Payman Rafiepour, Sedigheh Sina & Seyed Mohammad Javad Mortazavi. (2023) A multiscale Monte Carlo simulation of irradiating a typical-size apple by low-energy X-rays and electron beams. Radiation Physics and Chemistry 212, pages 111016.
Crossref
S.M.J. Mortazavi, Payman Rafiepour, S.A.R. Mortazavi, S.M.T. Razavi Toosi, Parya Roshan Shomal & Lembit Sihver. (2023) Radium deposition in human brain tissue: A Geant4-DNA Monte Carlo toolkit study. Zeitschrift für Medizinische Physik.
Crossref
Bruce Faddegon, Eleanor A Blakely, Lucas Burigo, Yair Censor, Ivana Dokic, Naoki Domínguez Kondo, Ramon Ortiz, José Ramos Méndez, Antoni Rucinski, Keith Schubert, Niklas Wahl & Reinhard Schulte. (2023) Ionization detail parameters and cluster dose: a mathematical model for selection of nanodosimetric quantities for use in treatment planning in charged particle radiotherapy. Physics in Medicine & Biology 68:17, pages 175013.
Crossref
Satzhan Sitmukhambetov, Bryan Dinh, Youfang Lai, Edward J Banigan, Zui Pan, Xun Jia & Yujie Chi. (2022) Development and implementation of a metaphase DNA model for ionizing radiation induced DNA damage calculation. Physics in Medicine & Biology 68:1, pages 014001.
Crossref
Marc Benjamin Hahn. (2023) Accessing radiation damage to biomolecules on the nanoscale by particle-scattering simulations. Journal of Physics Communications 7:4, pages 042001.
Crossref
Konstantinos P. Chatzipapas, Ngoc Hoang Tran, Milos Dordevic, Sara Zivkovic, Sara Zein, Wook‐Geun Shin, Dousatsu Sakata, Nathanael Lampe, Jeremy M. C. Brown, Aleksandra Ristic‐Fira, Ivan Petrovic, Ioanna Kyriakou, Dimitris Emfietzoglou, Susanna Guatelli & Sébastien Incerti. (2023) Simulation of DNA damage using Geant4‐DNA: an overview of the “molecularDNA” example application. Precision Radiation Oncology 7:1, pages 4-14.
Crossref
Kelly D. Orcutt, Kelly E. Henry, Christine Habjan, Keryn Palmer, Jack Heimann, Julie M. Cupido, Vijay Gottumukkala, Derek D. Cissell, Morgan C. Lyon, Amira I. Hussein, Dijie Liu, Mengshi Li, Frances L. Johnson & Michael K. Schultz. (2022) Dosimetry of [212Pb]VMT01, a MC1R-Targeted Alpha Therapeutic Compound, and Effect of Free 208Tl on Tissue Absorbed Doses. Molecules 27:18, pages 5831.
Crossref
Payman Rafiepour, Sedigheh Sina & Seyed Mohammad Javad Mortazavi. (2022) Inactivation of SARS-CoV-2 by charged particles for Future Vaccine Production Applications: A Monte Carlo study. Radiation Physics and Chemistry 198, pages 110265.
Crossref
Youssef Lamghari, Huizhong Lu & M'hamed Bentourkia. (2022) DNA damage by radiation as a function of electron energy and interaction at the atomic level with Monte Carlo simulation. Zeitschrift für Medizinische Physik.
Crossref
Tabea Pfuhl, Thomas Friedrich & Michael Scholz. (2022) A double‐strand‐break model for the relative biological effectiveness of electrons based on ionization clustering. Medical Physics 49:8, pages 5562-5575.
Crossref
José Ramos-Méndez, Omar García-García, Jorge Domínguez-Kondo, Jay A LaVerne, Jan Schuemann, Eduardo Moreno-Barbosa & Bruce Faddegon. (2022) TOPAS-nBio simulation of temperature-dependent indirect DNA strand break yields. Physics in Medicine & Biology 67:14, pages 145007.
Crossref
Hossein Moeini & Mojtaba Mokari. (2022) DNA damage and microdosimetry for carbon ions: Track structure simulations as the key to quantitative modeling of radiation‐induced damage. Medical Physics 49:7, pages 4823-4836.
