Professor and Head, Department of Oral Medicine and Oral Radiology, Faculty of Dentistry, Manipal University College Malaysia, Melaka, Malaysia.
Honorary Research Fellow, Division of Surgery and Interventional Science, Department of Surgical Biotechnology, University College London, London, UK.
Cochrane Database Syst Rev. 2022 Aug 22;8(8):CD013826. doi: 10.1002/14651858.CD013826.pub2.
Aerosols and spatter are generated in a dental clinic during aerosol-generating procedures (AGPs) that use high-speed hand pieces. Dental healthcare providers can be at increased risk of transmission of diseases such as tuberculosis, measles and severe acute respiratory syndrome (SARS) through droplets on mucosae, inhalation of aerosols or through fomites on mucosae, which harbour micro-organisms. There are ways to mitigate and contain spatter and aerosols that may, in turn, reduce any risk of disease transmission. In addition to personal protective equipment (PPE) and aerosol-reducing devices such as high-volume suction, it has been hypothesised that the use of mouth rinse by patients before dental procedures could reduce the microbial load of aerosols that are generated during dental AGPs.
To assess the effects of preprocedural mouth rinses used in dental clinics to minimise incidence of infection in dental healthcare providers and reduce or neutralise contamination in aerosols.
We used standard, extensive Cochrane search methods. The latest search date was 4 February 2022.
We included randomised controlled trials and excluded laboratory-based studies. Study participants were dental patients undergoing AGPs. Studies compared any preprocedural mouth rinse used to reduce contaminated aerosols versus placebo, no mouth rinse or another mouth rinse. Our primary outcome was incidence of infection of dental healthcare providers and secondary outcomes were reduction in the level of contamination of the dental operatory environment, cost, change in mouth microbiota, adverse events, and acceptability and feasibility of the intervention.
Two review authors screened search results, extracted data from included studies, assessed the risk of bias in the studies and judged the certainty of the available evidence. We used mean differences (MDs) and 95% confidence intervals (CIs) as the effect estimate for continuous outcomes, and random-effects meta-analysis to combine data MAIN RESULTS: We included 17 studies with 830 participants aged 18 to 70 years. We judged three trials at high risk of bias, two at low risk and 12 at unclear risk of bias. None of the studies measured our primary outcome of the incidence of infection in dental healthcare providers. The primary outcome in the studies was reduction in the level of bacterial contamination measured in colony-forming units (CFUs) at distances of less than 2 m (intended to capture larger droplets) and 2 m or more (to capture droplet nuclei from aerosols arising from the participant's oral cavity). It is unclear what size of CFU reduction represents a clinically significant amount. There is low- to very low-certainty evidence that chlorhexidine (CHX) may reduce bacterial contamination, as measured by CFUs, compared with no rinsing or rinsing with water. There were similar results when comparing cetylpyridinium chloride (CPC) with no rinsing and when comparing CPC, essential oils/herbal mouthwashes or boric acid with water. There is very low-certainty evidence that tempered mouth rinses may provide a greater reduction in CFUs than cold mouth rinses. There is low-certainty evidence that CHX may reduce CFUs more than essential oils/herbal mouthwashes. The evidence for other head-to-head comparisons was limited and inconsistent. The studies did not provide any information on costs, change in micro-organisms in the patient's mouth or adverse events such as temporary discolouration, altered taste, allergic reaction or hypersensitivity. The studies did not assess acceptability of the intervention to patients or feasibility of implementation for dentists. AUTHORS' CONCLUSIONS: None of the included studies measured the incidence of infection among dental healthcare providers. The studies measured only reduction in level of bacterial contamination in aerosols. None of the studies evaluated viral or fungal contamination. We have only low to very low certainty for all findings. We are unable to draw conclusions regarding whether there is a role for preprocedural mouth rinses in reducing infection risk or the possible superiority of one preprocedural rinse over another. Studies are needed that measure the effect of rinses on infectious disease risk among dental healthcare providers and on contaminated aerosols at larger distances with standardised outcome measurement.
在使用高速手机进行气溶胶产生程序(AGP)的牙科诊所中会产生气溶胶和飞沫。牙科保健提供者通过黏膜上的飞沫、吸入气溶胶或通过带有微生物的黏膜上的污染物,可能会增加感染结核病、麻疹和严重急性呼吸综合征(SARS)等疾病的风险。有一些方法可以减轻和控制飞沫和气溶胶,从而降低疾病传播的风险。除了个人防护设备(PPE)和高容量抽吸等气溶胶减少设备外,有人假设患者在牙科程序前使用漱口液可以减少在牙科 AGP 期间产生的气溶胶中的微生物负荷。
评估在牙科诊所中使用术前漱口液以最大程度降低牙科保健提供者感染的发生率,并减少或中和气溶胶中的污染。
我们使用标准的、广泛的 Cochrane 检索方法。最新的检索日期是 2022 年 2 月 4 日。
我们纳入了随机对照试验,排除了基于实验室的研究。研究参与者是接受 AGP 的牙科患者。研究比较了任何用于减少污染气溶胶的术前漱口液与安慰剂、无漱口液或另一种漱口液。我们的主要结局是牙科保健提供者的感染发生率,次要结局是减少牙科手术室环境的污染水平、成本、口腔微生物群的变化、不良事件以及干预措施的可接受性和可行性。
两名综述作者筛选检索结果、从纳入的研究中提取数据、评估研究的偏倚风险,并判断现有证据的确定性。我们使用均值差(MD)和 95%置信区间(CI)作为连续结局的效应估计值,并使用随机效应荟萃分析来合并数据。
我们纳入了 17 项研究,涉及 18 至 70 岁的 830 名参与者。我们判定三项试验有高偏倚风险,两项试验有低偏倚风险,12 项试验有不确定偏倚风险。没有一项研究测量我们的主要结局,即牙科保健提供者的感染发生率。研究的主要结局是测量距离小于 2 米(旨在捕获较大的飞沫)和 2 米或更远(以捕获源自参与者口腔的气溶胶的飞沫核)的细菌污染水平的降低。尚不清楚 CFU 减少的大小代表了多大的临床意义。有低至非常低确定性证据表明,与不冲洗或用水冲洗相比,洗必泰(CHX)可能会减少细菌污染,以 CFU 测量。与不冲洗相比,比较氯己定(CPC)与无冲洗,比较 CPC、精油/草药漱口水或硼酸与水,结果相似。有非常低确定性证据表明,温和的漱口液可能比冷漱口液提供更大的 CFU 减少。有低确定性证据表明,CHX 可能比精油/草药漱口水减少 CFU。其他头对头比较的证据有限且不一致。研究没有提供任何关于成本、患者口腔中微生物变化或不良事件(如暂时变色、味觉改变、过敏反应或过敏反应)的信息。研究没有评估患者对干预措施的接受程度或牙医实施的可行性。
纳入的研究均未测量牙科保健提供者的感染发生率。这些研究仅测量了气溶胶中细菌污染水平的降低。没有研究评估病毒或真菌污染。我们对所有发现的确定性只有低到非常低。我们无法得出关于术前漱口液是否可以降低感染风险或一种术前漱口液是否比另一种更优越的结论。需要进行研究来衡量漱口液对牙科保健提供者的传染病风险的影响,以及在更大距离处使用标准化结果测量对污染气溶胶的影响。