内窥镜圆柱体手术治疗脑室病变

Kazuhito Takeuchi
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引用次数: 0

摘要

开发圆筒牵开器的目的是通过分散脑部的牵开压力来降低手术中脑部牵开损伤的风险。近年来,已开发出各种类型的圆筒牵开器,并广泛应用于神经外科。脑室是大脑的深部结构,是使用圆筒牵开器的有效区域。内窥镜可在深部手术区域提供明亮、宽阔的视野,甚至可穿过狭窄的走廊。鉴于脑室较深且形状复杂,术前规划至关重要。内窥镜圆柱体手术主要采用两种手术技术。湿场技术包括在手术过程中持续灌注人工脑脊液(CSF),利用自然水压保持脑室形状,便于识别肿瘤边界,并实现自发止血。相反,干视野技术则需要引流 CSF,即使在遇到出血时也能提供清晰的视野。考虑到侧脑室、第三脑室和第四脑室肿瘤的位置和周围解剖结构,本文讨论了侧脑室、第三脑室和第四脑室肿瘤的具体方法。内窥镜圆柱体手术为脑室内肿瘤提供了一种多功能的微创选择,从而改善了手术效果。总体而言,这项技术提高了脑室内肿瘤病例的手术精准度和患者预后。
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Endoscopic Cylinder Surgery for Ventricular Lesions.

Cylinder retractors have been developed to reduce the risk of brain retraction injury during surgery by dispersing retraction pressure on the brain. In recent years, various types of cylinder retractors have been developed and widely used in neurosurgery. The ventricles, being deep structures within the brain, present an effective area for cylinder retractor utilization. Endoscopy provides a bright, wide field of view in the deep surgical field, even through narrow corridors.This chapter introduces surgical techniques using an endoscope through a cylinder. Given the deep and complex shapes of the ventricles, preoperative planning is paramount. Two main surgical techniques are employed in endoscopic cylinder surgery. The wet-field technique involves the continuous irrigation of artificial cerebrospinal fluid (CSF) during the procedure, maintaining ventricle shape with natural water pressure, facilitating tumor border identification, and achieving spontaneous hemostasis. Conversely, the dry-field technique involves CSF drainage, providing a clear visual field even during hemorrhage encounters. In intraventricular surgery, both techniques are used and switched as needed.Specific approaches for lateral, third, and fourth ventricular tumors are discussed, considering their locations and surrounding anatomical structures. Detailed intraoperative findings and strategies for tumor removal and hemostasis are presented.Endoscopic cylinder surgery offers a versatile and minimally invasive option for intraventricular tumors, leading to improved surgical outcomes. Overall, this technique enhances surgical precision and patient outcomes in intraventricular tumor cases.

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