Crossref
Kun Zhu, Chun Wu, Xiaoyu Peng, Xuantao Ji, Siyuan Luo, Yuchen Liu & Xiaodong Wang. (2022) Nanoscale Calculation of Proton-Induced DNA Damage Using a Chromatin Geometry Model with Geant4-DNA. International Journal of Molecular Sciences 23:11, pages 6343.
Crossref
Ciaran A. J. O’Hare, Vassili G. Matsos, Joseph Newton, Karl Smith, Joel Hochstetter, Ravi Jaiswar, Wunna Kyaw, Aimee McNamara, Zdenka Kuncic, Sushma Nagaraja Grellscheid & Céline Bœhm. (2022) Particle detection and tracking with DNA. The European Physical Journal C 82:4.
Crossref
Sofia Kolovi, Giovanna-Rosa Fois, Sarra Lanouar, Patrick Chardon, Didier Miallier, Guillaume Rivrais, Elisabeth Allain, Lory-Anne Baker, Celine Bailly, Aude Beauger, David-Georges Biron, Yihua He, Guillaume Holub, Anne-Helene Le Jeune, Clarisse Mallet, Herve Michel, Gilles Montavon, Benoit Schoefs, Claire Sergeant, Lydia Maigne & Vincent Breton. (2022) Radiation exposure of microorganisms living in radioactive mineral springs. EPJ Web of Conferences 261, pages 04001.
Crossref
Youssef Lamghari, Huizhong Lu & M’hamed Bentourkia. 2022. Bioinformatics and Biomedical Engineering. Bioinformatics and Biomedical Engineering
3
15
.
Ioanna Kyriakou, Dousatsu Sakata, Hoang Ngoc Tran, Yann Perrot, Wook-Geun Shin, Nathanael Lampe, Sara Zein, Marie Claude Bordage, Susanna Guatelli, Carmen Villagrasa, Dimitris Emfietzoglou & Sébastien Incerti. (2021) Review of the Geant4-DNA Simulation Toolkit for Radiobiological Applications at the Cellular and DNA Level. Cancers 14:1, pages 35.
Crossref
N D-Kondo, E Moreno-Barbosa, V Štěphán, K Stefanová, Y Perrot, C Villagrasa, S Incerti, B De Celis Alonso, J Schuemann, B Faddegon & J Ramos-Méndez. (2021) DNA damage modeled with Geant4-DNA: effects of plasmid DNA conformation and experimental conditions. Physics in Medicine & Biology 66:24, pages 245017.
Crossref
Z. Ahmadi Ganjeh, M. Eslami-Kalantari & M. Ebrahimi Loushab. (2021) Study of the RBE depth dependence of protons using a damage diagnostic algorithm and its application in proton therapy based on Monte Carlo simulation. Journal of Instrumentation 16:12, pages P12027.
Crossref
K. L. Small, N. T. Henthorn, D. Angal-Kalinin, A. L. Chadwick, E. Santina, A. Aitkenhead, K. J. Kirkby, R. J. Smith, M. Surman, J. Jones, W. Farabolini, R. Corsini, D. Gamba, A. Gilardi, M. J. Merchant & R. M. Jones. (2021) Evaluating very high energy electron RBE from nanodosimetric pBR322 plasmid DNA damage. Scientific Reports 11:1.
Crossref
Zahra Ahmadi Ganjeh, Mohammad Eslami-Kalantari, Mahdy Ebrahimi Loushab & Ali Asghar Mowlavi. (2021) Calculation of direct DNA damages by a new approach for carbon ions and protons using Geant4-DNA. Radiation Physics and Chemistry 179, pages 109249.
Crossref
Jianan Wu, Yaoqin Xie, Luhua Wang & Yuenan Wang. (2020) Monte Carlo simulations of energy deposition and DNA damage using TOPAS-nBio. Physics in Medicine & Biology 65:22, pages 225007.
Crossref
Mojtaba Mokari, Hossein Moeini, Marzieh Soleimani & Elaheh Fereidouni. (2020) Calculation and comparison of the direct and indirect DNA damage induced by low energy electrons using default and CPA100 cross section models within Geant4-DNA. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 480, pages 56-66.
