用于微内镜下脊柱减压的引流管放置创新技术。
Innovative Technique for the Placement of the Drainage Tube for Microendoscopic Spinal Decompression.
作者信息
Mizuno Kentaro, Mikami Yasuo, Hase Hitoshi, Ikeda Takumi, Nagae Masateru, Tonomura Hitoshi, Shirai Toshiharu, Fujiwara Hiroyoshi, Kubo Toshikazu
机构信息
Department of Orthopaedics, Graduate School of Medical Science, Kyoto Prefectural University of Medicine, Kawaramachi-Hirokoji, Kamigyo-ku, Kyoto, Japan.
出版信息
Clin Spine Surg. 2017 Feb;30(1):E59-E63. doi: 10.1097/BSD.0b013e3182a35785.
STUDY DESIGN
A technical note and retrospective study.
OBJECTIVES
The objectives were to describe a new method of drainage tube placement during microendoscopic spinal decompression, and compare the positioning and fluid discharge obtained with this method and the conventional method.
SUMMARY OF BACKGROUND DATA
To prevent postoperative epidural hematoma after microendoscopic decompression, a drainage tube must be placed in a suitable location. However, the narrow operative field makes precise control of the position of the tube technically difficult. We developed a method to reliably place the tube in the desired location.
MATERIALS AND METHODS
We use a Deschamps aneurysm needle with a slightly curved tip, which we call a drain passer. With the microendoscope in position, the drain passer, with a silk thread passed through the eye at the needle tip, is inserted percutaneously into the endoscopic field of view. The drainage tube is passed through the loop of silk thread protruding from the inside of the tubular retractor, and the thread is pulled to the outside, guiding the end of the drainage tube into the wound. This method was used in 23 cases at 44 intervertebral levels (drain passer group), and the conventional method in 20 cases at 32 intervertebral levels (conventional group). Postoperative plain radiographs were taken, and the amount of fluid discharge at postoperative hour 24 was measured.
RESULTS
Drainage tube positioning was favorable at 43 intervertebral levels (97.7%) in the drain passer group and 26 intervertebral levels (81.3%) in the conventional group. Mean fluid discharge was 58.4±32.2 g in the drain passer group and 38.4±23.0 g in the conventional group. Positioning was significantly better and fluid discharge was significantly greater in the drain passer group.
CONCLUSION
The results indicate that this method is a useful drainage tube placement technique for preventing postoperative epidural hematoma.
研究设计
技术说明及回顾性研究。
目的
描述一种在显微内镜下脊柱减压术中放置引流管的新方法,并比较该方法与传统方法在定位及引流量方面的差异。
背景资料总结
为预防显微内镜减压术后硬膜外血肿,必须将引流管放置在合适位置。然而,手术视野狭窄使得在技术上精确控制引流管位置困难。我们开发了一种能可靠地将引流管放置在理想位置的方法。
材料与方法
我们使用一种尖端略弯曲的德尚动脉瘤针,我们称之为引流导针。在内镜就位后,将带有丝线穿过针尖小孔的引流导针经皮插入内镜视野。将引流管穿过从管状牵开器内部伸出的丝线环,然后将丝线拉至体外,引导引流管末端进入伤口。该方法应用于23例患者的44个椎间隙(引流导针组),传统方法应用于20例患者的32个椎间隙(传统组)。术后拍摄X线平片,并测量术后24小时的引流量。
结果
引流导针组43个椎间隙(97.7%)引流管定位良好,传统组26个椎间隙(81.3%)引流管定位良好。引流导针组平均引流量为58.4±32.2克,传统组为38.4±23.0克。引流导针组的定位明显更好,引流量明显更大。
结论
结果表明该方法是预防术后硬膜外血肿的一种有用的引流管放置技术。
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