体育组织为促进健康行为或改善健康结果而实施的干预措施。
Interventions implemented through sporting organisations for promoting healthy behaviour or improving health outcomes.
作者信息
Hodder Rebecca K, O'Brien Kate M, Al-Gobari Muaamar, Flatz Aline, Borchard Annegret, Klerings Irma, Clinton-McHarg Tara, Kingsland Melanie, von Elm Erik
机构信息
School of Medicine and Public Health, The University of Newcastle, Callaghan, Australia.
National Centre of Implementation Science, The University of Newcastle, Callaghan, Australia.
出版信息
Cochrane Database Syst Rev. 2025 Jan 13;1(1):CD012170. doi: 10.1002/14651858.CD012170.pub2.
BACKGROUND
Chronic diseases are the leading cause of mortality and morbidity worldwide. Much of this burden can be prevented by adopting healthy behaviours and reducing chronic disease risk factors. Settings-based approaches to address chronic disease risk factors are recommended globally. Sporting organisations are highly prevalent, and engage many people in many countries. As such, they represent an ideal setting for public health interventions to promote health. However, there is currently limited evidence of their impact on healthy behaviour and health outcomes as previous systematic reviews are either limited in their scope (e.g. restricted to professional sporting organisations), or are out of date.
OBJECTIVES
Primary: to assess the benefits and harms of interventions implemented through sporting organisations to promote healthy behaviours (including physical activity, healthy diet) or reduce health risk behaviours (including alcohol consumption, tobacco use). Secondary: to assess the benefits and harms of these interventions to promote health outcomes (e.g. weight), other health-related behaviours (e.g. help-seeking behaviour) or health-related knowledge; to determine whether benefits and harms differ based on the characteristics of the interventions, including target population and intervention duration; to assess unintended adverse consequences of sporting organisation interventions; and to describe their cost or cost-effectiveness.
SEARCH METHODS
We searched CENTRAL, MEDLINE, Embase, one other database and two clinical trial registries, from inception to May 2024, to identify eligible trials. We searched Google Scholar in May 2024. We did not impose language or publication status restrictions. We also searched reference lists of included trials for other potentially eligible trials.
SELECTION CRITERIA
We included randomised controlled trials (RCTs), including cluster-RCTs, of any intervention conducted within or using a sporting organisation for access to a target group, that aimed to improve a health behaviour primary outcome or a secondary review outcome, and had a parallel control group (no intervention, alternative intervention). Eligible participants were any individual exposed to an intervention involving a sporting organisation, including players, members, coaches, and supporters.
DATA COLLECTION AND ANALYSIS
We used standard methodological procedures expected by Cochrane. We conducted random-effects meta-analyses to synthesise results where we could pool data from at least two trials. Where we could not conduct meta-analysis, we followed Cochrane guidance for synthesis using other methods and reported results according to the Synthesis Without Meta-analysis (SWiM) guidance.
