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Abstract
3D printing (3DP) technology is a groundbreaking innovation enabling the creation of custom-fit materials, equipment, and even body parts tailored to individual patient needs. This has the potential to revolutionize the pharmaceutical and healthcare sectors. 3D printing involves layer-by-layer manufacturing, allowing on-demand production with high precision. Currently, it is applied in healthcare for prosthetics, implants, anatomical models, synthetic biology, cell therapy, and dental care. The goal of recent research is to explore various methods of precision medicine, advancements in delivery systems, and the role of 3DP technology in pharmaceutical manufacturing. The use of polymer matrices in 3D printing is also a key focus, along with the customization of 3D printing for drug production. Researchers highlight new developments in drug delivery systems and the fabrication of biomaterials, comparing these with traditional methods. Lastly, the challenges, regulatory aspects, and emerging outcomes of 3D printing technology in medical settings are discussed, underlining its transformative potential and the hurdles it faces in widespread adoption.Top of Form.