In the biomedical area, the interdisciplinary field of nanotechnology has the potential to bring
numerous unique applications, including better tactics for cancer detection, diagnosis, and …

Nanomaterials are currently widely exploited for their potential in the development of novel
cancer therapies, and so far, mainly nanoparticles (NPs) consisting of liposomes and …

Metallic and metallic oxide nanoparticles (NP s) have been increasingly used for various bio‐
applications owing to their unique physiochemical properties in terms of conductivity, optical …

Increasing evidence linking nanoparticles (NPs) with different cellular outcomes necessitate
an urgent need for the better understanding of cellular signalling pathways triggered by NPs …

Nanoparticles are emerging as a useful tool for a wide variety of biomedical, consumer and
instrumental applications that include drug delivery systems, biosensors and environmental …

It has become necessary to accept the clinical reality of therapeutic agents targeting the
cancer-associated immune system. In recent decades, several investigations have …

Nanotechnology advances in cancer therapy applications have led to the development of
nanomaterials that generate cytotoxic reactive oxygen species (ROS) specifically in tumor …

Although much progress has been made in treating cancers, cancer death rates in and
around the United States are still high. Current treatments are either ineffective against some …

The incidence of numerous types of cancer has been increasing over recent years,
representing the second-most frequent cause of death after cardiovascular diseases. Even …

Nanotechnology offers many potential benefits to cancer research through passive and
active targeting, increased solubility/bioavailablility, and novel therapies. However …