MAIN RESULTS
We included 20 trials (42 trial arms, 8179 participants) conducted in high-income countries, and identified four ongoing trials and four trials awaiting classification. There was considerable heterogeneity in the type of participants, interventions and outcomes assessed across trials. Included trials primarily targeted sporting organisation members (eight trials) or supporters (eight trials), males only (11 trials) and adults (14 trials). Football clubs (e.g. soccer, American football, Australian football league) were the most common intervention setting (15 trials), and interventions targeted various combinations of health behaviours, knowledge and health outcomes. Fourteen trials (10 RCTs and four cluster-RCTs) assessed the impact of a sporting organisation intervention on a primary outcome: physical activity (nine trials); diet (six trials); alcohol consumption (11 trials); and tobacco use (two trials). For RCTs, we assessed the risk of bias for primary outcomes (physical activity, diet, alcohol consumption) and unintended adverse consequences as being at low risk of bias (four outcomes), some concerns (one outcome) or high risk of bias (32 outcomes), due to outcomes being self-reported. For cluster-RCTs, we assessed the risk of bias for all primary outcomes (alcohol consumption, tobacco use) as high risk (eight outcomes), due to outcomes being self-reported. Sporting organisation interventions versus control probably have a small positive effect on the amount of physical activity per day, equivalent to approximately 7.4 minutes of moderate-to-vigorous physical activity (MVPA) per day (standardised mean difference (SMD) 0.36, 95% confidence interval (CI) 0.22 to 0.49; I = 3%; 4 trials, 1213 participants; moderate-certainty evidence) and may not reduce sedentary behaviour (mean difference (MD) -15.18, 95% CI -30.82 to 0.47; I = 0%; 2 trials, 1047 participants; low-certainty evidence). Sporting organisation interventions versus control may have a moderate positive effect on fruit and vegetable consumption, equivalent to a score increase of 1.25 points on a 12-point scale for frequency of fruit and vegetable consumption (SMD 0.50, 95% CI 0.35 to 0.65; I = 0%; 5 trials, 1402 participants; low-certainty evidence). Sporting organisation interventions versus control may reduce sugary drink consumption (equivalent to a reduction of sugary drink consumption by 0.8 times per day), but the evidence is very uncertain (SMD -0.37, 95% CI -0.64 to -0.10; I = 0%; 2 trials, 225 participants; very low-certainty evidence). Sporting organisation interventions versus control may have little to no effect on alcohol consumption (equivalent to a reduction of 0.38 units of alcohol consumed per week), but the evidence is very uncertain (MD -0.38, 95% CI -1.00 to 0.24; I = 78%; 7 trials, 2313 participants; very low-certainty evidence). Two trials that could not be synthesised reported equivocal findings on tobacco use (low-certainty evidence). The evidence is very uncertain about the effect of sporting club interventions on unintended adverse consequences. Five trials assessed this outcome, with two reporting that there were no adverse consequences, one reporting only non-serious adverse consequences, and two reporting that there were serious unintended adverse consequences in less than 1% of participants.
