Local design and manufacturing of patient-specific implant using Anatomage Medical Design Studio software: proof of concept - Botswana's 1st case report.

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

3D printing in medicine Pub Date : 2023-03-23 DOI:10.1186/s41205-023-00170-2

Shathani Nkhwa, Thapelo Montshiwa, Deon de Beer, Gerrie Booysen, Cules van den Heever, Johan Els, Andre Heydenrych, Maikutlo Kebaetse

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Abstract

Background: Botswana, like most sub-Sahara African nations, uses conventional orthopaedic implants that are sourced from major manufactures in the West. The implants are mass-produced and designed with universal configurations to fit an average patient. During surgery, surgeons thus sometimes bend the implants to match the individual bone anatomy, especially for paediatric patients and those with unique deformities, thus risking implant failure. The purpose of this project was to show the feasibility of developing safe and effective patient-specific orthopaedic implants in a low-resourced market.

Methods: CT Scan slice files of a paediatric patient with Ollier's disease were used to reconstruct the lower limb anatomy. The resultant files were 3D printed into prototypes that showed severe right knee valgus deformity. The surgeon used the prototype to plan for corrective femoral osteotomy and the required implant. The implant design and planned surgery were subsequently simulated on the Medical Design Studio software for proper fitting before final implant printing. Surgery was then performed, followed by 12 weeks of physiotherapy.

Results: Post-surgical x-rays demonstrated good implant positioning and knee joint alignment. At 18 months of post-surgical follow-up, the child was pain-free, could perform full squats, and ambulation was near-normal, without the use of an assistive device.

Conclusions: It is feasible to develop effective, patient-specific implants for selected orthopaedic cases in a low-resourced country. This work could improve surgical and rehabilitation outcomes for selected paediatric patients and those with severe bone deformities.

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使用Anatomage医学设计工作室软件进行患者特异性植入物的本地设计和制造:概念验证-博茨瓦纳第一例病例报告。

背景:博茨瓦纳，像大多数撒哈拉以南非洲国家一样，使用来自西方主要制造商的传统骨科植入物。这些植入物是批量生产的，并且具有适合普通患者的通用配置。在手术过程中，外科医生有时会弯曲植入物以匹配个体骨骼解剖结构，特别是对于儿科患者和那些有独特畸形的患者，从而冒着植入物失败的风险。该项目的目的是展示在资源匮乏的市场上开发安全有效的患者特异性骨科植入物的可行性。方法:对1例小儿奥利氏病的CT扫描片进行下肢解剖重建。所得到的文件被3D打印成显示严重右膝外翻畸形的原型。外科医生使用原型来计划矫正股骨截骨和所需的植入物。随后在Medical design Studio软件上模拟种植体设计和计划手术，以便在最终种植体打印之前进行适当的安装。然后进行手术，随后进行12周的物理治疗。结果:术后x线片显示良好的假体定位和膝关节对齐。术后随访18个月，患儿无疼痛，可以进行深蹲，行走接近正常，无需使用辅助装置。结论:在资源匮乏的国家，为选定的骨科病例开发有效的、针对患者的植入物是可行的。这项工作可以改善选定的儿科患者和严重骨畸形患者的手术和康复效果。

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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3D printing in medicine

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5 weeks