利用三维打印技术进行全内窥镜脊柱手术的术前规划:技术说明。

NMC Case Report Journal Pub Date : 2022-08-20 eCollection Date: 2022-01-01 DOI:10.2176/jns-nmc.2022-0077
Ryo Okada, Toshinori Sakai, Toshihiko Nishisho, Akihiro Nitta, Shigeyuki Takahara, Koichi Oba, Koichi Sairyo
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引用次数: 1

摘要

椎间孔全内窥镜脊柱手术(TF-FESS)是一种新型的微创脊柱手术,只需要一个8毫米的皮肤切口,对椎旁肌肉的损伤最小。为了安全有效地进行TF-FESS,术前计划非常重要,因为干预需要解剖学知识和高技术水平。最近,三维(3D)打印已经成为各种手术中的有用工具,一些研究已经解决了它的功效;然而,目前还没有关于3D打印在FESS中的应用的报道。在本研究中,我们报告了两例术前3D打印有用的严重腰椎畸形。3D打印使外科医生能够可视化和计划上关节突的钻孔,以低成本成功地进行椎间孔成形术。制造设备的成本约为900美元,能够以每位患者不到10美元的成本生产出实际尺寸的模型。综上所述,为了安全进行FESS手术,应采用3D打印技术进行术前规划。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Preoperative Planning Using Three-dimensional Printing for Full-endoscopic Spine Surgery: A Technical Note.

Preoperative Planning Using Three-dimensional Printing for Full-endoscopic Spine Surgery: A Technical Note.

Preoperative Planning Using Three-dimensional Printing for Full-endoscopic Spine Surgery: A Technical Note.

Preoperative Planning Using Three-dimensional Printing for Full-endoscopic Spine Surgery: A Technical Note.

Transforaminal full-endoscopic spine surgery (TF-FESS) is a novel minimally invasive spine surgery that requires only an 8-mm skin incision and causes minimal damage to the paravertebral muscles. To perform TF-FESS safely and efficiently, preoperative planning is quite important as the intervention requires anatomical understanding and high technical skills. Recently, three-dimensional (3D) printing has become a useful tool in various surgeries, and several studies have addressed its efficacy; however, there are no reports on the application of 3D printing to FESS. In this study, we present two cases of severe lumbar deformities for which preoperative 3D printing was useful. The 3D printing enabled the surgeons to visualize and plan the drilling of the superior articular process for a successful foraminoplasty at a low cost. The manufacturing equipment cost about USD 900 and is able to produce an actual-size model at a cost of less than USD 10 per patient. In conclusion, preoperative planning using 3D printing should be adopted to safely perform FESS.

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