Faculty of Dentistry, National University of Singapore, Singapore.
Faculty of Dentistry, National University of Singapore, Singapore.
J Hosp Infect. 2021 Nov;117:81-88. doi: 10.1016/j.jhin.2021.09.004. Epub 2021 Sep 14.
Dental aerosol-generating procedures (AGPs) have been associated with risk for transmitting infectious agents. However, existing infection control monitoring studies potentially underestimate the extent of contamination, due to methodological inadequacies. These studies employed settle plate methodology which only captures droplets that land on agar plates, but not those suspended in air. Furthermore, bacterial culture was used to determine the extent of contamination, without accounting for non-bacterial sources of contamination.
This study sought to bridge these gaps by establishing a monitoring protocol involving active aerosol sampling and analysis of two dental AGPs, root canal treatment (RCT) and scaling.
RCT and scaling were performed with standard aerosol mitigation precautions. Aerosols generated throughout each procedure were sampled using the air sampler device, while contamination of operatory fomites and personal protective equipment was sampled using surface swabs, before and post-treatment. The amount of contamination was quantified using bacterial culture and adenosine triphosphate (ATP) assay.
RCT generated insignificant aerosol and splatter, supporting the infection control procedures' effectiveness. Conversely, scaling significantly increased the amount of aerosol and splatter. When comparing bacterial culture and ATP assay, the magnitude of contamination obtained with ATP assay was greater, suggesting that ATP assay may have detected additional contamination of human origin and bacteria that was not recovered by the culture conditions employed.
This monitoring protocol is feasible in the dental setting and determines the extent of contamination generated during AGPs. This could be adopted in future studies to overcome the limitations of the existing literature.
牙科气溶胶产生操作(AGP)与传染性病原体传播的风险有关。然而,由于方法上的不足,现有的感染控制监测研究可能低估了污染的程度。这些研究采用沉降板方法,该方法只能捕获落在琼脂板上的飞沫,而不能捕获悬浮在空气中的飞沫。此外,细菌培养用于确定污染程度,但没有考虑非细菌污染源。
本研究试图通过建立一种监测方案来弥补这些空白,该方案涉及主动气溶胶采样,并分析两种牙科 AGP,根管治疗(RCT)和洁治。
RCT 和洁治均采用标准的气溶胶缓解预防措施进行。在整个操作过程中,使用空气采样器设备对产生的气溶胶进行采样,同时在治疗前后使用表面拭子对操作室污染物和个人防护设备的污染进行采样。使用细菌培养和三磷酸腺苷(ATP)测定来量化污染程度。
RCT 产生的气溶胶和飞沫很少,支持感染控制程序的有效性。相比之下,洁治显著增加了气溶胶和飞沫的数量。当比较细菌培养和 ATP 测定时,ATP 测定获得的污染程度更大,这表明 ATP 测定可能检测到了培养条件下未回收的额外的人类来源和细菌污染。
该监测方案在牙科环境中是可行的,并确定了 AGP 期间产生的污染程度。这可以在未来的研究中采用,以克服现有文献的局限性。
