Three-Dimensional Printing Technology in Drug Design and Development: Feasibility, Challenges, and Potential Applications

The present investigation evaluates the impact of 3D-printing technology on the design of pharmaceutical drugs, considering the feasibility issues and problems concerning technological, pharmaceutical, and clinical matters. This paper aims to review how 3D printing can modify the traditional manufac...

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Bibliographic Details
Published in:Journal of personalized medicine 2024-10, Vol.14 (11), p.1080
Main Authors: Simon, Maria C, Laios, Konstantinos, Nikolakakis, Ioannis, Papaioannou, Theodore G
Format: Article
Language:English
Subjects:
3-D printers
3D printing
Additive manufacturing
Bioavailability
Clinical trials
Commercial printing industry
Customization
Design
Drug delivery
Drug delivery systems
Drug development
Drug dosages
Drugs
FDA approval
Feasibility
Feasibility studies
Innovations
Lasers
Levetiracetam
Medical innovations
Medical research
Medicine, Experimental
Patients
Pharmaceutical industry
Precision medicine
Printing industry
Product development
Rapid prototyping
Regulatory approval
Review
Technological change
Technology application
Ultraviolet radiation
Vehicles
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Summary:The present investigation evaluates the impact of 3D-printing technology on the design of pharmaceutical drugs, considering the feasibility issues and problems concerning technological, pharmaceutical, and clinical matters. This paper aims to review how 3D printing can modify the traditional manufacturing of drugs with personalized medicine-therapy outcomes being individualized and optimized, hence improving patients' compliance. The historical development of 3D printing from rapid prototyping to advanced pharmaceutical applications is discussed. A comparison is then made between traditional drug manufacturing approaches and the different techniques of 3D printing, including stereolithography, material extrusion, and binder jetting. Feasibility is assessed based on clinical trials and studies evaluating the efficacy, safety, bioavailability, and cost-effectiveness of 3D-printed drugs. Current evidence indicates that material selection, regulatory barriers, and scalability issues are some of the major challenges to be overcome for wider acceptance. Other matters, such as ethical issues concerning patient data privacy, the misuse of 3D-printing technology, and technical complexities related to pharmaceutical 3D printing, are discussed further. Future applications also include bioprinting and in situ printing together with their implications for personalized drug delivery, which will also be discussed. This review stresses that intersectoral collaboration and the updating of regulatory frameworks are a must to overcome the barriers that confront 3D-printing applications in drug development. can could be an opportunity for innovative licensing and manufacturing techniques in pharmaceutical product development that can change the paradigm of personalized medicine through modern printing techniques.
ISSN:2075-4426
2075-4426
DOI:10.3390/jpm14111080