A Novel Anti-Cancer Chemotherapeutic Agent Inhibits Glioblastoma Growth and Radiation Resistance
This potential chemotherapeutic agent to treat glioblastoma is a novel small molecule inhibitor.
Glioblastoma is a primary brain tumor with dismal survival rates, even after treatment with surgery, chemotherapy and radiation. A small subpopulation of tumor cells — glioma stem cells — is responsible for glioblastoma’s tumorigenesis, treatment resistance and subsequent tumor recurrence.
A collaborative team of neuro-oncology surgeon/scientists — led by Ichiro Nakano, M.D., Ph.D., University of Alabama at Birmingham, and Maode Wang, M.D., Xi’an Jiaotong University, Xi’an, China — has discovered a unique and previously unidentified molecular mechanism that maintains glioma stem cells, and they have tested it as a potential therapeutic target in glioblastoma, using a novel small molecule inhibitor they designed and synthesized.
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2019 Managing Coding and Reimbursement Challenges
Aug. 22-24, 2019; Rosemont, Ill.
2019 From Cranial to Spine: An Overview of Neurosurgical Topics for the Advanced Practice Provider
Aug. 28-31, 2019; Orlando, Fla.
Sept. 8-11, 2019; Leuven, Belgium
2019 WFNS Special World Congress
Sept. 9-12, 2019; Beijing
18th Congress of International Society of Craniofacial Surgery
Sept. 16-19, 2019; Paris