Owen Rachel, Kendrick Denise, Mulvaney Caroline, Coleman Tim, Royal Simon
Division of Primary Care, University of Nottingham, Nottingham, UK.
Cochrane Database Syst Rev. 2011 Nov 9;2011(11):CD003985. doi: 10.1002/14651858.CD003985.pub3.
Helmets reduce bicycle-related head injuries, particularly in single vehicle crashes and those where the head strikes the ground. We aimed to identify non-legislative interventions for promoting helmet use among children, so future interventions can be designed on a firm evidence base.
To assess the effectiveness of non-legislative interventions in increasing helmet use among children; to identify possible reasons for differences in effectiveness of interventions; to evaluate effectiveness with respect to social group; to identify adverse consequences of interventions.
We searched the following databases: Cochrane Injuries Group Specialised Register; the Cochrane Central Register of Controlled Trials (CENTRAL); MEDLINE; EMBASE; PsycINFO (Ovid); PsycEXTRA (Ovid); CINAHL (EBSCO); ISI Web of Science: Science Citation Index Expanded (SCI-EXPANDED); Social Sciences Citation Index (SSCI); Conference Proceedings Citation Index-Science (CPCI-S); and PubMed from inception to April 2009; TRANSPORT to 2007; and manually searched other sources of data.
We included RCTs and CBAs. Studies included participants aged 0 to 18 years, described interventions promoting helmet use not requiring enactment of legislation and reported observed helmet wearing, self reported helmet ownership or self reported helmet wearing.
Two independent review authors selected studies for inclusion and extracted data. We used random-effects models to estimate pooled odds ratios (ORs) (with 95% confidence interval (CI)). We explored heterogeneity with subgroup analyses.
We included 29 studies in the review, 21 of which were included in at least one meta-analysis. Non-legislative interventions increased observed helmet wearing (11 studies: OR 2.08, 95% CI 1.29 to 3.34). The effect was most marked amongst community-based interventions (four studies: OR 4.30, 95% 2.24 to 8.25) and those providing free helmets (two studies: OR 4.35, 95% CI 2.13 to 8.89). Significant effects were also found amongst school-based interventions (eight studies: OR 1.73, CI 95% 1.03 to 2.91), with a smaller effect found for interventions providing education only (three studies: OR 1.43, 95% CI 1.09 to 1.88). No significant effect was found for providing subsidised helmets (seven studies: OR 2.02, 95% CI 0.98 to 4.17). Interventions provided to younger children (aged under 12) may be more effective (five studies: OR 2.50, 95% CI 1.17 to 5.37) than those provided to children of all ages (five studies: OR 1.83, 95% CI 0.98 to 3.42).Interventions were only effective in increasing self reported helmet ownership where they provided free helmets (three studies: OR 11.63, 95% CI 2.14 to 63.16).Interventions were effective in increasing self reported helmet wearing (nine studies: OR 3.27, 95% CI 1.56 to 6.87), including those undertaken in schools (six studies: OR 4.21, 95% CI 1.06 to 16.74), providing free helmets (three studies: OR 7.27, 95% CI 1.28 to 41.44), providing education only (seven studies: OR 1.93, 95% CI 1.03 to 3.63) and in healthcare settings (two studies: OR 2.78, 95% CI 1.38 to 5.61).
AUTHORS' CONCLUSIONS: Non-legislative interventions appear to be effective in increasing observed helmet use, particularly community-based interventions and those providing free helmets. Those set in schools appear to be effective but possibly less so than community-based interventions. Interventions providing education only are less effective than those providing free helmets. There is insufficient evidence to recommend providing subsidised helmets at present. Interventions may be more effective if provided to younger rather than older children. There is evidence that interventions offered in healthcare settings can increase self reported helmet wearing.Further high-quality studies are needed to explore whether non-legislative interventions increase helmet wearing, and particularly the effect of providing subsided as opposed to free helmets, and of providing interventions in healthcare settings as opposed to in schools or communities. Alternative interventions (e.g. those including peer educators, those aimed at developing safety skills including skills in decision making and resisting peer pressure or those aimed at improving self esteem or self efficacy) need developing and testing, particularly for 11 to 18 year olds. The effect of interventions in countries with existing cycle helmet legislation and in low and middle-income countries also requires investigation.
