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A novel 4D printer has been created which can combine organic chemistry, surface science and nanolithography to design surfaces with organic or biological molecules for drug research.
Scientists have shown an innovative new biomaterial made of graphene oxide and proteins could be used to 3D print model vascular structures.
A study has shown that inexpensive nanoparticles can effectively inhibit PD-L1 in cancer cells in the lab and work as well as antibodies, providing a potential alternative immunotherapy.
Copper oxide nanoparticles have successfully killed tumour cells in mice and when combined with immunotherapy, could work as a vaccine for cancer.
Scientists have used nanotechnology to transform healthy immune cells into a drug with enhanced power to kill bacteria to help the immune system fight sepsis.
Endogenous human antibodies can be used to build and dismantle 2D and 3D DNA nanostructures, finds new research.
Produced by Group A Streptococcus, researchers have discovered the S protein, which binds to the red blood cell membrane to avoid being destroyed by immune cells and could be a target for anti-virulence drugs.
MIT engineers have designed tiny robots that can help drug-delivery nanoparticles push their way out of the bloodstream and into a tumour or another disease site.
ITMO University scientists have used nanoparticles and magnetic waves to localise drug delivery in animal models, resulting in no side effects...
A research team has developed a nano-platform technology that works in combination with existing chemotherapeutic drugs that may reverse drug-resistance in renal cell carcinoma...
Researchers have developed a see-through, dual-layered, mesh EEG device which is capable of measuring the electrical activity of individual neurons...
Non-small cell lung cancer Nanoparticles pass the next stage of development in preclinical tests...
Researchers developed an approach and platform to create large amounts of fillable and targeted nanovesicles to deliver drugs to tumours in mice...
Biophysicists in Russia have gained greater understanding about the structure of nanofibrous scaffolds – termed nanoscaffolds – in a study that is researching heart tissue regeneration.
An international team of scientists has developed a water-soluble “warped nanographene”, a flexible molecule that is biocompatible and shows promise for fluorescent cell imaging.
