"Over the past decades, we’ve had great success in treating breast cancer, and the 15-year survival rate is now 77 percent," said study leader David J. Brenner, PhD, director of CUMC’s Center for Radiological Research and the Higgins Professor of Radiation Biophysics. "Unfortunately, breast cancer survivors have a several times higher risk of developing cancer in their other breast, compared with healthy women of the same age." "While drugs such as tamoxifen and aromatase inhibitors can reduce the risk somewhat, at least for women with estrogen receptor-positive tumors, the long-term risks of a second breast cancer in the unaffected breast remain high. …

Small molecule shows promise as anti-cancer therapy

In a study described in the January 13 issue of Cancer Cell, Marikki Laiho, M.D., Ph.D., and her colleagues say their work focused on the ability of a chemical dubbed BMH-21 to sabotage the transcription pathway RNA Polymerase pathway (POL I), shutting down the ability of mutant cancer genes to communicate with cells and replicate. Laiho’s research linked the pathway to p53 gene activity. P53 is a tumor suppressor gene, a protein that regulates cell growth, and it is the most frequently mutated suppressor gene in cancer…

Computer-controlled table could direct radiotherapy to tumors while sparing vital organs

Sophisticated computer modelling could be used to slowly move the table — known as a couch — and a radiation source in three dimensions to direct radiation precisely to the patient’s tumor, researchers have suggested. At the moment, a radiotherapy table can be angled during treatment, but there is no way to synchronise its rotation with a moving radiation beam. But with some modifications, an upgraded system could move both the patient and the beam while reducing the radiation dose of healthy tissue…