention follow-up period, parental involvement and baseline BMI z score. No subgroup effects were shown for any of the subgroups on any of the outcomes. Some data indicated that a reduction in BMI immediately post-intervention was no longer evident at follow-up at less than six months, which has to be investigated in further trials.
AUTHORS' CONCLUSIONS: Multi-component behaviour-changing interventions that incorporate diet, physical activity and behaviour change may be beneficial in achieving small, short-term reductions in BMI, BMI z score and weight in children aged 6 to 11 years. The evidence suggests a very low occurrence of adverse events. The quality of the evidence was low or very low. The heterogeneity observed across all outcomes was not explained by subgrouping. Further research is required of behaviour-changing interventions in lower income countries and in children from different ethnic groups; also on the impact of behaviour-changing interventions on health-related quality of life and comorbidities. The sustainability of reduction in BMI/BMI z score and weight is a key consideration and there is a need for longer-term follow-up and further research on the most appropriate forms of post-intervention maintenance in order to ensure intervention benefits are sustained over the longer term.
全球儿童和青少年超重及肥胖现象呈上升趋势,这可能会带来严重的短期和长期健康后果。本文是对2003年首次发表、2009年曾更新过的一篇Cochrane系统评价的更新。不过,此次更新已被拆分为六篇评价,分别针对不同年龄段的儿童肥胖治疗方法。
评估饮食、体育活动及行为干预(行为改变干预)对6至11岁超重或肥胖儿童的治疗效果。
我们检索了Cochrane系统评价数据库(CENTRAL)、医学期刊数据库(MEDLINE)、荷兰医学文摘数据库(Embase)、心理学文摘数据库(PsycINFO)、护理学与健康领域数据库(CINAHL)、拉丁美洲及加勒比地区健康科学数据库(LILACS)以及临床试验注册库ClinicalTrials.gov和ICTRP检索平台。我们还检查了纳入研究和系统评价的参考文献。检索未设语言限制。所有数据库的最后检索日期为2016年7月。
我们纳入了针对6至11岁超重或肥胖儿童的饮食、体育活动及行为干预(行为改变干预)的随机对照试验(RCT),随访期至少为6个月。我们排除了专门针对饮食失调或2型糖尿病治疗的干预措施,以及纳入了继发性或综合征性肥胖参与者的试验。
两名综述作者独立筛选参考文献、提取数据、评估偏倚风险,并使用GRADE工具评估证据质量。我们与研究作者联系以获取更多信息。我们按照Cochrane干预措施系统评价手册中的统计指南进行荟萃分析。
我们纳入了70项RCT,共8461名参与者被随机分配至干预组或对照组。每项试验的参与者人数从16至686不等。55项试验将行为改变干预与无治疗/常规护理对照进行比较,15项试验评估了在行为改变干预基础上增加额外成分的效果。64项试验为平行RCT,4项为整群RCT。64项试验为多成分干预,2项仅为饮食干预,4项仅为体育活动干预。10项试验有两个以上的组。证据的总体质量为低或极低,62项试验至少在一个标准上存在高偏倚风险。试验的总持续时间从6个月至3年不等。参与者的中位年龄为10岁,中位BMI z评分是2.2。初步分析表明,在最长随访期时,与无治疗/常规护理对照相比,行为改变干预降低了BMI、BMI z评分和体重。BMI的平均差值(MD)为-0.53 kg/m(95%置信区间(CI)-0.82至-0.24);P < 0.00001;24项试验;2785名参与者;低质量证据。BMI z评分的MD为-0.06单位(95% CI -0.10至-0.02);P = 0.001;37项试验;4019名参与者;低质量证据;体重的MD为-1.45 kg(95% CI -1.88至-1.02);P < 0.00001;17项试验;1774名参与者;低质量证据。31项试验报告了严重不良事件,29项试验报告无不良事件发生(风险比(RR)0.57(95% CI 0.17至1.93);P = 0.37;行为改变干预组2105名参与者中有4人,对照组1991名参与者中有7人)。很少有试验报告与健康相关的生活质量或行为改变结果,且没有分析表明干预组和对照组在这些结果上存在实质性差异。在两项报告每日看电视分钟数的试验中,发现干预组每天看电视时间有小幅减少,减少了6.6分钟(95% CI -12.88至-0.31),P = 0.04;2项试验;55名参与者)。没有试验报告全因死亡率、发病率或社会经济影响,很少有试验报告参与者的观点;这些均无法进行荟萃分析。由于荟萃分析显示存在实质性异质性,我们进行了亚组分析,以研究对照类型、干预类型、失访偏倚风险、研究背景、干预后随访期时长、父母参与情况及基线BMI z评分的影响。对于任何亚组的任何结果,均未显示出亚组效应。一些数据表明,干预后立即出现的BMI降低在随访期少于6个月时不再明显,这需要在进一步试验中进行研究。
包含饮食、体育活动和行为改变的多成分行为改变干预可能有助于6至11岁儿童在短期内实现BMI、BMI z评分和体重的小幅降低。证据表明不良事件的发生率极低。证据质量为低或极低。所有结果中观察到的异质性无法通过亚组分析来解释。低收入国家以及不同种族儿童的行为改变干预还需要进一步研究;行为改变干预对与健康相关的生活质量和合并症的影响也需要进一步研究。BMI/BMI z评分和体重降低的可持续性是一个关键考虑因素,需要进行更长时间的随访,并对干预后最合适的维持形式进行进一步研究,以确保干预益处能长期持续。
