The advent of genome editing has transformed the therapeutic landscape for several
debilitating diseases, and the clinical outlook for gene therapeutics has never been more …

This review aims to provide a systemic analysis of the in vivo, as well as subcellular, fate of
polymeric micelles (PMs), starting from the entry of PMs into the body. Few PMs are able to …

Polymeric micelles are demonstrating high potential as nanomedicines capable of
controlling the distribution and function of loaded bioactive agents in the body, effectively …

Nanocarrier-based drug delivery systems hold impressive promise for biomedical
application because of their excellent water dispersibility, prolonged blood circulation time …

Abstract Development of drug‐delivery systems that selectively target neoplastic cells has
been a major goal of nanomedicine. One major strategy for achieving this milestone is to …

The administration of drugs, as a main challenge of pharmaceutical and medicinal
applications, has certainly benefited from the application of synthetic polymers. However …

Polymeric vehicles are versatile tools for therapeutic gene delivery. Many polymers—when
assembled with nucleic acids into vehicles—can protect the cargo from degradation and …

For the longest time, the field of nucleic acid delivery has remained skeptical whether or not
polycationic drug carrier systems would ever make it into clinical practice. Yet, with the …

The current medical reality of cancer gene therapy is reflected by more than ten approved
products on the global market, including oncolytic and other viral vectors and CAR T-cells as …

Angiogenesis is a process of generation of de-novo blood vessels from already existing
vasculature. It has a crucial role in different physiological process including wound healing …