减轻鼻-鼻窦钻孔和烧灼过程中产生的空气传播颗粒物。

Suction mitigation of airborne particulate generated during sinonasal drilling and cautery.

机构信息

Department of Otolaryngology, Massachusetts Eye and Ear Infirmary, Boston, MA.

Harvard Medical School, Boston, MA.

出版信息

Int Forum Allergy Rhinol. 2020 Oct;10(10):1136-1140. doi: 10.1002/alr.22644. Epub 2020 Jul 15.

DOI:10.1002/alr.22644

PMID:32779883

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7323193/

Abstract

BACKGROUND

Coronavirus disease 2019 (COVID-19) has significantly impacted endonasal surgery, and recent experimentation has demonstrated that sinonasal drilling and cautery have significant propensity for airborne particulate generation immediately adjacent to the surgical field. In the present investigation, we assessed nasopharyngeal suctioning as a mitigation strategy to decrease particulate spread during simulated endonasal surgical activity.

METHODS

Airborne particulate generation in the 1-µm to 10-µm range was quantified with an optical particle sizer in real-time during cadaveric-simulated anterior and posterior endonasal drilling and cautery conditions. To test suction mitigation, experiments were performed both with and without a rigid suction placed in the contralateral nostril, terminating in the nasopharynx.

RESULTS

Both anterior (medial maxillary wall and nasal septum) and posterior (sphenoid rostrum) drilling produced significant particulate generation in the 1-µm to 10-µm range throughout the duration of drilling (p < 0.001) without the use of suction, whereas nasopharyngeal suction use eliminated the detection of generated airborne particulate. A similar effect was seen with nasal cautery, with significant particle generation (p < 0.001) that was reduced to undetectable levels with the use of nasopharyngeal suction.

CONCLUSION

The use of nasopharyngeal suctioning via the contralateral nostril minimizes airborne particulate spread during simulated sinonasal drilling and cautery. In the era of COVID-19, this technique offers an immediately available measure that may increase surgical safety.

摘要

背景

2019 年冠状病毒病（COVID-19）对鼻内手术产生了重大影响，最近的实验表明，鼻旁窦钻孔和烧灼术在紧邻手术区域的地方会产生大量空气传播的颗粒物。在本研究中，我们评估了鼻咽吸引作为一种减轻策略，以减少模拟鼻内手术活动期间颗粒物的传播。

方法

使用光学粒子计数器实时定量测量 1-10μm 范围内的空气传播颗粒物，在尸体模拟的前鼻内和后鼻内钻孔和烧灼条件下进行。为了测试抽吸的缓解效果，在有和没有刚性抽吸器放置在对侧鼻孔并终止于鼻咽的情况下进行了实验。

结果

在前鼻内（上颌骨内壁和鼻中隔）和后鼻内（蝶骨前突）钻孔过程中，在没有使用抽吸的情况下，整个钻孔过程中都会产生大量的 1-10μm 范围内的颗粒物（p<0.001），而使用鼻咽抽吸则消除了生成的空气传播颗粒物的检测。在鼻烧灼时也观察到类似的效果，产生了大量的颗粒物（p<0.001），但使用鼻咽抽吸后则降至无法检测的水平。

结论

通过对侧鼻孔使用鼻咽抽吸可以最大限度地减少模拟鼻旁窦钻孔和烧灼时空气传播颗粒物的扩散。在 COVID-19 时代，这种技术提供了一种即时可用的措施，可能会提高手术安全性。

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