在 COVID-19 时代的乳突切除术期间的气溶胶分散和耳科学手术的定制缓解策略。

Aerosol Dispersion During Mastoidectomy and Custom Mitigation Strategies for Otologic Surgery in the COVID-19 Era.

机构信息

Department of Otolaryngology-Head and Neck Surgery, Massachusetts Eye and Ear, Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Otolaryngol Head Neck Surg. 2021 Jan;164(1):67-73. doi: 10.1177/0194599820941835. Epub 2020 Jul 14.

DOI:10.1177/0194599820941835

PMID:32660367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7361126/

Abstract

OBJECTIVE

To investigate small-particle aerosolization from mastoidectomy relevant to potential viral transmission and to test source-control mitigation strategies.

STUDY DESIGN

Cadaveric simulation.

SETTING

Surgical simulation laboratory.

METHODS

An optical particle size spectrometer was used to quantify 1- to 10-µm aerosols 30 cm from mastoid cortex drilling. Two barrier drapes were evaluated: OtoTent1, a drape sheet affixed to the microscope; OtoTent2, a custom-structured drape that enclosed the surgical field with specialized ports.

RESULTS

Mastoid drilling without a barrier drape, with or without an aerosol-scavenging second suction, generated large amounts of 1- to 10-µm particulate. Drilling under OtoTent1 generated a high density of particles when compared with baseline environmental levels ( < .001, = 107). By contrast, when drilling was conducted under OtoTent2, mean particle density remained at baseline. Adding a second suction inside OtoTent1 or OtoTent2 kept particle density at baseline levels. Significant aerosols were released upon removal of OtoTent1 or OtoTent2 despite a 60-second pause before drape removal after drilling ( < .001, = 0, n = 10, 12; < .001, = 2, n = 12, 12, respectively). However, particle density did not increase above baseline when a second suction and a pause before removal were both employed.

CONCLUSIONS

Mastoidectomy without a barrier, even when a second suction was added, generated substantial 1- to 10-µm aerosols. During drilling, large amounts of aerosols above baseline levels were detected with OtoTent1 but not OtoTent2. For both drapes, a second suction was an effective mitigation strategy during drilling. Last, the combination of a second suction and a pause before removal prevented aerosol escape during the removal of either drape.

摘要

目的

研究乳突切除术相关的小颗粒气溶胶化，以评估潜在的病毒传播，并测试源控制缓解策略。

研究设计

尸体模拟。

设置

手术模拟实验室。

方法

使用光学粒子粒径谱仪在距乳突皮质钻孔 30cm 处定量测量 1 至 10μm 的气溶胶。评估了两种屏障帘：OtoTent1，一种附在显微镜上的帘片；OtoTent2，一种用特殊端口封闭手术区域的定制结构帘。

结果

无屏障帘、有或无气溶胶清除二次抽吸的乳突钻取会产生大量 1 至 10μm 的颗粒。与基线环境水平相比，OtoTent1 下的钻取产生了高密度的颗粒（<0.001，=107）。相比之下，当在 OtoTent2 下进行钻取时，平均颗粒密度保持在基线水平。在 OtoTent1 或 OtoTent2 内添加二次抽吸可将颗粒密度保持在基线水平。尽管在钻取后去除屏障帘前暂停 60 秒，但去除 OtoTent1 或 OtoTent2 时仍会释放出大量气溶胶（<0.001，=0，n=10，12；<0.001，=2，n=12，12，分别）。然而，当同时使用二次抽吸和去除前暂停时，颗粒密度不会超过基线。

结论

即使添加了二次抽吸，无屏障的乳突切除术也会产生大量 1 至 10μm 的气溶胶。在钻取过程中，使用 OtoTent1 检测到大量高于基线水平的气溶胶，但使用 OtoTent2 则没有。对于两种帘，在钻取过程中使用二次抽吸是一种有效的缓解策略。最后，在去除任何一种帘之前，结合二次抽吸和暂停可以防止在去除帘时气溶胶逸出。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/35c3/7361126/2f4dbaf665d1/10.1177_0194599820941835-fig1.jpg

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在 COVID-19 时代的乳突切除术期间的气溶胶分散和耳科学手术的定制缓解策略。

Aerosol Dispersion During Mastoidectomy and Custom Mitigation Strategies for Otologic Surgery in the COVID-19 Era.

机构信息

出版信息

OBJECTIVE

STUDY DESIGN

SETTING

METHODS

RESULTS

CONCLUSIONS

目的

研究设计

设置

方法

结果

结论

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