Innovations in Drug Delivery: From Microtechnology to Targeted Therapeutics

Abstract

Drug delivery systems are developed to maximize drug efficacy and minimize side effects. As drug delivery technologies improve, the drug becomes safer and more comfortable for patients to use. The study on advanced drug delivery systems aims to increase patient compliance, decrease adverse effects, and improve treatment efficacy. Furthermore, the goal of these systems is to deliver drugs to particular body tissues or cells in a targeted manner, which should enhance treatment outcomes. During the last seven decades, extraordinary progress has been made in drug delivery technologies, such as systems for long-term delivery for months and years, localized delivery, and targeted delivery. In this review, we explain the general principles of several advanced drug delivery systems, their introduction objective, components, mechanism, functioning principle, and application. The implantable polymeric drug delivery system, cardiac pacemaker, prefilled dual chamber device, closed-loop insulin delivery system, hepatic infusion pumps, MEMS devices, inhaled insulin devices, and hydrogel-forming microneedles are among the medical devices that are being discussed in this article as being at the forefront of technological innovation in medicine. For a variety of medical diseases, these devices provide minimally invasive procedures, real-time monitoring, and more accurate drug delivery. The scope of medical treatment and monitoring procedures is changing due to the integration of cutting-edge materials and technology. By increasing convenience, decreasing adverse effects, and increasing efficacy, these cutting-edge solutions directly help patients. Furthermore, the adoption of advanced drug delivery systems has demonstrated promising results in enhancing patient compliance and treatment outcomes. By increasing the bioavailability and pharmacokinetics of pharmaceuticals, these systems have the potential to transform the fields of drug delivery and personalized medicine. However, the field also faces challenges in overcoming physicochemical barriers and biological unknowns. Challenges facing the advanced drug delivery systems industry include complicated formulation requirements, regulatory obstacles, and the need for new technologies to enhance patient outcomes and therapeutic efficacy. Strict intellectual property rules and competition from generic drug manufacturers can also directly hinder the expansion and financial success of businesses in this field. To progress, the field should focus on translatable research ideas, develop realistic goals, and most importantly, diversify technologies. This emphasis on diversity will inspire new ideas and approaches, leading to the development of more effective, patient-friendly drug delivery systems.