用于医疗保健研发的3D打印应用

Mohd Javaid , Abid Haleem , Ravi Pratap Singh , Rajiv Suman
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引用次数: 14

摘要

医疗行业对定制、生物相容性和可消毒组件的需求不断增长。3D打印是医疗保健领域的一项颠覆性技术,并提供了重要的研究和开发途径。简单的3D打印服务为患者提供低成本的个性化假肢、植入物和小工具,使外科医生能够使用定制的设备和模型更有效地进行手术;并协助医疗设备制造商开发新的和更快的产品。3D打印组织块可以克服各种挑战,最终可能使制药公司简化研究和开发。从长远来看,它还可能有助于降低价格,使每个人都更容易获得和有效药物。关于在教学和培训中使用3D打印解剖模型的优势的研究越来越多。3D打印个体解剖疾病的实际学习能力是利用3D和常规解剖模型之间的基本对比之一。3D打印技术在生产患者专用植入物方面非常有吸引力。这篇基于文献综述的论文探讨了3D打印和3D生物打印在医疗保健中的作用。它简要介绍了在医疗保健中实施3D打印的需求和渐进步骤,并介绍了医疗保健部门3D打印的各种设施和支持因素。最后,本文确定并讨论了3D打印在医疗保健研发中的重要应用。3D打印服务可以很容易地在塑料或金属中构建复杂的几何形状,并且精度很高。这样可以改进原型,降低成本,缩短零件加工时间。他们现在可以用自然材料进行物理创作,这在以前的技术中是无法实现的。未来,每家医院都应该拥有3D打印机,这样就可以在医院内部开发新的器官/部件。
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3D printing applications for healthcare research and development

There is a growing demand for customised, biocompatible, and sterilisable components in the medical business. 3D Printing is a disruptive technology for healthcare and provides significant research and development avenues. Simple 3D printing service gives patients low-cost individualised prostheses, implants, and gadgets, enabling surgeons to operate more effectively with customised equipment and models; and assisting medical device manufacturers in developing new and faster goods. 3D printed tissue pieces can overcome various challenges and may eventually allow medication companies to streamline research and development. In the long run, it may also assist in lowering prices and making medicines more accessible and effective for everybody. There is a growing corpus of research on the advantages of employing 3D printed anatomic models in teaching and training. The capacity to 3D printing individual anatomical diseases for practical learning is one of the fundamental contrasts between utilising 3D and regular anatomical models. 3D printing is very appealing for producing patient-specific implants. This literature review-based paper explores the role of 3D printing and 3D bioprinting in healthcare. It briefs the need and progressive steps for implementing 3D printing in healthcare and presented various facilities and enablers of 3D printing for the healthcare sector. Finally, this paper identifies and discusses the significant applications of 3D printing for healthcare research and development. 3D printing services can be deployed to easily construct complex geometries in plastic or metal with good precision. This results in improved prototypes, lower costs, and lower part processing times. They can now physically create with natural materials, previously unattainable with prior technologies. Every hospital should have 3D printers in the future, allowing new organs/parts to be developed in-house.

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来源期刊
Global health journal (Amsterdam, Netherlands)
Global health journal (Amsterdam, Netherlands) Public Health and Health Policy
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5.00
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