Glioblastoma multiforme (GBM) is a devastating form of brain cancer that usually results in death within 15 months of diagnosis. Tumor cells at the margins of these brain tumors often invade surrounding tissues, and this means that they can be difficult to remove completely. If a patient is able to undergo surgery, the goal is to remove as many malignant cells as possible without affecting parts of the brain that are necessary for other essential neurological functions. Currently, surgeons have no way of knowing for sure that they’ve removed all of the cancerous cells. But new research could change that.
The day before surgery, a patient would be injected with nanoprobes that migrate to the tumor cells. These nanoprobes don’t affect normal brain tissue. Then, during surgery, the surgeon would use a device that detects these nanoprobes to determine whether they had successfully removed all of the malignant cells. The device looks like a laser pointer, and in laboratory studies with mouse models of human GBM, researchers were able to remove all of the malignant cells from the mice!
This may be ready for human clinical trials relatively quickly, and it’s possible that it could be helpful in the treatment of other types of brain cancer as well. Read more about it here: