Researchers unveil a targeted approach that turns a tumor’s own chemistry against it, opening a new path in cancer research.
Pancreatic cancer is considered one of the deadliest cancers because it is often diagnosed late and is difficult to treat.
Graphic illustration showing sugar-coated nanoparticles crossing the blood-brain barrier to treat glioblastoma. (Parinaz ...
Researchers at Oregon State University have developed a technique for simultaneously treating lung cancer and a serious muscle-wasting condition that often accompanies it. The study, published in the ...
A promising cancer treatment strategy called cuproptosis, which uses copper-dependent cell death to eliminate tumor cells, ...
A new experimental treatment may have found a way to outsmart glioblastoma’s toughest defense: the blood-brain barrier.
Tiny silica nanoparticles engineered to seek out prostate cancer caused tumor cells to self-destruct and supercharged the ...
Pancreatic cancer is considered one of the most lethal cancer because it is often diagnosed late and is difficult to treat.
Using its SARAH Nanoparticles (SaNP) activated by an electromagnetic induction system (EIS), New Phase aims to safely and effectively destroy cancer cells through controlled heat in a process known as ...
Researchers have created a new kind of nanoparticle that could make ultrasound-based cancer treatments more effective and safer, while also helping prevent tumors from coming back. The study, ...
Nanoparticle‐mediated thermal therapy harnesses the unique optical, magnetic and chemical characteristics of nanoscale constructs to generate controlled hyperthermia within tumour tissues. Such ...
Nanoparticle-mediated hyperthermia for cancer therapy is a growing area of cancer nanomedicine because of the potential for localized and targeted destruction of cancer cells. Localized hyperthermal ...