A new treatment strategy using molecular "smart bombs" to target metastasis with anti-cancer drugs leads to good results using significantly lower doses of toxic chemotherapy, with less collateral damage to sur...
Researchers at North Carolina State University have found that quantum dot nanoparticles can penetrate the skin if there is an abrasion, providing insight into potential workplace concerns for healthcare workers or indiv...
"TIGA," the new high-tech imaging center at the University of Heidelberg founded in cooperation with the Japanese company Hamamatsu, provides deep insights: a high-tech robot makes it possible for the first time to automatically reproduce and evaluate tissue slices only micromillimeters thick - an important aid for researchers in understanding cancer or in following in detail the effect of treatment on cells and tissue.
The first oral, broad-spectrum angiogenesis inhibitor, specially formulated through nanotechnology, shows promising anticancer results in mice, report researchers from Children's Hospital Boston. Findings were published online on June 29 by the journal Nature Biotechnology.
A novel technique for reducing tumors in rats-using nano-sized, oil-based emulsions may be the latest weapon in fighting cancer.
The technique, part of the burgeoning field of nutraceuticals, involves creating nanoemu...
Potential risks from the use of nanomaterials will be explored by three Arizona State University engineering faculty in a project supported by a $400,000 grant from the U.S.Department of Energy Office of Biological and Environmental Research.
NanoBio Corp. announced today that it has been named to the annual FierceBiotech "Fierce 15" list, designating NanoBio as one of the top biotechnology companies of 2008.
The editors of FierceBiotech evaluate...
More than 15 years ago scientists discovered a way to stop a particular gene in its tracks. The Nobel Prize-winning finding holds tantalizing promise for medical science, but so far it has been difficult to apply the technique, known as RNA interference, in living cells.
Scientists can study the biological impacts of engineered nanomaterials on cells within the body with greater resolution than ever because of a procedure developed by researchers at the Department of Energy's Oak Ridge N...
With the NanoTracker, the user can trap and track particles from several µm down to 30nm with the ability to control, manipulate and observe vesicles, endosomes, gene and drug spheres, viruses and bacteria, nanoprobes or -carriers, biomarkers or even whole cells in real time with nanometer precision.
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