Current approaches in smart nano-inspired drug delivery: A narrative review

Sri Harsha Boppana; L V Simhachalam Kutikuppala; Sushil Sharma; Madhavrao C; Gaurav Rangari; Arup Kumar Misra; Venkataramana Kandi; Snehasish Mishra; Puneet Kumar Singh; Ali A Rabaan; Ranjan K Mohapatra; Md Kudrat-E-Zahan

doi:10.1002/hsr2.2065

Current approaches in smart nano-inspired drug delivery: A narrative review

Health Sci Rep. 2024 Apr 24;7(4):e2065. doi: 10.1002/hsr2.2065. eCollection 2024 Apr.

Affiliations

¹ Department of Anesthesia and Critical Care Johns Hopkins School of Medicine Baltimore Maryland USA.
² Department of Pharmacology All India Institute of Medical Sciences (AIIMS) Mangalagiri Andhra Pradesh India.
³ Department of Microbiology Prathima Institute of Medical Sciences Karimnagar Telangana India.
⁴ School of Biotechnology, Campus-11 KIIT Deemed-to-be-University Bhubaneswar Odisha India.
⁵ Molecular Diagnostic Laboratory Johns Hopkins Aramco Healthcare Dhahran Saudi Arabia.
⁶ College of Medicine Alfaisal University Riyadh Saudi Arabia.
⁷ Department of Public Health and Nutrition The University of Haripur Haripur Pakistan.
⁸ Department of Chemistry Government College of Engineering Keonjhar Odisha India.
⁹ Department of Chemistry Rajshahi University Rajshahi Bangladesh.

Abstract

Background and aim: The traditional drug delivery approach involves systemic administration of a drug that could be nonspecific in targeting, low on efficacy, and with severe side-effects. To address such challenges, the field of smart drug delivery has emerged aiming at designing and developing delivery systems that can target specific cells, tissues, and organs and have minimal off-target side-effects.

Methods: A literature search was done to collate papers and reports about the currently available various strategies for smart nano-inspired drug delivery. The databases searched were PubMed, Scopus, and Google Scholar. Based on selection criteria, the most pertinent and recent items were included.

Results: Smart drug delivery is a cutting-edge revolutionary intervention in modern medicines to ensure effective and safe administration of therapeutics to target sites. These hold great promise for targeted and controlled delivery of therapeutic agents to improve the efficacy with reduced side-effects as compared to the conventional drug delivery approaches. Current smart drug delivery approaches include nanoparticles, liposomes, micelles, and hydrogels, each with its own advantages and limitations. The success of these delivery systems lies in engineering and designing them, and optimizing their pharmacokinetics and pharmacodynamics properties.

Conclusion: Development of drug delivery systems that can get beyond various physiological and clinical barriers, as observed in conventionally administered chemotherapeutics, has been possible through recent advancements. Using multifunctional targeting methodologies, smart drug delivery tries to localize therapy to the target location, reduces cytotoxicity, and improves the therapeutic index. Rapid advancements in research and development in smart drug delivery provide wider and more promising avenues to guarantee a better healthcare system, improve patient outcomes, and achieve higher levels of effective medical interventions like personalized medicine.

Keywords: hydrogels; liposomes; micelles; nanoparticles; smart drug delivery; therapeutics.