Crossref
Konstantinos P. Chatzipapas, Panagiotis Papadimitroulas, Dimitris Emfietzoglou, Spyridon A. Kalospyros, Megumi Hada, Alexandros G. Georgakilas & George C. Kagadis. (2020) Ionizing Radiation and Complex DNA Damage: Quantifying the Radiobiological Damage Using Monte Carlo Simulations. Cancers 12:4, pages 799.
Crossref
Werner Hofmann, Wei Bo Li, Werner Friedland, Brian W. Miller, Balázs Madas, Manuel Bardiès & Imre Balásházy. (2019) Internal microdosimetry of alpha-emitting radionuclides. Radiation and Environmental Biophysics 59:1, pages 29-62.
Crossref
Sofia Barbieri, Gabriele Babini, Jacopo Morini, Werner Friedland, Manuela Buonanno, Veljko Grilj, David J. Brenner, Andrea Ottolenghi & Giorgio Baiocco. (2019) Predicting DNA damage foci and their experimental readout with 2D microscopy: a unified approach applied to photon and neutron exposures. Scientific Reports 9:1.
Crossref
Azam Zabihi, Sebastien Incerti, Ziad Francis, Ghasem Forozani, Farid Semsarha, Amir Moslehi, Peiman Rezaeian & Mario A. Bernal. (2019) Computational approach to determine the relative biological effectiveness of fast neutrons using the Geant4-DNA toolkit and a DNA atomic model from the Protein Data Bank. Physical Review E 99:5.
Crossref
N. T. Henthorn, J. W. Warmenhoven, M. Sotiropoulos, A. H. Aitkenhead, E. A. K. Smith, S. P. Ingram, N. F. Kirkby, A. L. Chadwick, N. G. Burnet, R. I. Mackay, K. J. Kirkby & M. J. Merchant. (2019) Clinically relevant nanodosimetric simulation of DNA damage complexity from photons and protons. RSC Advances 9:12, pages 6845-6858.
Crossref
J. Schuemann, A. L. McNamara, J. W. Warmenhoven, N. T. Henthorn, K. J. Kirkby, M. J. Merchant, S. Ingram, H. Paganetti, K. D. Held, J. Ramos-Mendez, B. Faddegon, J. Perl, D. T. Goodhead, I. Plante, H. Rabus, H. Nettelbeck, W. Friedland, P. Kundrát, A. Ottolenghi, G. Baiocco, S. Barbieri, M. Dingfelder, S. Incerti, C. Villagrasa, M. Bueno, M. A. Bernal, S. Guatelli, D. Sakata, J. M. C. Brown, Z. Francis, I. Kyriakou, N. Lampe, F. Ballarini, M. P. Carante, M. Davídková, V. Štěpán, X. Jia, F. A. Cucinotta, R. Schulte, R. D. Stewart, D. J. Carlson, S. Galer, Z. Kuncic, S. Lacombe, J. Milligan, S. H. Cho, G. Sawakuchi, T. Inaniwa, T. Sato, W. Li, A. V. Solov'yov, E. Surdutovich, M. Durante, K. M. Prise & S. J. McMahon. (2018) A New Standard DNA Damage (SDD) Data Format. Radiation Research 191:1, pages 76.
Crossref
Mojtaba Mokari, Mohammad Hassan Alamatsaz, Hossein Moeini, Ali Akbar Babaei-Brojeny & Reza Taleei. (2018) Track structure simulation of low energy electron damage to DNA using Geant4-DNA. Biomedical Physics & Engineering Express 4:6, pages 065009.
Crossref
Aimee L McNamara, José Ramos-Méndez, Joseph Perl, Kathryn Held, Naoki Dominguez, Eduardo Moreno, Nicholas T Henthorn, Karen J Kirkby, Sylvain Meylan, Carmen Villagrasa, Sebastien Incerti, Bruce Faddegon, Harald Paganetti & Jan Schuemann. (2018) Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit. Physics in Medicine & Biology 63:17, pages 175018.
Crossref
Mojtaba Mokari, Mohammad Hassan Alamatsaz, Hossein Moeini & Reza Taleei. (2018) A simulation approach for determining the spectrum of DNA damage induced by protons. Physics in Medicine & Biology 63:17, pages 175003.
