World first -- Localized delivery of an anti-cancer drug by remote-controlled microcarriers

Known for being the world's first researcher to have guided a magnetic sphere through a living artery, Professor Martel is announcing a spectacular new breakthrough in the field of nanomedicine. Using a magnetic resonance imaging system, his team successfully guided microcarriers loaded with a dose of anti-cancer drug through the bloodstream of a living rabbit, right up to a targeted area in the liver, where the drug was successfully administered.

Soon, drug delivery that precisely targets without exposing the healthy surrounding tissue to the medication's toxic effects will no longer be an oncologist's dream but a medical reality, thanks to the work of Professor Sylvain Martel, Director of the Nanorobotics Laboratory at Polytechnique Montreal.

Known for being the world's first researcher to have guided a magnetic sphere through a living artery, Professor Martel is announcing a spectacular new breakthrough in the field of . Using a (MRI) system, his team successfully guided microcarriers loaded with a dose of anti-cancer drug through the bloodstream of a living rabbit, right up to a targeted area in the liver, where the drug was successfully administered. This is a medical first that will help improve chemoembolization, a current treatment for liver cancer.

Microcarriers on a mission

The therapeutic magnetic microcarriers (TMMCs) were developed by Pierre Pouponneau, a PhD candidate under the joint direction of Professors Jean-Christophe Leroux and Martel. These tiny agents, made from and measuring 50 micrometers in diameter — just under the breadth of a hair — encapsulate a dose of a therapeutic agent (in this case, doxorubicin) as well as magnetic nanoparticles. Essentially tiny magnets, the nanoparticles are what allow the upgraded MRI system to guide the microcarriers through the blood vessels to the targeted organ. During the experiments, the TMMCs injected into the bloodstream were guided through the hepatic artery to the targeted part of the liver where the drug was progressively released. The results of these in-vivo experiments have recently been published in the prestigious journal Biomaterials and the patent describing this technology has just been issued in the United States.

More information: Pouponneau, P., Leroux, J.-C., Soulez, G., Gaboury, L. and Martel, S. (2011). Co-encapsulation of magnetic nanoparticles and doxorubicin into biodegradable microcarriers for deep tissue targeting by vascular MRI navigation. Biomaterials. Volume 32, Issue 13, May 2011, Pages 3481-3486. DOI:10.1016/j.biomaterials.2010.12.059

Provided by Polytechnique Montreal

Citation: World first -- Localized delivery of an anti-cancer drug by remote-controlled microcarriers (2011, March 16) retrieved 29 March 2024 from https://phys.org/news/2011-03-world-localized-delivery-anti-cancer.html
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