Abstract
Personalized medicine aims to tailor drug combination and dosage manufacturing to the specific needs of a patient by taking into consideration its genetic profile, phenotypic response, and pathophysiology. New technologies are needed to enable the rapid manufacturing of custom pharmaceutical tablets in a scalable manner, while meeting quality assurance regulatory standards. 3D Pharming, the use of 3D Printing to directly fabricate personalized pharmaceutical tablets, is under intense development by many investigators due to its unprecedented control for: 1) stability of multiple drugs within a pill; 2) precise dose of each drug; and 3) release kinetics of each component by incorporating designed structures that can modulate dissolution and diffusion profiles. Additionally, it has the potential to scale in order to meet the economics and quality that the pharmaceuticalindustry demands. This article reviews the manufacture of pharmaceutical
tablets through powder bed inkjet 3D printing and fused deposition modeling, the two 3D printing techniques with the greatest progress towards personalized pharmaceutical tablets. The engineering of pills through these two methods, featuring varied dissolution profiles, chemical complexions, dosages, and multiple drugs incorporation, is thoroughly discussed.