导航3D打印,软件监管和个性化解剖模型的即时制造质量控制的交叉点。

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Naomi C Paxton
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引用次数: 6

摘要

3D打印技术在医疗保健领域越来越受欢迎,3D打印解剖模型的应用范围从诊断和手术计划到患者教育。然而,随着3D打印解剖模型的使用越来越广泛,越来越需要监管和质量控制,以确保其准确性和安全性。本文献综述检查了医院3D打印的现状和用于生产3D打印模型的软件的FDA监管流程,并首次提供了经批准的软件平台的综合列表,以及已经过验证的3D打印机,用于生产3D打印解剖模型。讨论了这些3D打印产品的验证和验证过程,以及这些模型中不准确的可能性,包括测试精度,限制和精度测试标准的方法。本文强调了在医疗保健中使用3D打印技术时监管和质量控制的重要性,需要为软件和打印产品制定明确的指导方针和标准,以确保3D打印解剖模型的安全性和准确性,以及扩大受监管的3D打印机库的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Navigating the intersection of 3D printing, software regulation and quality control for point-of-care manufacturing of personalized anatomical models.

Navigating the intersection of 3D printing, software regulation and quality control for point-of-care manufacturing of personalized anatomical models.

Navigating the intersection of 3D printing, software regulation and quality control for point-of-care manufacturing of personalized anatomical models.

Navigating the intersection of 3D printing, software regulation and quality control for point-of-care manufacturing of personalized anatomical models.

3D printing technology has become increasingly popular in healthcare settings, with applications of 3D printed anatomical models ranging from diagnostics and surgical planning to patient education. However, as the use of 3D printed anatomical models becomes more widespread, there is a growing need for regulation and quality control to ensure their accuracy and safety. This literature review examines the current state of 3D printing in hospitals and FDA regulation process for software intended for use in producing 3D printed models and provides for the first time a comprehensive list of approved software platforms alongside the 3D printers that have been validated with each for producing 3D printed anatomical models. The process for verification and validation of these 3D printed products, as well as the potential for inaccuracy in these models, is discussed, including methods for testing accuracy, limits, and standards for accuracy testing. This article emphasizes the importance of regulation and quality control in the use of 3D printing technology in healthcare, the need for clear guidelines and standards for both the software and the printed products to ensure the safety and accuracy of 3D printed anatomical models, and the opportunity to expand the library of regulated 3D printers.

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