Shubham Singh, Mohit Kumar, Deeksha Choudhary, Dikshant -, Devesh Kumar, Shruti Chopra and Amit Bhatia* Pages 1 - 28 ( 28 )
Antibiotic resistance poses a significant threat to public health, rendering many life-saving medications ineffective as pathogenic microorganisms develop resistance spontaneously. This results in infections that are difficult to treat, with limited or no treatment options. Traditionally, addressing this challenge involves developing new pharmaceuticals, a lengthy and costly process. However, a more efficient approach lies in improving drug delivery methods, which can be quicker and more economical. In recent years, 3D printing technology has emerged as a groundbreaking, industry-accepted technique that enables the affordable, simple, and rapid manufacturing of pharmaceuticals. This technology supports iterative design-build-test cycles, facilitating the development of a wide range of products, from simple 3D-printed tablets to complex medical devices, tailored for diverse applications. This article explores innovative strategies in the search for novel antibiotics, the development of more effective preventative measures, and, crucially, a deeper understanding of the ecology of antibiotics and antibiotic resistance. It provides an overview of these issues' historical and current status, emphasizing the potential of 3D printing to address antibiotic resistance. Additionally, it discusses how to expand conceptual frameworks in response to recent advancements in chemotherapy, antimicrobials, and antibiotic resistance. The article highlights various notable efforts in utilizing 3D printing to develop antimicrobial dosage forms and medical devices, offering insights into future possibilities.
Antibiotics, 3D printing, antibiotic resistance, antimicrobial, microorganism, challenges, future perspective.