AGuIX nanoparticles as a promising platform for image-guided radiation therapy
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Robar, James
Tsiamas, Panagiotis
Korideck, Houari
Tillement, Olivier
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https://doi.org/10.1186/s12645-015-0012-3Metadata
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Detappe, Alexandre, Sijumon Kunjachan, Joerg Rottmann, James Robar, Panagiotis Tsiamas, Houari Korideck, Olivier Tillement, and Ross Berbeco. 2015. “AGuIX nanoparticles as a promising platform for image-guided radiation therapy.” Cancer Nanotechnology 6 (1): 4. doi:10.1186/s12645-015-0012-3. http://dx.doi.org/10.1186/s12645-015-0012-3.Abstract
AGuIX are gadolinium-based nanoparticles developed mainly for imaging due to their MR contrast properties. They also have a potential role in radiation therapy as a radiosensitizer. We used MRI to quantify the uptake of AGuIX in pancreatic cancer cells, and TEM for intracellular localization. We measured the radiosensitization of a pancreatic cancer cell line in a low-energy (220 kVp) beam, a standard 6 MV beam (STD) and a flattening filter free 6 MV beam (FFF). We demonstrated that the presence of nanoparticles significantly decreases cell survival when combined with an X-ray beam with a large proportion of low-energy photons (close to the k-edge of the nanoparticles). The concentration of nanoparticles in the cell achieves its highest level after 15 min and then reaches a plateau. The accumulated nanoparticles are mainly localized in the cytoplasm, inside vesicles. We found that the 6 MV FFF beams offer the best trade-off between penetration depth and proportion of low-energy photons. At 10 cm depth, we measured a DEF20 % of 1.30 ± 0.47 for the 6 MV FFF beam, compared to 1.23 ± 0.26 for the 6 MV STD beam. Additional measurements with un-incubated nanoparticles provide evidence that chemical processes might also be contributing to the dose enhancement effect.Other Sources
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4556741/pdf/Terms of Use
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