Chemodynamic therapy based on the Fenton-like catalysis ability of Fe3O4 has the
advantages of no involvement of chemical drugs and minimal adverse effects as well as the …

Metal nanoparticles are of increasing interest with respect to radiosensitization. The physical
mechanisms of dose enhancement from X-rays interacting with nanoparticles has been well …

Introduction Occurrence of multiple brain metastases is a critical evolution of many cancers
with significant neurological and overall survival consequences, despite new targeted …

Nanocrystal surface chemistry is a pivotal element in the synthesis and application of
nanocrystals. This perspective focuses on colloidal nanocrystals, capped with organic …

In this review, we discuss Nanotechnology models, which have been developed recently in
cancer treatment. Nanotechnology manipulates matter at the atomic and molecular scale to …

Radiotherapy is a key pillar of solid cancer treatment. Despite high level of conformal dose
deposition, radiotherapy is limited due to co-irradiation of organs-at risk and subsequent …

Based on the ionizing radiation applied to the malignant tumor tissue, radiation therapy (RT)
is the frequently-used non-surgical approach for cancer treatment. Hafnium Oxide (HfO 2) …

Despite their clinical success in drug delivery applications, the potential of theranostic
nanomedicines is hampered by mechanistic uncertainty and a lack of science-informed …

Liver cancer is one of the most common cancers worldwide and is also one of the most
difficult cancers to treat, resulting in almost one million deaths per year, and the danger of …

Nanoparticles (NPs) have been increasingly studied for radiosensitization. The principle of
NPs radio-enhancement is to use high-atomic number NPs (eg gold, hafnium, bismuth and …