基于连续微切割器的动态皮质下运动图谱：管状牵开器辅助手术的一项技术进展。

Continuous Microdebrider-Based Dynamic Subcortical Motor Mapping: A Technical Advance in Tubular Retractor-Assisted Surgery.

作者信息

Gallagher Mathew J, Lavrador Jose P, Coelho Pedro, Mirallave-Pescador Ana, Bleil Cristina, Gullan Richard, Ashkan Keyoumars, Vergani Francesco, Bhangoo Ranjeev

机构信息

Neurosurgery Department, King's College Hospital NHS Foundation Trust, Denmark Hill, London, UK.

Neurophysiology Department, King's College Hospital NHS Foundation Trust, Denmark Hill, London, UK.

出版信息

Oper Neurosurg (Hagerstown). 2022 Sep 1;23(3):217-224. doi: 10.1227/ons.0000000000000281. Epub 2022 Jun 9.

DOI:10.1227/ons.0000000000000281

PMID:35972085

Abstract

BACKGROUND

Transsulcal minimally invasive parafasicular (TsMIP) approaches to brain tumor resection use tubular retractors to minimize iatrogenic brain injury. Dynamic cortical and subcortical continuous neurophysiological mapping facilitates safer resection of motor-eloquent tumors.

OBJECTIVE

To describe a new technique to address the challenge of combining TsMIP with tubular retractors and dynamic subcortical mapping using a single electrified stimulating microdebrider instrument.

METHODS

We adapted the NICO Myriad microdebrider with continuous monopolar stimulation electrification using high-frequency stimulation with the train-of-5 technique. We performed continuous subcortical mapping using this device and compared it with standard dynamic monopolar subcortical mapping using a suction stimulation device. We found no significant difference in recorded stimulation response.

RESULTS

Using a single operating instrument that provides synchronous tumor resection and monopolar subcortical mapping with the NICO Brainpath tubular retractor, we observed increased degrees of movement, faster surgical resection times with an enlarged working channel down the retractor, and improved safety because the stimulating probe sits 2 mm deep to the resection window.

CONCLUSION

We show that the adapted device is reliable and provides similar stimulation response as conventional subcortical mapping. We advocate the use of our adapted microdebrider in TsMIP tubular retractor approaches.

摘要

背景

经脑沟微创束旁（TsMIP）入路进行脑肿瘤切除时使用管状牵开器以尽量减少医源性脑损伤。动态皮质和皮质下连续神经生理图谱有助于更安全地切除运动功能区肿瘤。

目的

描述一种新技术，以应对将TsMIP与管状牵开器以及使用单一带电刺激显微切割器械进行动态皮质下图谱绘制相结合的挑战。

方法

我们对NICO Myriad显微切割器进行了改装，采用5次刺激串的高频刺激实现连续单极刺激带电。我们使用该设备进行连续皮质下图谱绘制，并将其与使用吸引刺激设备进行的标准动态单极皮质下图谱绘制进行比较。我们发现记录的刺激反应没有显著差异。

结果

使用单一操作器械，该器械可通过NICO Brainpath管状牵开器实现同步肿瘤切除和单极皮质下图谱绘制，我们观察到运动程度增加、手术切除时间更快，牵开器的工作通道扩大，并且由于刺激探头位于切除窗口下方2毫米深处，安全性得到提高。

结论

我们表明改装后的设备可靠，并且提供与传统皮质下图谱绘制相似的刺激反应。我们提倡在TsMIP管状牵开器入路中使用我们改装后的显微切割器。

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基于连续微切割器的动态皮质下运动图谱：管状牵开器辅助手术的一项技术进展。

Continuous Microdebrider-Based Dynamic Subcortical Motor Mapping: A Technical Advance in Tubular Retractor-Assisted Surgery.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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