According to a new study, neural activity can stimulate the growth of high-grade glioma brain cancers.
A new study reports panobinostat and other gene regulating drugs may prove helpful in the treatment of DIPG.
Researchers use PET neuroimaging technology to help determine which children with DIPG brain cancer will benefit best from Avastin.
Based on a large scale meta analysis, researchers report striking differences between children's high grade gliomas, so much so that they could be split into 10 different subtypes based on different characteristics. The findings have important implications for developing new and individualized treatments.
A fatal brain stem tumor was cleared by injecting it with engineered T-cells that recognized cancer and targeted it for destruction in mouse models, researchers report.
A small molecule, 6-thio-dG, may provide a new approach to treating currently untreatable pediatric brain cancers, researchers report.
DIPG cancer cells exposed to MI-2 fail to maintain healthy levels of cholesterol and die quickly, by inhibiting lanosterol synthase. Additionally, while MI-2 destroys glioma cancer cells, the drug does not damage healthy brain cells.
Researchers have discovered a pair of drugs that work together to kill cancer cells and counter genetic mutations that cause diffuse midline gliomas.