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article pdf uploaded. | 18 July 2024 16:20 CEST | Version of Record | https://www.mdpi.com/2072-6694/16/14/2582/pdf |
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Charalampopoulou, A.; Barcellini, A.; Peloso, A.; Vanoli, A.; Cesari, S.; Icaro Cornaglia, A.; Bistika, M.; Croce, S.; Cobianchi, L.; Ivaldi, G.B.; et al. Unlocking the Potential Role of Decellularized Biological Scaffolds as a 3D Radiobiological Model for Low- and High-LET Irradiation. Cancers 2024, 16, 2582. https://doi.org/10.3390/cancers16142582
Charalampopoulou A, Barcellini A, Peloso A, Vanoli A, Cesari S, Icaro Cornaglia A, Bistika M, Croce S, Cobianchi L, Ivaldi GB, et al. Unlocking the Potential Role of Decellularized Biological Scaffolds as a 3D Radiobiological Model for Low- and High-LET Irradiation. Cancers. 2024; 16(14):2582. https://doi.org/10.3390/cancers16142582
Chicago/Turabian StyleCharalampopoulou, Alexandra, Amelia Barcellini, Andrea Peloso, Alessandro Vanoli, Stefania Cesari, Antonia Icaro Cornaglia, Margarita Bistika, Stefania Croce, Lorenzo Cobianchi, Giovanni Battista Ivaldi, and et al. 2024. "Unlocking the Potential Role of Decellularized Biological Scaffolds as a 3D Radiobiological Model for Low- and High-LET Irradiation" Cancers 16, no. 14: 2582. https://doi.org/10.3390/cancers16142582