Crossref
Wei Liu, Zhenyu Tan, Liming Zhang & Christophe Champion. (2018) Investigation on the correlation between energy deposition and clustered DNA damage induced by low-energy electrons. Radiation and Environmental Biophysics 57:2, pages 179-187.
Crossref
J. Schuemann, A. L. McNamara, J. Ramos-Méndez, J. Perl, K. D. Held, H. Paganetti, S. Incerti & B. Faddegon. (2018) TOPAS-nBio: An Extension to the TOPAS Simulation Toolkit for Cellular and Sub-cellular Radiobiology. Radiation Research 191:2, pages 125.
Crossref
Jakub A. Kochan, Emilie C.B. Desclos, Ruben Bosch, Luna Meister, Lianne E.M. Vriend, Haico van Attikum & Przemek M. Krawczyk. (2017) Meta-analysis of DNA double-strand break response kinetics. Nucleic Acids Research 45:22, pages 12625-12637.
Crossref
W. Friedland, E. Schmitt, P. Kundrát, M. Dingfelder, G. Baiocco, S. Barbieri & A. Ottolenghi. (2017) Comprehensive track-structure based evaluation of DNA damage by light ions from radiotherapy-relevant energies down to stopping. Scientific Reports 7:1.
Crossref
Wei Liu, Zhenyu Tan, Liming Zhang & Christophe Champion. (2017) Calculation on spectrum of direct DNA damage induced by low-energy electrons including dissociative electron attachment. Radiation and Environmental Biophysics 56:1, pages 99-110.
Crossref
Aimee McNamara, Changran Geng, Robert Turner, Jose Ramos Mendez, Joseph Perl, Kathryn Held, Bruce Faddegon, Harald Paganetti & Jan Schuemann. (2017) Validation of the radiobiology toolkit TOPAS-nBio in simple DNA geometries. Physica Medica 33, pages 207-215.
Crossref
Małgorzata A. Śmiałek. (2016) Evaluating experimental molecular physics studies of radiation
damage in DNA*. The European Physical Journal D 70:11.
Crossref
H Nikjoo, D Emfietzoglou, T Liamsuwan, R Taleei, D Liljequist & S Uehara. (2016) Radiation track, DNA damage and response—a review. Reports on Progress in Physics 79:11, pages 116601.
Crossref
Stephen J. McMahon, Jan Schuemann, Harald Paganetti & Kevin M. Prise. (2016) Mechanistic Modelling of DNA Repair and Cellular Survival Following Radiation-Induced DNA Damage. Scientific Reports 6:1.
Crossref
Piotr Pater, Gloria Bäckstöm, Fernanda Villegas, Anders Ahnesjö, Shirin A. Enger, Jan Seuntjens & Issam El Naqa. (2016) Proton and light ion RBE for the induction of direct DNA double strand breaks. Medical Physics 43:5, pages 2131-2140.
Crossref
L. Rafat-Motavalli, H. Miri-Hakimabad & E. Bakhtiyari. (2016) Geant4.10 simulation of geometric model for metaphase chromosome. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 372, pages 7-13.
Crossref
Ying Liang, Gen Yang, Feng Liu & Yugang Wang. (2016) Monte Carlo simulation of ionizing radiation induced DNA strand breaks utilizing coarse grained high-order chromatin structures. Physics in Medicine and Biology 61:1, pages 445-460.
Crossref
M. P. Carante, S. Altieri, S. Bortolussi, I. Postuma, N. Protti & F. Ballarini. (2015) Modeling radiation-induced cell death: role of different levels of DNA damage clustering. Radiation and Environmental Biophysics 54:3, pages 305-316.
Crossref
Q.T. Pham, A. Anne, M. Bony, E. Delage, D. Donnarieix, A. Dufaure, M. Gautier, S.B. Lee, P. Micheau, G. Montarou, Y. Perrot, J.I. Shin, S. Incerti & L. Maigne. (2015) Coupling of Geant4-DNA physics models into the GATE Monte Carlo platform: Evaluation of radiation-induced damage for clinical and preclinical radiation therapy beams. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 353, pages 46-55.