头盔可减少与自行车相关的头部损伤,尤其是在单车事故以及头部撞击地面的事故中。我们旨在确定促进儿童使用头盔的非立法干预措施,以便未来的干预措施能够基于坚实的证据基础来设计。
评估非立法干预措施在增加儿童头盔使用方面的有效性;确定干预措施有效性差异的可能原因;评估不同社会群体的有效性;确定干预措施的不良后果。
我们检索了以下数据库:Cochrane伤害组专业注册库;Cochrane对照试验中心注册库(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,Ovid平台);心理学文摘扩展库(PsycEXTRA,Ovid平台);护理学与健康领域数据库(CINAHL,EBSCO平台);ISI科学网:科学引文索引扩展版(SCI-EXPANDED);社会科学引文索引(SSCI);会议论文引文索引 - 科学版(CPCI-S);以及从建库至2009年4月的PubMed数据库;交通运输数据库至2007年的数据;并手动检索了其他数据来源。
我们纳入了随机对照试验(RCT)和成本效益分析(CBA)。研究的参与者年龄在0至18岁之间,描述了促进头盔使用的干预措施且无需立法颁布,并报告了观察到的头盔佩戴情况、自我报告的头盔拥有情况或自我报告的头盔佩戴情况。
两名独立的综述作者选择纳入的研究并提取数据。我们使用随机效应模型来估计合并比值比(OR)(及其95%置信区间(CI))。我们通过亚组分析来探讨异质性。
我们在综述中纳入了29项研究,其中21项至少被纳入了一项荟萃分析。非立法干预措施增加了观察到的头盔佩戴率(11项研究:OR为2.08,95%CI为1.29至3.34)。这种效果在基于社区的干预措施中最为明显(4项研究:OR为4.30,95%CI为2.24至8.25)以及那些提供免费头盔的措施中(2项研究:OR为4.35,95%CI为2.13至8.89)。在基于学校的干预措施中也发现了显著效果(8项研究:OR为1.73,CI为95%1.03至2.91),而仅提供教育的干预措施效果较小(3项研究:OR为1.43,95%CI为1.09至1.88)。提供补贴头盔的措施未发现显著效果(7项研究:OR为2.02,95%CI为0.98至4.17)。针对年幼儿童(12岁以下)的干预措施可能比针对所有年龄段儿童的措施更有效(5项研究:OR为2.50,95%CI为1.17至5.37),而针对所有年龄段儿童的措施(5项研究:OR为1.83,95%CI为0.98至3.42)。干预措施仅在提供免费头盔的情况下对增加自我报告的头盔拥有率有效(3项研究:OR为11.63,95%CI为2.14至63.16)。干预措施在增加自我报告的头盔佩戴率方面是有效的(9项研究:OR为3.27,95%CI为1.56至6.87),包括在学校开展的干预措施(6项研究:OR为4.21,95%CI为1.06至16.74)、提供免费头盔的措施(3项研究:OR为7.27,95%CI为1.28至41.44)、仅提供教育的措施(7项研究:OR为1.93,95%CI为1.03至3.63)以及在医疗保健环境中的措施(2项研究:OR为2.78,95%CI为1.38至5.61)。
非立法干预措施似乎在增加观察到的头盔使用方面是有效的,尤其是基于社区的干预措施和那些提供免费头盔的措施。在学校开展的干预措施似乎是有效的,但可能不如基于社区的干预措施有效。仅提供教育的干预措施不如提供免费头盔的措施有效。目前没有足够的证据推荐提供补贴头盔。如果针对年幼儿童而非年长儿童实施干预措施,可能会更有效。有证据表明在医疗保健环境中提供的干预措施可以增加自我报告的头盔佩戴率。需要进一步开展高质量的研究,以探讨非立法干预措施是否能增加头盔佩戴率,特别是提供补贴头盔与免费头盔的效果差异,以及在医疗保健环境中提供干预措施与在学校或社区中提供干预措施的效果差异。需要开发和测试替代干预措施(例如包括同伴教育者的措施、旨在培养安全技能(包括决策技能和抵制同伴压力的技能)的措施或旨在提高自尊或自我效能的措施),特别是针对11至18岁的青少年。还需要调查在已有自行车头盔立法的国家以及低收入和中等收入国家中干预措施的效果。