AUTHORS' CONCLUSIONS: Overall, sporting organisation interventions probably increase MVPA by 7.4 minutes per day, may result in little to no difference in sedentary behaviour, and may increase fruit and vegetable consumption. The evidence is very uncertain about whether sporting organisation interventions decrease sugary drink and alcohol consumption. Findings for tobacco use and unintended adverse consequences were equivocal in the few trials reporting these; thus, the evidence was very uncertain. These findings should be interpreted in the context of the heterogeneity of the interventions, participants and sporting organisations for some outcomes.
背景
慢性病是全球死亡和发病的主要原因。通过采取健康行为和降低慢性病风险因素,很大一部分负担是可以预防的。全球推荐基于环境的方法来应对慢性病风险因素。体育组织非常普遍,在许多国家吸引了很多人参与。因此,它们是促进健康的公共卫生干预措施的理想场所。然而,目前关于它们对健康行为和健康结果影响的证据有限,因为之前的系统评价要么范围有限(例如仅限于职业体育组织),要么已经过时。
目的
主要目的:评估通过体育组织实施的干预措施在促进健康行为(包括身体活动、健康饮食)或减少健康风险行为(包括饮酒、吸烟)方面的益处和危害。次要目的:评估这些干预措施在促进健康结果(如体重)、其他与健康相关的行为(如寻求帮助行为)或与健康相关的知识方面的益处和危害;确定益处和危害是否因干预措施的特征(包括目标人群和干预持续时间)而有所不同;评估体育组织干预措施的意外不良后果;并描述其成本或成本效益。
检索方法
我们检索了Cochrane中心对照试验注册库(CENTRAL)、医学期刊数据库(MEDLINE)、荷兰医学文摘数据库(Embase)、另一个数据库以及两个临床试验注册库,检索时间从各库建库至2024年5月,以识别符合条件的试验。我们在2024年5月检索了谷歌学术。我们没有对语言或出版状态进行限制。我们还检索了纳入试验的参考文献列表,以查找其他可能符合条件的试验。
选择标准
我们纳入了随机对照试验(RCT),包括整群随机对照试验,这些试验是在体育组织内部或利用体育组织进行的任何干预措施,旨在接触目标群体,旨在改善健康行为主要结局或次要综述结局,并且有一个平行对照组(无干预、替代干预)。符合条件的参与者是任何接触到涉及体育组织的干预措施的个体,包括运动员、成员、教练和支持者。
数据收集与分析
我们采用了Cochrane预期的标准方法程序。我们进行随机效应荟萃分析以综合结果,前提是我们可以汇总来自至少两项试验的数据。在无法进行荟萃分析的情况下,我们遵循Cochrane使用其他方法进行综合的指导,并根据非荟萃分析综合(SWiM)指导报告结果。
主要结果
我们纳入了在高收入国家进行的20项试验(42个试验组,8179名参与者),并识别出4项正在进行的试验和4项等待分类的试验。各试验在参与者类型、干预措施和评估结局方面存在相当大的异质性。纳入试验主要针对体育组织成员(8项试验)或支持者(8项试验)、仅男性(11项试验)和成年人(14项试验)。足球俱乐部(如英式足球、美式足球、澳大利亚足球联赛)是最常见的干预场所(15项试验),干预措施针对各种健康行为、知识和健康结果组合。14项试验(10项RCT和4项整群随机对照试验)评估了体育组织干预措施对主要结局的影响:身体活动(9项试验);饮食(6项试验);饮酒(11项试验);吸烟(2项试验)。对于RCT,我们评估主要结局(身体活动、饮食、饮酒)的偏倚风险和意外不良后果,由于结局是自我报告的,因此偏倚风险为低(4项结局)、有些担忧(1项结局)或高(32项结局)。对于整群随机对照试验,由于结局是自我报告的,我们评估所有主要结局(饮酒、吸烟)的偏倚风险为高(8项结局)。体育组织干预措施与对照相比,可能对每天的身体活动量有小的积极影响,相当于每天约7.4分钟的中等至剧烈身体活动(MVPA)(标准化均值差(SMD)0.36,95%置信区间(CI)0.22至0.49;I² = 3%;4项试验,1213名参与者;中等确定性证据)且可能不会减少久坐行为(均值差(MD)-15.18,95%CI -30.82至0.47;I² = 0%;2项试验,1047名参与者;低确定性证据)。体育组织干预措施与对照相比,可能对水果和蔬菜消费有中等积极影响,相当于在12分制的水果和蔬菜消费频率量表上得分增加1.25分(SMD 0.50,95%CI 0.35至0.65;I² = 0%;5项试验,1402名参与者;低确定性证据)。体育组织干预措施与对照相比,可能会减少含糖饮料消费(相当于每天含糖饮料消费减少0.8倍),但证据非常不确定(SMD -0.37,95%CI -0.64至-0.10;I² = 0%;2项试验,225名参与者;非常低确定性证据)。体育组织干预措施与对照相比,可能对饮酒几乎没有影响(相当于每周饮酒量减少0.38单位),但证据非常不确定(MD -0.38,95%CI -1.00至0.24;I² = 78%;7项试验,2313名参与者;非常低确定性证据)。两项无法综合的试验报告了关于吸烟的模棱两可的结果(低确定性证据)。关于体育俱乐部干预措施对意外不良后果的影响,证据非常不确定。5项试验评估了这一结局,其中两项报告没有不良后果,一项仅报告了非严重不良后果,两项报告在不到1%的参与者中有严重的意外不良后果。
作者结论
总体而言,体育组织干预措施可能会使每天的MVPA增加7.4分钟,可能对久坐行为几乎没有影响,并且可能会增加水果和蔬菜消费。关于体育组织干预措施是否会减少含糖饮料和酒精消费,证据非常不确定。在少数报告这些结果的试验中,关于吸烟和意外不良后果的数据模棱两可;因此,证据非常不确定。对于某些结局,这些结果应在干预措施、参与者和体育组织的异质性背景下进行解释。
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