优化机械取栓术中的吸力：用空气与生理盐水预充抽吸导管。

Optimizing suction force in mechanical thrombectomy: Priming the aspiration tubing with air versus saline.

作者信息

Wali Arvin R, Sindewald Ryan W, Brandel Michael G, Bravo Javier, Steinberg Jeffrey A, Pannell J Scott, Khalessi Alexander A, Santiago-Dieppa David R

机构信息

Department of Neurological Surgery, University of California, San Diego, USA.

Department of General Surgery, University of California, San Diego, USA.

出版信息

J Cerebrovasc Endovasc Neurosurg. 2024 Sep;26(3):260-264. doi: 10.7461/jcen.2024.E2023.09.003. Epub 2024 Feb 27.

DOI:10.7461/jcen.2024.E2023.09.003

PMID:38403576

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11449539/

Abstract

OBJECTIVE

We sought to investigate how priming the tube between air versus air mixed with saline ex vivo influenced suction force. We examined how priming the tube influenced peak suction force and time to achieve peak suction force between both modalities.

METHODS

Using a Dwyer Instruments (Dwyer Instruments Inc., Michigan City, IN, USA), INC Digitial Pressure Gauge, we were able to connect a .072 inch aspiration catheter to a rotating hemostatic valve and to aspiration tubing. We recorded suction force measured in negative inches of Mercury (inHg) over 10 iterations between having the aspiration tube primed with air alone versus air mixed with saline. A test was used to compare results between both modalities.

RESULTS

Priming the tube with air alone compared to air mixed with saline was found to have an increased average max suction force (-28.60 versus -28.20 in HG, p<0.01). We also identified a logarithmic curve of suction force across time in which time to maximal suction force was more prompt with air compared with air mixed with saline (13.8 seconds versus 21.60 seconds, p<0.01).

CONCLUSIONS

Priming the tube with air compared to air mixed with saline suggests that not only is increased maximal suction force achieved, but also the time required to achieve maximal suction force is less. This data suggests against priming the aspiration tubing with saline and suggests that the first pass aspiration primed with air may have the greatest suction force.

摘要

目的

我们试图研究在体外将管道预充空气与预充空气和生理盐水的混合物相比，如何影响吸力。我们研究了预充管道对两种方式下的峰值吸力以及达到峰值吸力所需时间的影响。

方法

我们使用一台德威尔仪器公司（美国印第安纳州密歇根市）的INC数字压力计，将一根0.072英寸的吸引导管连接到一个旋转止血阀和吸引管上。我们记录了在吸引管单独预充空气与预充空气和生理盐水的混合物的情况下，10次测量中以英寸汞柱（inHg）为单位测得的吸力。采用一项测试来比较两种方式的结果。

结果

发现与预充空气和生理盐水的混合物相比，单独用空气预充管道时平均最大吸力有所增加（-28.60英寸汞柱对-28.20英寸汞柱，p<0.01）。我们还确定了吸力随时间变化的对数曲线，其中与预充空气和生理盐水的混合物相比，用空气预充时达到最大吸力的时间更快（13.8秒对21.60秒，p<0.01）。

结论

与预充空气和生理盐水的混合物相比，用空气预充管道表明不仅能实现更大的最大吸力，而且达到最大吸力所需的时间更短。该数据表明不建议用生理盐水预充吸引管，并且首次用空气预充的吸引可能具有最大的吸力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/84f0/11449539/17db34393c43/jcen-2024-e2023-09-003f1.jpg

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优化机械取栓术中的吸力：用空气与生理盐水预充抽吸导管。

Optimizing suction force in mechanical thrombectomy: Priming the aspiration tubing with air versus saline.

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METHODS

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