Glioblastoma tumors form from brain cells called astrocytes and are the most common kind of brain cancer, affecting roughly three in 100,000 people in the U.S. Glioblastoma generally progresses very quickly and is almost always fatal. There are no curative treatments for the disease, in part because delivering medicines to the brain remains extremely challenging

“We wanted to change this reality and develop a noninvasive treatment that activates the immune response to attack glioblastoma,” said Alexander H. Stegh, Ph.D., a professor and vice chair of research in the WashU Medicine Taylor Family Department of Neurosurgery and co-corresponding author of the study. Stegh also is research director of The Brain Tumor Center at Siteman Cancer Center, based at Barnes-Jewish Hospital and WashU Medicine. “With this research, we’ve shown that precisely engineered nanostructures, called spherical nucleic acids, can safely and effectively activate powerful immune pathways within the brain. This redefines how cancer immunotherapy can be achieved in otherwise difficult-to-access tumors.”