Background:
Nanotechnology has contributed a great deal to the field of medical science. Smart drugdelivery
vectors, combined with stimuli-based characteristics, are becoming increasingly important. The use of
external and internal stimulating factors can have enormous benefits and increase the targeting efficiency of
nanotechnology platforms. The pH values of tumor vascular tissues are acidic in nature, allowing the improved
targeting of anticancer drug payloads using drug-delivery vectors. Nanopolymers are smart drug-delivery vectors
that have recently been developed and recommended for use by scientists because of their potential targeting
capabilities, non-toxicity and biocompatibility, and make them ideal nanocarriers for personalized drug delivery.
Method:
The present review article provides an overview of current advances in the use of nanoparticles (NPs) as
anticancer drug-delivery vectors.
Results:
This article reviews the molecular basis for the use of NPs in medicine, including personalized medicine,
personalized therapy, emerging vistas in anticancer therapy, nanopolymer targeting, passive and active targeting
transports, pH-responsive drug carriers, biological barriers, computer-aided drug design, future challenges and
perspectives, biodegradability and safety.
Conclusions:
This article will benefit academia, researchers, clinicians, and government authorities by providing a
basis for further research advancements.
Targeting Anticancer Drug Delivery to Pancreatic Cancer Cells Using a Fucose-Bound Nanoparticle Approach
