Instrumentation of hypoplastic pedicles with patient-specific guides.

IF 1.6 Q3 CLINICAL NEUROLOGY
Spine deformity Pub Date : 2024-07-01 Epub Date: 2024-04-01 DOI:10.1007/s43390-024-00852-9
Mazda Farshad, Christoph Zindel, Nico Akhavan Safa, José Miguel Spirig, Elin Winkler
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引用次数: 0

Abstract

Purpose: Hypoplastic pedicles of the thoracolumbar spine (<5 mm diameter) are often found in syndromic deformities of the spine and pose a challenge in pedicle screw instrumentation. 3D-printed patient-specific guides might help overcome anatomical difficulties when instrumenting pedicles with screws, thereby reducing the necessity for less effective fixation methods such as hooks or sublaminar wires. In this study, the surgical feasibility and clinical outcome of patients with hypoplastic pedicles following pedicle screw instrumentation with 3D-printed patient-specific guides were assessed.

Methods: Hypoplastic pedicles were identified on preoperative computed tomography (CT) scans in six patients undergoing posterior spinal fusion surgery between 2017 and 2020. Based on these preoperative CT scans, patient-specific guides were produced to help with screw instrumentation of these thin pedicles. Postoperatively, pedicle-screw-related complications or revisions were analyzed.

Results: 93/105 (88.6%) pedicle screws placed with patient-specific guides were instrumented. 62/93 (66.7%) of these instrumented pedicles were defined as hypoplastic with a mean width of 3.07 mm (SD  ±0.98 mm, 95% CI [2.82-3.32]). Overall, 6 complications in the 62 hypoplastic pedicles (9.7%) were observed and included intraoperatively managed 4 cerebrospinal fluid leaks, 1 pneumothorax and 1 delayed revision due to 2 lumbar screws (2/62, 3.3%) impinging the L3 nerve root causing a painful radiculopathy. The mean follow-up time was 26.7 (SD  ±11.7) months. Complications were only noted when the pedicle-width-to-screw-diameter ratio measured less than 0.62.

Conclusion: Patient-specific 3D-printed guides can aid in challenging instrumentation of hypoplastic pedicles in the thoracolumbar spine, especially if the pedicle-width-to-screw-diameter ratio is greater than 0.62.

使用患者专用导引器为发育不良的椎弓根植入器械。
目的:在 2017 年至 2020 年间接受脊柱后路融合手术的六名患者的术前计算机断层扫描(CT)中发现了胸腰椎发育不良的椎弓根。根据这些术前 CT 扫描结果,制作了患者特异性指南,以帮助对这些薄椎弓根进行螺钉固定。对术后与椎弓根螺钉相关的并发症或翻修进行了分析:93/105(88.6%)椎弓根螺钉使用患者特制的导板植入。其中62/93(66.7%)的器械椎弓根被定义为发育不良,平均宽度为3.07毫米(SD ±0.98 毫米,95% CI [2.82-3.32])。总体而言,在 62 个发育不良的椎弓根中观察到 6 例并发症(9.7%),包括术中处理的 4 例脑脊液漏、1 例气胸和 1 例因 2 颗腰椎螺钉(2/62,3.3%)撞击 L3 神经根导致疼痛性根性病变而导致的延迟翻修(2/62,3.3%)。平均随访时间为 26.7 (SD ±11.7) 个月。只有当椎弓根宽度与螺钉直径之比小于0.62时才会出现并发症:患者特异性三维打印导板有助于胸腰椎发育不良椎弓根的高难度器械治疗,尤其是当椎弓根宽度与螺钉直径之比大于 0.62 时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.20
自引率
18.80%
发文量
167
期刊介绍: Spine Deformity the official journal of the?Scoliosis Research Society is a peer-refereed publication to disseminate knowledge on basic science and clinical research into the?etiology?biomechanics?treatment?methods and outcomes of all types of?spinal deformities. The international members of the Editorial Board provide a worldwide perspective for the journal's area of interest.The?journal?will enhance the mission of the Society which is to foster the optimal care of all patients with?spine?deformities worldwide. Articles published in?Spine Deformity?are Medline indexed in PubMed.? The journal publishes original articles in the form of clinical and basic research. Spine Deformity will only publish studies that have institutional review board (IRB) or similar ethics committee approval for human and animal studies and have strictly observed these guidelines. The minimum follow-up period for follow-up clinical studies is 24 months.
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