Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED
Нема приказа
Аутори
Ristić-Fira, AleksandraBulat, Tanja M.
Keta, Otilija D.
Romano, Francesco
Cirrone, Giuseppe Antonio Pablo
Cuttone, Giacomo
Petrović, Ivan M.
Конференцијски прилог
Метаподаци
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The aim of this study is to investigate the behavior of radio-resistant human malignant cells, thus enabling better understanding of radiobiological effects of ions in such a case. Radiation sources such as accelerated continuous ion beams and laser technology-based ultra short radiation sources with energy of around 10 MeV will be used. The HTB140 melanoma cells are chosen since it has been shown that they represent the limit case of cellular radio-resistance among the studied tumour cell lines. These cells are particularly interesting as they provide data on the very edge of inactivation capacity of each beam line that is tested. After exposing the cell monolayers to continuous radiations of low (gamma-rays) and high (protons) linear energy transfer, the kinetics of disappearance of the phosphorylated histone H2AX (gamma-H2AX) foci per cell will be determined. The same procedure will be performed with the pulsed high dose rate protons. Detection and quantification of gamma-H2AX foci ...will be performed by immunohistochemical 3D time-dependent imaging analyses using laser scanning confocal microscopy. Immunoblotting will enable the follow-up of the relation between gamma-H2AX and cell cycle arrest via the p53/p21 pathway. In such a way the spatio-temporal changes on sub-cellular level will be visualized, quantified and compared. These results will show whether there is a difference in the effects on cells between continuous and pulsed irradiation mode. Therefore, they will contribute to the database that might promote pulsed sources for medical treatments of malignant growths.
Извор:
AIP Conference Proceedings, 2013, 1546, 101-104Напомена:
- 2nd MEDical and Multidisciplinary Applications at ELI (ELIMED) Workshop and Panel, Oct 18-19, 2012, Lab Nazl Sud (LNS), Catania, Italy
DOI: 10.1063/1.4816616
ISSN: 0094-243X
WoS: 000324289100017
Scopus: 2-s2.0-84881287413
Колекције
Институција/група
VinčaTY - CONF AU - Ristić-Fira, Aleksandra AU - Bulat, Tanja M. AU - Keta, Otilija D. AU - Romano, Francesco AU - Cirrone, Giuseppe Antonio Pablo AU - Cuttone, Giacomo AU - Petrović, Ivan M. PY - 2013 UR - https://vinar.vin.bg.ac.rs/handle/123456789/7005 AB - The aim of this study is to investigate the behavior of radio-resistant human malignant cells, thus enabling better understanding of radiobiological effects of ions in such a case. Radiation sources such as accelerated continuous ion beams and laser technology-based ultra short radiation sources with energy of around 10 MeV will be used. The HTB140 melanoma cells are chosen since it has been shown that they represent the limit case of cellular radio-resistance among the studied tumour cell lines. These cells are particularly interesting as they provide data on the very edge of inactivation capacity of each beam line that is tested. After exposing the cell monolayers to continuous radiations of low (gamma-rays) and high (protons) linear energy transfer, the kinetics of disappearance of the phosphorylated histone H2AX (gamma-H2AX) foci per cell will be determined. The same procedure will be performed with the pulsed high dose rate protons. Detection and quantification of gamma-H2AX foci will be performed by immunohistochemical 3D time-dependent imaging analyses using laser scanning confocal microscopy. Immunoblotting will enable the follow-up of the relation between gamma-H2AX and cell cycle arrest via the p53/p21 pathway. In such a way the spatio-temporal changes on sub-cellular level will be visualized, quantified and compared. These results will show whether there is a difference in the effects on cells between continuous and pulsed irradiation mode. Therefore, they will contribute to the database that might promote pulsed sources for medical treatments of malignant growths. C3 - AIP Conference Proceedings T1 - Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED VL - 1546 SP - 101 EP - 104 DO - 10.1063/1.4816616 ER -
@conference{ author = "Ristić-Fira, Aleksandra and Bulat, Tanja M. and Keta, Otilija D. and Romano, Francesco and Cirrone, Giuseppe Antonio Pablo and Cuttone, Giacomo and Petrović, Ivan M.", year = "2013", abstract = "The aim of this study is to investigate the behavior of radio-resistant human malignant cells, thus enabling better understanding of radiobiological effects of ions in such a case. Radiation sources such as accelerated continuous ion beams and laser technology-based ultra short radiation sources with energy of around 10 MeV will be used. The HTB140 melanoma cells are chosen since it has been shown that they represent the limit case of cellular radio-resistance among the studied tumour cell lines. These cells are particularly interesting as they provide data on the very edge of inactivation capacity of each beam line that is tested. After exposing the cell monolayers to continuous radiations of low (gamma-rays) and high (protons) linear energy transfer, the kinetics of disappearance of the phosphorylated histone H2AX (gamma-H2AX) foci per cell will be determined. The same procedure will be performed with the pulsed high dose rate protons. Detection and quantification of gamma-H2AX foci will be performed by immunohistochemical 3D time-dependent imaging analyses using laser scanning confocal microscopy. Immunoblotting will enable the follow-up of the relation between gamma-H2AX and cell cycle arrest via the p53/p21 pathway. In such a way the spatio-temporal changes on sub-cellular level will be visualized, quantified and compared. These results will show whether there is a difference in the effects on cells between continuous and pulsed irradiation mode. Therefore, they will contribute to the database that might promote pulsed sources for medical treatments of malignant growths.", journal = "AIP Conference Proceedings", title = "Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED", volume = "1546", pages = "101-104", doi = "10.1063/1.4816616" }
Ristić-Fira, A., Bulat, T. M., Keta, O. D., Romano, F., Cirrone, G. A. P., Cuttone, G.,& Petrović, I. M.. (2013). Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED. in AIP Conference Proceedings, 1546, 101-104. https://doi.org/10.1063/1.4816616
Ristić-Fira A, Bulat TM, Keta OD, Romano F, Cirrone GAP, Cuttone G, Petrović IM. Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED. in AIP Conference Proceedings. 2013;1546:101-104. doi:10.1063/1.4816616 .
Ristić-Fira, Aleksandra, Bulat, Tanja M., Keta, Otilija D., Romano, Francesco, Cirrone, Giuseppe Antonio Pablo, Cuttone, Giacomo, Petrović, Ivan M., "Spatio-Temporal Radiation Biology with Conventionally or Laser-Accelerated Particles for ELIMED" in AIP Conference Proceedings, 1546 (2013):101-104, https://doi.org/10.1063/1.4816616 . .