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International Journal of Radiation Biology Volume 88, 2012 - Issue 1-2
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Research Article

Track structure calculations on intracellular targets responsible for signal release in bystander experiments with transfer of irradiated cell-conditioned medium

Pavel KundrátHelmholtz Zentrum München, Institute of Radiation Protection, Neuherberg, Germany
&
Werner FriedlandHelmholtz Zentrum München, Institute of Radiation Protection, Neuherberg, GermanyCorrespondence[email protected]
Pages 98-102 | Received 15 Dec 2010, Accepted 03 Jun 2011, Published online: 27 Sep 2011

Citations (17)

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Read on this site (3)

Werner Friedland, Elke Schmitt, Pavel Kundrát, Giorgio Baiocco & Andrea Ottolenghi. (2019) Track-structure simulations of energy deposition patterns to mitochondria and damage to their DNA. International Journal of Radiation Biology 95:1, pages 3-11.
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Pavel Kundrát & Werner Friedland. (2012) Non-linear response of cells to signals leads to revised characteristics of bystander effects inferred from their modelling. International Journal of Radiation Biology 88:10, pages 743-750.
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Carmel Mothersill, Richard W. Smith, Jennifer Fazzari, Fiona McNeill, William Prestwich & Colin B. Seymour. (2012) Evidence for a physical component to the radiation-induced bystander effect?. International Journal of Radiation Biology 88:8, pages 583-591.
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Articles from other publishers (14)

Pavel Kundrát, Werner Friedland & Giorgio Baiocco. (2022) Track Structure-Based Simulations on DNA Damage Induced by Diverse Isotopes. International Journal of Molecular Sciences 23:22, pages 13693.
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Pavel Kundrát, Kateřina Pachnerová Brabcová, Anna Jelínek Michaelidesová, Oldřich Zahradníček, Irina Danilová, Václav Štěpán, Zuzana Jamborová & Marie Davídková. (2022) BORON-ENHANCED BIOLOGICAL EFFECTIVENESS OF PROTON IRRADIATION: STRATEGY TO ASSESS THE UNDERPINNING MECHANISM. Radiation Protection Dosimetry 198:9-11, pages 527-531.
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Pavel Kundrát, Werner Friedland, Andrea Ottolenghi & Giorgio Baiocco. (2021) Coupling Radiation Transport and Track-Structure Simulations: Strategy Based on Analytical Formulas Representing DNA Damage Yields. Frontiers in Physics 9.
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Pavel Kundrát, Werner Friedland, Janine Becker, Markus Eidemüller, Andrea Ottolenghi & Giorgio Baiocco. (2020) Analytical formulas representing track-structure simulations on DNA damage induced by protons and light ions at radiotherapy-relevant energies. Scientific Reports 10:1.
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Yusuke Matsuya, Kohei Sasaki, Yuji Yoshii, Go Okuyama & Hiroyuki Date. (2018) Integrated Modelling of Cell Responses after Irradiation for DNA-Targeted Effects and Non-Targeted Effects. Scientific Reports 8:1.
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Pavel Kundrát & Werner Friedland. (2016) Enhanced release of primary signals may render intercellular signalling ineffective due to spatial aspects. Scientific Reports 6:1.
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Micaela Cunha, Etienne Testa, Olga V. Komova, Elena A. Nasonova, Larisa A. Mel’nikova, Nina L. Shmakova & Michaël Beuve. (2015) Modeling cell response to low doses of photon irradiation: Part 2—application to radiation-induced chromosomal aberrations in human carcinoma cells. Radiation and Environmental Biophysics 55:1, pages 31-40.
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P. Kundrát & W. Friedland. (2015) Mechanistic modelling of radiation-induced bystander effects: Figure 1.. Radiation Protection Dosimetry 166:1-4, pages 148-151.
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H L Byrne, W Domanova, A L McNamara, S Incerti & Z Kuncic. (2015) The cytoplasm as a radiation target: an in silico study of microbeam cell irradiation. Physics in Medicine and Biology 60:6, pages 2325-2337.
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Alessandro Campa, Maria Balduzzi, Valentina Dini, Giuseppe Esposito & Maria Antonella Tabocchini. (2015) The complex interactions between radiation induced non-targeted effects and cancer. Cancer Letters 356:1, pages 126-136.
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F. Semsarha, B. Goliaei, G. Raisali, H. Khalafi & L. Mirzakhanian. (2014) An investigation on the radiation sensitivity of DNA conformations to 60Co gamma rays by using Geant4 toolkit. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 323, pages 75-81.
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W. Friedland & P. Kundrát. 2014. Comprehensive Biomedical Physics. Comprehensive Biomedical Physics 105 142 .
D. Alloni, A. Campa, W. Friedland, L. Mariotti & A. Ottolenghi. (2013) Integration of Monte Carlo Simulations with PFGE Experimental Data Yields Constant RBE of 2.3 for DNA Double-Strand Break Induction by Nitrogen Ions between 125 and 225 keV/μm LET. Radiation Research 179:6, pages 690-697.
Crossref
Carmel Mothersill & Colin Seymour. 2013. Stress-Induced Mutagenesis. Stress-Induced Mutagenesis 199 222 .

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