Crossref
Ritsuko Watanabe, Shirin Rahmanian & Hooshang Nikjoo. (2015) Spectrum of Radiation-Induced Clustered Non-DSB Damage – A Monte Carlo Track Structure Modeling and Calculations. Radiation Research 183:5, pages 525-540.
Crossref
K. Sankaranarayanan & H. Nikjoo. (2015) Genome-based, mechanism-driven computational modeling of risks of ionizing radiation: The next frontier in genetic risk estimation?. Mutation Research/Reviews in Mutation Research 764, pages 1-15.
Crossref
Marjan Tajik, Amir S.H. Rozatian & Farid Semsarha. (2015) Simulation of ultrasoft X-rays induced DNA damage using the Geant4 Monte Carlo toolkit. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 342, pages 258-265.
Crossref
Kausik Ray & Melissa Stick. 2015. Handbook of Toxicology of Chemical Warfare Agents. Handbook of Toxicology of Chemical Warfare Agents
431
446
.
Piotr Pater, Jan Seuntjens, Issam El Naqa & Mario A. Bernal. (2014) On the consistency of Monte Carlo track structure DNA damage simulations. Medical Physics 41:12, pages 121708.
Crossref
Václav Štěpán & Marie Davídková. (2014) RADAMOL tool: Role of radiation quality and charge transfer in damage distribution along DNA oligomer. The European Physical Journal D 68:8.
Crossref
W. Y. Baek, M. U. Bug & H. Rabus. (2014) Differential elastic electron-scattering cross sections of pyrimidine in the energy range between 20 eV and 1 keV. Physical Review A 89:6.
Crossref
Reza Taleei & Hooshang Nikjoo. (2014) Response to the Letter of Bodgi and Foray: On the coherence between mathematical models of DSB repair and physiological reality. Mutation Research/Genetic Toxicology and Environmental Mutagenesis 761, pages 50-52.
Crossref
H. Nikjoo & T. Liamsuwan. 2014. Comprehensive Biomedical Physics. Comprehensive Biomedical Physics
65
104
.
W. Friedland & P. Kundrát. 2014. Comprehensive Biomedical Physics. Comprehensive Biomedical Physics
105
142
.
M.A. Bernal, D. Sikansi, F. Cavalcante, S. Incerti, C. Champion, V. Ivanchenko & Z. Francis. (2013) An atomistic geometrical model of the B-DNA configuration for DNA–radiation interaction simulations. Computer Physics Communications 184:12, pages 2840-2847.
Crossref
John L. Humm & Hooshang Nikjoo. (2013) David E. Charlton (1936–2013). Radiation Research 180:5, pages 553-555.
Crossref
Krishnaswami Sankaranarayanan, Reza Taleei, Shirin Rahmanian & Hooshang Nikjoo. (2013) Ionizing radiation and genetic risks. XVII. Formation mechanisms underlying naturally occurring DNA deletions in the human genome and their potential relevance for bridging the gap between induced DNA double-strand breaks and deletions in irradiated germ cells. Mutation Research/Reviews in Mutation Research 753:2, pages 114-130.
Crossref
Francesca Ballarini, Saverio Altieri, Silva Bortolussi, Elio Giroletti & Nicoletta Protti. (2013) A Model of Radiation-Induced Cell Killing: Insights into Mechanisms and Applications for Hadron Therapy. Radiation Research 180:3, pages 307-315.
Crossref
W. Xie, J. Li, C. Li, R. Qiu, C. Yan & Z. Zeng. (2013) Comparison of direct DNA strand break simulated with different DNA models. Radiation Protection Dosimetry 156:3, pages 283-288.
Crossref
Jun-Li Li, Chun-Yan Li, Rui Qiu, Cong-Chong Yan, Wen-Zhang Xie, Zhi Zeng & Chuan-Jong Tung. (2013) Comparison of direct DNA strand breaks induced by low energy electrons with different inelastic cross sections. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 311, pages 27-36.
Crossref
S. Incerti, C. Champion, H.N. Tran, M. Karamitros, M. Bernal, Z. Francis, V. Ivanchenko & A. Mantero. (2013) Energy deposition in small-scale targets of liquid water using the very low energy electromagnetic physics processes of the Geant4 toolkit. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 306, pages 158-164.
