通过金属增材制造技术为资源匮乏的患者设计手术器械:以尺骨缩短截骨术为例。

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Kuan-Lin Chen, Cheng-Yu Yin, Hui-Kuang Huang, Yi-Chao Huang, Jung-Pan Wang
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引用次数: 0

摘要

背景:尺骨缩短截骨术(USO)对尺骨嵌顿综合征患者有良好的疗效。为了尽量减少不愈合等并发症,必须进行精确的截骨和牢固的固定。尽管已开发出各种尺骨缩短系统,但现有技术并不能满足所有需求。相当一部分患者无法负担指定的尺骨缩短系统。为了应对这一挑战,我们的团队采用了标准化的徒手预钻 USO 技术,并取得了成功。然而,这仍然是一项技术要求很高的工作,需要足够的经验和信心才能胜任。因此,我们的团队根据我们的徒手技术原理,利用金属增材制造技术设计了一种尺骨缩短系统。本研究的目的是描述开发过程并报告该系统的性能:我们的团队利用金属增材制造技术开发了一种尺骨缩短系统,该系统只需最小程度的暴露,便于精确切割,并可轻松放置 3.5 毫米动态加压板,患者无需自付费用。在性能测试中,两名在尺骨缩短术方面具有不同经验的外科医生参加了测试:一名是经过培训的手部和腕部外科医生,另一名是资深住院医师。他们在尺骨锯骨上使用徒手技术和 USO 系统辅助技术进行尺骨缩短截骨术(USO),每种方法重复三次。记录的参数包括完成截骨时间、手术总时间、切口直径、缩短长度、最大残余间隙和偏角:结果:对于手部和腕部研究员,使用 USO 系统可显著缩短完成截骨的时间。(从 468.7±63.6 秒到 260.0±5 秒,p 结论:所开发的 USO 系统可作为一种有价值的工具,帮助使用 3.5 毫米动态加压钢板进行尺骨缩短截骨术的患者进行可靠、精确的切割和固定,即使是经验不足的外科医生也能胜任。从概念生成和草图绘制到 CAD 文件创建和最终生产的整个过程,都可作为其他手术方案的可转化参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enabling the design of surgical instruments for under-resourced patients through metal additive manufacturing: ulnar shortening osteotomy as an example.

Background: Ulnar shortening osteotomy (USO) has demonstrated good outcomes for patients with ulnar impaction syndrome. To minimize complications such as non-union, precise osteotomy and firm fixation are warranted. Despite various ulnar shortening systems have been developed, current technology does not meet all needs. A considerable portion of patients could not afford those designated USO systems. To tackle this challenge, our team reported successful results in standardized free-hand predrilled USO technique. However, it is still technical demanding and requires sufficient experience and confidence to excel. Therefore, our team designed an ulnar shortening system based on our free-hand technique principle, using metal additive manufacturing technology. The goal of this study is to describe the development process and report the performance of the system.

Methods: Utilizing metal additive manufacturing technology, our team developed an ulnar shortening system that requires minimal exposure, facilitates precise cutting, and allows for the easy placement of a 3.5 mm dynamic compression plate, available to patients at zero out-of-pocket cost. For performance testing, two surgeons with different levels of experience in ulnar shortening procedures were included: one fellow-trained hand and wrist surgeon and one senior resident. They performed ulnar shortening osteotomy (USO) using both the free-hand technique and the USO system-assisted technique on ulna sawbones, repeating each method three times. The recorded parameters included time-to-complete-osteotomy, total procedure time, chip diameter, shortening length, maximum residual gap, and deviation angle.

Results: For the hand and wrist fellow, with the USO system, the time-to-complete osteotomy was significantly reduced. (468.7 ± 63.6 to 260.0 ± 5 s, p < 0.05). Despite the preop goal was shortening 3 mm, the average shortening length was significantly larger in the free-hand group (5 ± 0.1; 3.2 ± 0.2 mm, p < 0.05). Both maximum residual gap and deviation angle reported no statistical difference between the two techniques for the hand surgeon. As for the senior resident, the maximum residual gap was significantly reduced, using the USO system (2.9 ± 0.8; 0.4 ± 0.4 mm, p = 0.02). Between two surgeons, significant larger maximum residual gap and deviation angle were noted on the senior resident doctor, in the free-hand technique group, but not in the USO system group.

Conclusion: The developed USO system may serve as a valuable tool, aiding in reliable and precise cutting as well as fixation for patients undergoing ulnar shortening osteotomy with a 3.5 mm dynamic compression plate, even for less experienced surgeons. The entire process, from concept generation and sketching to creating the CAD file and final production, serves as a translatable reference for other surgical scenarios.

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