A customized 3D-printed histological microgrinder for the study of metallic endoprostheses.

Pub Date : 2023-12-01 Epub Date: 2023-05-02 DOI:10.1080/01478885.2023.2205617
Reza Sanaei
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引用次数: 1

Abstract

Use of histology is the key when evaluation of bone and soft tissue integration of any implanted metallic prosthesis is required. This relies on the ability to prepare very thin sections by grinding down resin embedded samples. Manual grinding has historically been used with variable success, and thus, a number of commercial microgrinders have been previously marketed, however, at a significant cost. The following describes a practical method to 3D print and build a microgrinder construct retrofitted to a metallurgic wheel grinder/polisher previously available. The design files are also supplied, which allow one to implement customized modifications for virtually all types of wheel grinders/polishers circumventing the need to procure highly costly appliances. Recommendations are included on how to safely and reproducibly prepare microscopic sections using the described construct.

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一种用于研究金属内假体的定制3D打印组织学微研磨器。
当需要评估任何植入的金属假体的骨和软组织整合时,组织学的使用是关键。这取决于通过研磨嵌入树脂的样品来制备非常薄的切片的能力。手动研磨在历史上一直被使用,并取得了不同的成功,因此,许多商业微研磨机以前已经上市,但成本高昂。以下描述了一种3D打印和构建微研磨机结构的实用方法,该微研磨机改造为以前可用的冶金砂轮研磨机/抛光机。还提供了设计文件,使人们能够对几乎所有类型的砂轮研磨机/抛光机进行定制修改,从而避免了采购高成本设备的需要。建议包括如何使用所述结构安全和可重复地制备显微镜切片。
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