Nanosponges-Road Less Explored Changing Drug Delivery Approach: An Explicative Review.

Abstract

Nanotechnology exhibits a wide range of applications in the domain of disease therapy, diagnosis, biological detection, and environmental safeguards. The cross-linked polymeric nanosponges (NSs) are a nanoscale drug carrier system with a 3D porous structure and high entrapment efficacy. NSs up to the fourth generation are currently accessible and can serve as a delivery system for both hydrophilic and hydrophobic drugs. The delivery system exhibits superiority over alternative methods due to its ability to achieve controlled and targeted drug delivery. The colloidal structure of NSs facilitates the encapsulation of a wide range of agents such as proteins and peptides, enzymes, antineoplastic drugs, volatile oil, vaccines, DNA, etc. NSs efficiently overcome the challenges associated with drug toxicity and poor aqueous solubility. NS formulations have been explored for various applications like gaseous encapsulation, enzyme immobilization, antifungal therapy, poison absorbent, water purification, etc. This review provides a comprehensive analysis regarding methods of synthesis, distinct polymeric NSs, mechanism of drug release, factors affecting NS development, applications, and patents filed in the field of NSs. Herein, the recently developed NS formulations, their potential in cancer therapy, and current progressions of NS for SARS-CoV-2 management are also deliberated with special attention, focusing on the significant challenges and future directions.