Crossref
Reza Taleei, Peter M. Girard, Krishnaswami Sankaranarayanan & Hooshang Nikjoo. (2013) The Non-homologous End-Joining (NHEJ) Mathematical Model for the Repair of Double-Strand Breaks: II. Application to Damage Induced by Ultrasoft X Rays and Low-Energy Electrons. Radiation Research 179:5, pages 540-548.
Crossref
Reza Taleei & Hooshang Nikjoo. (2013) The Non-homologous End-Joining (NHEJ) Pathway for the Repair of DNA Double-Strand Breaks: I. A Mathematical Model. Radiation Research 179:5, pages 530-539.
Crossref
Morgane Dos Santos, Carmen Villagrasa, Isabelle Clairand & Sébastien Incerti. (2013) Influence of the DNA density on the number of clustered damages created by protons of different energies. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 298, pages 47-54.
Crossref
Jorge Serment-Guerrero, Matilde Breña-Valle, Magdalena Aguilar-Moreno & Miguel Balcázar. (2012) Evidence of DNA double strand breaks formation in Escherichia coli bacteria exposed to alpha particles of different LET assessed by the SOS response. Applied Radiation and Isotopes 71, pages 66-70.
Crossref
Harald PaganettiHarald Paganetti. 2011. Proton Therapy Physics. Proton Therapy Physics
265
304
.
Werner Friedland, Michael Dingfelder, Pavel Kundrát & Peter Jacob. (2011) Track structures, DNA targets and radiation effects in the biophysical Monte Carlo simulation code PARTRAC. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 711:1-2, pages 28-40.
Crossref
R. Taleei, M. Weinfeld & H. Nikjoo. (2010) A kinetic model of single-strand annealing for the repair of DNA double-strand breaks. Radiation Protection Dosimetry 143:2-4, pages 191-195.
Crossref
C Bousis, D Emfietzoglou, P Hadjidoukas & H Nikjoo. (2010) Monte Carlo single-cell dosimetry of Auger-electron emitting radionuclides. Physics in Medicine and Biology 55:9, pages 2555-2572.
Crossref
Liming Zhang & Zhenyu Tan. (2009) A new calculation on spectrum of direct DNA damage induced by low-energy electrons. Radiation and Environmental Biophysics 49:1, pages 15-26.
Crossref
George Sgouros, John C. Roeske, Michael R. McDevitt, Stig Palm, Barry J. Allen, Darrell R. Fisher, A. Bertrand Brill, Hong Song, Roger W. Howell & Gamal Akabani. (2010) MIRD Pamphlet No. 22 (Abridged): Radiobiology and Dosimetry of α-Particle Emitters for Targeted Radionuclide Therapy. Journal of Nuclear Medicine 51:2, pages 311-328.
Crossref
Akiko Inagaki, Wiggert A. van Cappellen, Roald van der Laan, Adriaan B. Houtsmuller, Jan H.J. Hoeijmakers, J. Anton Grootegoed & Willy M. Baarends. (2009) Dynamic localization of human RAD18 during the cell cycle and a functional connection with DNA double-strand break repair. DNA Repair 8:2, pages 190-201.
Crossref
Hooshang Nikjoo, Dimitris Emfietzoglou, Ritsuko Watanabe & Shuzo Uehara. (2008) Can Monte Carlo track structure codes reveal reaction mechanism in DNA damage and improve radiation therapy?. Radiation Physics and Chemistry 77:10-12, pages 1270-1279.
Crossref
H Nikjoo, S Uehara, D Emfietzoglou & A Brahme. (2008) Heavy charged particles in radiation biology and biophysics. New Journal of Physics 10:7, pages 075006.
Crossref
Lorris Cockerham, Thomas Walden, Cham Dallas, G Mickley & Michael Landauer. 2007. Principles and Methods of Toxicology, Fifth Edition. Principles and Methods of Toxicology, Fifth Edition
897
981
.
Tang Mingli & Yu Zengliang. (2007) Bioeffects of Low Energy Ion Beam Implantation: DNA Damage, Mutation and Gene Transter. Plasma Science and Technology 9:4, pages 513-518.
