Pajonk said the study, published in the early online edition of the journal BMC Cancer, could result in changes in the way radiation therapy is given to patients with these deadly brain cancers.
“Our study found that if you irradiated a part of the brain that was not necessarily part of the tumor the patients did better,” Pajonk said. “We have been struggling for years to come up with new combinations of drugs and targeted therapies that would improve survival for patients with glioblastoma. It may be that by re-shaping our radiation techniques we can extend survival for these patients.”
The retrospective study focused on the cases of 55 adult patients with grade 3 or grade 4 glioblastomas who received radiation at UCLA between February 2003 and May 2009. Pajonk said a prospective study is needed to confirm the results.
There is some evidence that many if not all cancers may spring from stem cells or progenitor cells that normally repair damage to the body, but that somehow become mutated and transform into cancer. In this case, Pajonk said the neural stem cell niche, called the periventricular region of the brain, may also be harboring stem cells that have transformed into brain cancer stem cells. However, the niche serves as a sort of safe harbor for the cancer stem cells, keeping them away from the site of the tumor but able to re-grow it once it’s removed and the malignant areas of the brain have been treated.
Pajonk theorizes that the brain cancer stem cells in the patients whose niches were irradiated with higher doses may have been damaged or eliminated, giving these patients more time before their cancer recurred.
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Glioblastomas are the deadliest form of brain cancer. Surgery, chemotherapy and radiation are not usually effective and life expectancy is about 12 to 18 months. New and more effective treatments are needed to help this patient population, Pajonk said.
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The study was funded by National Cancer Institute.
Source-Medindia
