@article{goubault:hal-03514563,
TITLE = {Radiosensitizing Fe-Au nanocapsules (hybridosomes®) increase survival of GL261 brain tumor-bearing mice treated by radiotherapy},
AUTHOR = {Goubault, Cl{\'e}ment and Jarry, Ulrich and Bosto{\"e}n, M{\'e}gane and {\'E}liat, Pierre-Antoine and Kahn, Myrtil L and Pedeux, R{\'e}my and Guillaudeux, Thierry and Gauffre, Fabienne and Chevance, Soizic},
URL = {https://univ-rennes.hal.science/hal-03514563},
JOURNAL = {Nanomedicine: Nanotechnology, Biology and Medicine},
PUBLISHER = {Elsevier},
VOLUME = {40},
PAGES = {102499},
YEAR = {2022},
MONTH = Feb, DOI = {10.1016/j.nano.2021.102499},
KEYWORDS = {Glioblastoma ; Nanoparticles ; Hybridosomes® ; Combined therapies ; Radiotherapy ; Chemotherapy ; Mouse Models ; MRI and Bioluminescence ; BBB ; Blood Brain Barrier GBM ; Glioblastoma H® ; Hybridosome® H(Fe) ; Iron oxide Hybridosome® H(Fe Au) ; Iron Oxide and Gold Hybridosome® IR Irradiation MRI ; Magnetic Resonance Imaging NP ; nanoparticle(s) NTA ; Nanoparticle Tracking Analysis ROS ; Reactive Oxygen Species SPION ; iron oxide superparamagnetic nanoparticles TEM ; Transmission Electron Microscopy Glioblastoma ; Chemotherapy Mouse Models ; Blood Brain Barrier ; GBM ; H® ; Hybridosome® ; H(Fe) ; Iron oxide Hybridosome® ; H(Fe ; Au) ; Iron Oxide and Gold Hybridosome® ; IR ; Irradiation ; MRI ; Magnetic Resonance Imaging ; NP ; nanoparticle(s) ; NTA ; Nanoparticle Tracking Analysis ; ROS ; Reactive Oxygen Species ; SPION ; iron oxide superparamagnetic nanoparticles ; TEM},
PDF = {https://univ-rennes.hal.science/hal-03514563/file/Goubaud-2022-Radiosensitizing%20Fe-Au%20Nanocapsules_vSubmitted__NANO-0000102499_S.CHEVANCE.pdf},
HAL_ID = {hal-03514563},
HAL_VERSION = {v1},
}