A team of researchers from NUS has developed a novel method to enhance the precision of cancer treatment using gold ...

Using nanoparticles thinner than human hair, loaded with a drug to activate immune cells, a team led by researchers from ...

The images before and after quenching of CMS-NPs-Cy3 (see the 'Preparation of fluorescent mesoporous silica nanoparticles' section) were processed by Particle-in-cell-3D using different values for ...

Researchers also engineered a specific type of immune cell—macrophages—to carry the nanoparticles to the tumor site. Macrophages are naturally attracted to tumors, and when loaded with ...

A fluorescence filter is placed between the cell channel and the microscope ... Sample preparation: The nanoparticle sample is diluted to an appropriate concentration and loaded into the sample ...

Researchers encapsulated Bmi-1 siRNA within liposomes, attaching AS1411 to ensure the nanoparticles specifically bind to tumor cells. The resulting particles demonstrated a drug-loading capacity ...

The key to that scientific leap? Nanoparticles, tiny technology that’s able to carry tumor-targeting genes directly to immune cells still within the body and program them to destroy cancer. In a proof ...

The researchers developed biodegradable polymeric nanoparticles ... vessels formed by cancer cells to supply them with nutrients and oxygen. The researchers loaded the platform with two pairs ...

[126] 3T3 fibroblast cells containing magnetic iron/platinum nanoparticles were seeded along ... facilitated transport of magnetic carriers loaded with drugs. Conditions including carrier size ...