Development of patient-specific 3D printed implants for total knee arthroplasty

Q4 Biochemistry, Genetics and Molecular Biology

Exploration of medicine Pub Date : 2023-12-28 DOI:10.37349/emed.2023.00193

Dasharath Ramavath, S. Yeole, Jaya Prakash Kode, Narendra Pothula, Sudheer Reddy Devana

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Abstract

Aim: Arthritis is a degenerative condition characterized by the progressive deterioration of the knee joint, leading to aches, rigidity, and decreased mobility. Total knee arthroplasty (TKA) surgery is performed to alleviate pain for restoring activity in these patients. TKA is carried out due to natural wear of the cartilage and meniscus or by sudden impact at the knee joint area. The surgical procedure involves careful planning, precise bone cuts, and insertion of artificial components made of metal alloys and high-density polyethylene. However, conventional manufacturing of customized knee implants involves time and cost. This work aims to present the application of three-dimensional (3D) printing for developing individualized knee implants for TKA and the challenges faced during it. Methods: Morphometry of the knee joint varies among different populations, including Indian and Western, which pose challenges during the surgery as accurate alignment and implant sizing are crucial for optimal outcomes. A female patient’s pre-surgery computed tomography (CT) scan is considered to identify the disease and to find region of interest (ROI) such as knee joint. Process involves converting scanned data to a file format for 3D printing via computer-aided design (CAD). Results: The patient’s CT scan data is processed to obtain the CAD models of knee joint and standard triangulation language (STL) file. Additional geometries and noise present near the region are removed to get ROI. Open loops and overlapping triangles are rectified in the STL file. Based on the morphometry of the bone, resection is done to obtain the CAD models of knee implants. 3D printing of the knee joint and implant prototypes is then obtained using fused deposition modelling (FDM). Line layers on the printed implant prototype are seen. Conclusions: Patient-specific 3D printed knee joint implant prototypes are successfully obtained using FDM. Challenges faced during the work are successfully worked out.

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开发用于全膝关节置换术的患者专用 3D 打印植入物

目的：关节炎是一种退行性疾病，其特点是膝关节逐渐退化，导致疼痛、僵硬和活动能力下降。进行全膝关节置换术（TKA）是为了减轻这些患者的疼痛，恢复其活动能力。进行全膝关节置换术的原因是软骨和半月板的自然磨损或膝关节部位受到突然撞击。手术过程包括仔细规划、精确切骨以及植入由金属合金和高密度聚乙烯制成的人工组件。然而，传统的定制膝关节植入物的制造需要时间和成本。本研究旨在介绍三维（3D）打印技术在开发用于 TKA 的个性化膝关节植入物中的应用及其面临的挑战。方法：不同人群（包括印度人和西方人）的膝关节形态各不相同，这给手术带来了挑战，因为准确的对位和植入物尺寸是获得最佳效果的关键。女性患者手术前的计算机断层扫描（CT）可用于确定疾病并找到感兴趣区（ROI），如膝关节。该过程包括将扫描数据转换为文件格式，以便通过计算机辅助设计（CAD）进行三维打印。结果：对患者的 CT 扫描数据进行处理，以获得膝关节的 CAD 模型和标准三角测量语言 (STL) 文件。去除区域附近存在的其他几何形状和噪声，得到 ROI。对 STL 文件中的开环和重叠三角形进行校正。根据骨骼的形态，进行切除，以获得膝关节植入物的 CAD 模型。然后使用熔融沉积建模（FDM）技术对膝关节和植入物原型进行三维打印。可以看到打印植入物原型上的线层。结论使用 FDM 成功获得了针对特定患者的三维打印膝关节植入物原型。成功解决了工作中面临的挑战。

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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