Innovations in Additive Manufacturing Approaches for the fabrication of Advanced Drug Delivery Platforms, Biomimetics, and Predictive 3D microphysiological Interfaces

Abstract

Additive manufacturing (AM) has emerged as a transformative technology in personalized healthcare, particularly through its applications in targeted drug delivery and development microphysiological systems potentiating a paradigm shift in healthcare towards a personalized intervention. This article explores how AM techniques, such as 3D-printing, enable the creation of highly customized drug delivery systems and complex microphysiological models that can be translated into personalized healthcare solutions. By leveraging the precision and versatility of AM, researchers and clinicians can design drug delivery vehicles tailored to individual patient needs, enhancing therapeutic efficacy and minimizing side effects. Additionally, AM facilitates the development of sophisticated microphysiological systems that simulate human tissues and organs, offering invaluable tools for drug testing, surgical planning, disease modeling, and personalized organ transplantation. This review discusses the latest advancements in such AM technologies, highlights key challenges and opportunities in integrating AM with personalized healthcare, and envisions future directions for research and clinical applications. Through a detailed examination of current methodologies and case studies, the article underscores the potential of AM to revolutionize personalized medicine by providing more effective, individualized treatment solutions and improving our understanding of futuristic healthcare.