Chennai: Glioblastoma multiforme (also called glioblastoma) is the most common and aggressive form of primary brain tumour and its the most common type of malignant brain tumour among adults. With its aggressive nature and survival rate of only five years Glioblastoma is notoriously hard to treat using current regimens that rely on surgery radiation chemotherapy and their combinations. Now researchers have developed a new glioma-targeted nano-therapeutic that will only address tumour cells offering increased effectiveness and reduced side effects. Targeted delivery of anti-cancer drug to a localised tumour site has shown to improve the effectiveness of treatment as it concentrates drug at their site of action and thus reducing side effects at other parts. According to Sheereen Majd assistant professor of biomedical engineering at the University of Houston Two of the major challenges in the treatment of gliomas include poor transport of chemotherapeutics across the blood brain barrier and undesired side effects of these therapeutics on healthy tissues. To get enough medicine across the blood brain barrier a high dosage of medication is required but that introduces more toxicity into the body and can cause more problems. Published in Advanced Healthcare Materials the study reported a new glioma-targeted nano-therapeutic that will only address tumour cells offering increased effectiveness and reduced side effects. An iron chelator known as Dp44mT (Di-2-pyridylketone-44-dimethyl-3-thiosemicarbazone) is an effective medication known to inhibit the progression of tumors but had not been used against brain tumours prior to this study. The chelator works to pull out the overabundance of iron needed by cancer cells thus starving them. Using clues from the tumors themselves Majd developed a Dp44mT-loaded nano-carrier that would be drawn to glioma tumors which present many IL13 (Interluken) receptors. Because the IL13 receptors are abundant she added IL13 ligands onto her FDA-approved biodegradable polymer carrier (with the Dp44mT inside) so the receptors would lure the ligands thus receiving the medicine. Prior to her new carrier the Dp44mT drug would be administered but could go anywhere in the body even places it is not meant to go. “Its like an envelope with no address on it. It can land anywhere and with toxins inside it could kill anything. Now with our targeted delivery we put an address on the package and it goes directly to the cancer cells” said Majd.

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