Crossref
Clemens von Sonntag. 2007.
5
20
.
Václav Štěpán & Marie Davídková. (2006) Significance of 8-oxoG in the spectrum of DNA damages caused by ionising radiation of different quality. Radiation Protection Dosimetry 122:1-4, pages 113-115.
Crossref
Dalong Pang, James E. Rodgers, Barry L. Berman, Sergey Chasovskikh & Anatoly Dritschilo. (2005) Spatial Distribution of Radiation-Induced Double-Strand Breaks in Plasmid DNA as Resolved by Atomic Force Microscopy. Radiation Research 164:6, pages 755-765.
Crossref
Kai Chen, S. James Adelstein & Amin I. Kassis. (2004) Molecular modeling of the interaction of iodinated Hoechst analogs with DNA: implications for new radiopharmaceutical design. Journal of Molecular Structure: THEOCHEM 711:1-3, pages 49-56.
Crossref
Hooshang Nikjoo & Shuzo Uehara. 2003. Charged Particle and Photon Interactions with Matter. Charged Particle and Photon Interactions with Matter.
Elzbieta Pastwa, Ronald D. Neumann, Katherina Mezhevaya & Thomas A. Winters. (2003) Repair of Radiation-Induced DNA Double-Strand Breaks is Dependent upon Radiation Quality and the Structural Complexity of Double-Strand Breaks. Radiation Research 159:2, pages 251-261.
Crossref
Björn Rydberg, Lawrence Heilbronn, William R. Holley, Markus Löbrich, Cary Zeitlin, Aloke Chatterjee & Priscilla K. Cooper. (2002) Spatial Distribution and Yield of DNA Double-Strand Breaks Induced by 3–7 MeV Helium Ions in Human Fibroblasts. Radiation Research 158:1, pages 32-42.
Crossref
L.De Nardo, A Alkaa, C Khamphan, V Conte, P Colautti, P Ségur & G Tornielli. (2002) A detector for track-nanodosimetry. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 484:1-3, pages 312-326.
Crossref
H. Nikjoo, P. O'Neill, W. E. Wilson & D. T. Goodhead. (2001) Computational Approach for Determining the Spectrum of DNA Damage Induced by Ionizing Radiation. Radiation Research 156:5, pages 577-583.
Crossref
Martin H. Schneiderman, Kurt G. Hofer & G. Sue Schneiderman. (2001) Targets for Radiation-Induced Cell Death: When DNA Damage Doesn't Kill. Radiation Research 155:4, pages 529-535.
Crossref
Mustapha Benrahmoune, Abdelali Filali-Mouhim & Jean-Paul Jay-Gerin. (2001) Couplage électronique et transferts de charges dans l'ADN : étude du contrôle énergétique. Canadian Journal of Physiology and Pharmacology 79:2, pages 122-129.
Crossref
P. O'Neill. 2001. Radiation Chemistry - Present Status and Future Trends. Radiation Chemistry - Present Status and Future Trends
585
622
.
F.A Cucinotta, J.W Wilson, J.R Williams & J.F Dicello. (2000) Analysis of MIR-18 results for physical and biological dosimetry: radiation shielding effectiveness in LEO. Radiation Measurements 32:3, pages 181-191.
Crossref
F. A. Cucinotta, H. Nikjoo & D. T. Goodhead. (2000) Model for Radial Dependence of Frequency Distributions for Energy Imparted in Nanometer Volumes from HZE Particles. Radiation Research 153:4, pages 459-468.
Crossref
M Biaggi, F Ballarini, W Burkard, E Egger, A Ferrari & A Ottolenghi. (1999) Physical and biophysical characteristics of a fully modulated 72 MeV therapeutic proton beam: model predictions and experimental data. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 159:1-2, pages 89-100.
Crossref
M Folkard, K M Prise, B Brocklehurst & B D Michael. (1999) DNA damage induction in dry and hydrated DNA by synchrotron radiation. Journal of Physics B: Atomic, Molecular and Optical Physics 32:11, pages 2753-2761.
