3D打印
制药工业
制造工程
药物输送
剂型
计算机科学
三维打印
生化工程
3d打印
颠覆性技术
3d打印机
药物开发
药品
医学
作者
Prasanna Kumar Desu,Balaji Maddiboyina,K Vanitha,Shiva Naga Koteswara Rao Gudhanti,Rapuri Anusha,Vikas Jhawat
出处
期刊:Current Drug Targets
[Bentham Science]
日期:2021-01-20
卷期号:22 (16): 1901-1914
被引量:1
标识
DOI:10.2174/1389450122666210120142416
摘要
Three Dimensional (3D) Printing is a promising method for quick prototyping and manufacturing of any material. It is similar to photocopy or printing, where the new materials are formed on layers (3D) like its mother component. Following its growth and advancement in the 1980s, its application in pharmaceuticals is still limited. It has become one of the most innovative and influential tools serving as a technology of precise manufacturing of developed dosage forms from the last decade. The potential of 3D printing to produce drugs for precise measurement customized to specific patients' needs has shown the possibility of developing personalized medicines to novel dosage forms. The breakthrough allows the clear perception of the dosage structures on different shapes, sizes, and surfaces challenging to deliver using Designed conditions. There are different difficulties related to the correct utilization of 3D imprinting in the pharmaceutical Part, which ought to be defeated to abuse the extent of this technology. Recent advancements in the field of 3D printing technology used in the pharmaceutical industry mainly focused on different techniques for the fabrication of different dosage forms. The Food and Drug Administration's (FDA) recent approval of the first 3D prescription highlights possibilities for 3D printing innovation in the pharmaceutical drug supply field. This analysis assesses 3D printing advancement possibilities, particularly in the area of custom prescriptions. This technology can be regarded as the future of demand-produced, low-cost solid dosage forms, and helps minimize side effects due to overdose.
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