Crossref
W. C. Parke. (1997) Kinetic model of random DNA cleavage by radiation. Physical Review E 56:5, pages 5819-5822.
Crossref
G. Taucher-Scholz, J. Heilmann & G. Kraft. (1996) Induction of DNA strand breaks by heavy ions. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 107:1-4, pages 318-322.
Crossref
A. Chetioui, L. Guiraud, I. Despiney & L. Sabatier. (1996) K-ionization and biological effect. Advances in Space Research 18:1-2, pages 15-29.
Crossref
Jürgen Kiefer, Karin Schenk-Meuser & Michael Kost. 1996. Biological and Medical Research in Space. Biological and Medical Research in Space
300
367
.
A. Ottolenghi, M. Merzagora, L. Tallone, M. Durante, H. G. Paretzke & W. E. Wilson. (1995) The quality of DNA double-strand breaks: A Monte Carlo simulation of the end-structure of strand breaks produced by protons and alpha particles. Radiation and Environmental Biophysics 34:4, pages 239-244.
Crossref
D. T. Goodhead. (1995) Molecular and cell models of biological effects of heavy ion radiation. Radiation and Environmental Biophysics 34:2, pages 67-72.
Crossref
P. O'Neill. (1994) The role of hydration and radiation quality in the induction of DNA damage-chemical aspects. Advances in Space Research 14:10, pages 221-234.
Crossref
Ronald V. Dorn. (1994) Boron neutron capture therapy (BNCT): A radiation oncology perspective. International Journal of Radiation Oncology*Biology*Physics 28:5, pages 1189-1201.
Crossref
Herman C. H. Schoenmakers, José J. M. van der Meulen-Muisers & Maarten Koornneef. (1994) Asymmetric fusion between protoplasts of tomato (Lycopersicon esculentum Mill.) and gamma-irradiated protoplasts of potato (Solanum tuberosum L.): the effects of gamma irradiation. Molecular and General Genetics MGG 242:3, pages 313-320.
Crossref
M. Zaider, A. Fung & M. Bardash. 1994. Computational Approaches in Molecular Radiation Biology. Computational Approaches in Molecular Radiation Biology
77
92
.
Hooshang Nikjoo & Shuzo Uehara. 1994. Computational Approaches in Molecular Radiation Biology. Computational Approaches in Molecular Radiation Biology
167
185
.
Peter O'neill & E. Martin Fielden. 1993. Advances in Radiation Biology - DNA and Chromatin Damage Caused by Radiation. Advances in Radiation Biology - DNA and Chromatin Damage Caused by Radiation
53
120
.
P. Hahnfeldt, R. K. Sachse & L. R. Hlatky. (1992) Evolution of DNA damage in irradiated cells. Journal of Mathematical Biology 30:5, pages 493-511.
Crossref
D.E. Charlton, H. Nikjoo & D.T. Goodhead. 1992. Congress Proceedings. Congress Proceedings
421
426
.
Dudley T. Goodhead. 1992. Effects of Low Dose and Low Dose Rate Radiation. Effects of Low Dose and Low Dose Rate Radiation
7
44
.
G. W. Barendsen. (1991) Biophysical factors influencing radiation carcinogenesis in cultured cells and animals. Radiation and Environmental Biophysics 30:3, pages 165-168.
Crossref
H Nikjoo & D T Goodhead. (1991) Track structure analysis illustrating the prominent role of low-energy electrons in radiobiological effects of low-LET radiations. Physics in Medicine and Biology 36:2, pages 229-238.
Crossref
H. H. Evans. 1991. Advances in Mutagenesis Research. Advances in Mutagenesis Research
28
52
.
Barry D. Michael, Kevin M. Prise, Robert C. Fahey & Melvyn Folkard. 1991. The Early Effects of Radiation on DNA. The Early Effects of Radiation on DNA
333
346
.
Dudley T. Goodhead. 1991. The Early Effects of Radiation on DNA. The Early Effects of Radiation on DNA
271
286
.
D. E. Charlton. 1991. The Early Effects of Radiation on DNA. The Early Effects of Radiation on DNA
179
193
.
R. K. Sachs & L. R. Hlatky. (1990) Dose-rate dependent stochastic effects in radiation cell-survival models. Radiation and Environmental Biophysics 29:3, pages 169-184.
Crossref