Piotr Pater
Title
Cited by
Cited by
Year
Monte Carlo role in radiobiological modelling of radiotherapy outcomes
I El Naqa, P Pater, J Seuntjens
Physics in Medicine & Biology 57 (11), R75, 2012
1032012
On the consistency of Monte Carlo track structure DNA damage simulations
P Pater, J Seuntjens, I El Naqa, MA Bernal
Medical physics 41 (12), 121708, 2014
392014
Microdosimetry calculations for monoenergetic electrons using Geant4-DNA combined with a weighted track sampling algorithm
G Famulari, P Pater, SA Enger
Physics in Medicine & Biology 62 (13), 5495, 2017
192017
Proton and light ion RBE for the induction of direct DNA double strand breaks
P Pater, G Bäckstöm, F Villegas, A Ahnesjö, SA Enger, J Seuntjens, ...
Medical physics 43 (5), 2131-2140, 2016
192016
Microdosimetric evaluation of current and alternative brachytherapy sources—a Geant4-DNA simulation study
G Famulari, P Pater, SA Enger
International Journal of Radiation Oncology* Biology* Physics 100 (1), 270-277, 2018
142018
SU‐E‐T‐405: Evaluation of IMRT QA Using 3DVH, a 3D Patient Dose and Verification Analysis Software
G Jarry, D Martin, M Lemire, M Ayles, P Pater
Medical Physics 38 (6Part16), 3581-3581, 2011
42011
Numerical models for radiation-induced DNA damage
P Pater
McGill University, 2016
32016
Use of platinum embolization coils for targeting liver lesions in stereotactic body radiotherapy/radiosurgery
V Panet-Raymond, D Valenti, W Parker, R Ruo, H Patrocinio, P Pater, ...
Radiosurgery 7, 403-411, 2010
22010
Stereotactic Arrhythmia Radioablation for Ventricular Tachycardia (StAR-VT): Single Centre First Experiences
IJ Gerard, M Bernier, T Hijal, N Kopek, P Pater, J Stosky, G Stroian, ...
Advances in Radiation Oncology, 100702, 2021
2021
Abstract ID: 40 Microdosimetry calculations for monoenergetic electrons using Geant4-DNA combined with a weighted track sampling algorithm
G Famulari, P Pater, SA Enger
Physica Medica: European Journal of Medical Physics 42, 8, 2017
2017
OC-0359: Microdosimetric evaluation of intermediate-energy brachytherapy sources using Geant4-DNA
G Famulari, P Pater, SA Enger
Radiotherapy and Oncology 123, S192, 2017
2017
SU‐E‐T‐494: Influence of Proton Track‐Cell Nucleus Incidence Angle On Relative Biological Effectiveness
P Pater, G Backstrom, S Enger, F Villegas, A Ahnesjo, J Seuntjens, ...
Medical Physics 42 (6Part20), 3448-3448, 2015
2015
On the Value of LET as a Radiation Quality Descriptor for RBE: SU-ET-581
P Pater, G Backstrom, S Enger, F Villegas, A Ahnesjo, J Seuntjens, ...
Medical Physics 42 (6), 2015
2015
OC-0157: Initial DNA damage patterns with Monte Carlo tracks and ionization clusters
P Pater, G Bäckström, MF Villegas, A Ahnesjö, S Enger, J Seuntjens
Radiotherapy and Oncology 115, S76-S77, 2015
2015
Estimation of DNA Damage Yields Due to Low Energy Electrons
P Pater, I El Naqa, J Seuntjens
International Journal of Radiation Oncology• Biology• Physics 90 (1), S851, 2014
2014
SU‐C‐BRE‐07: Sensitivity Analysis of the Threshold Energy for the Creation of Strand Breaks and of Single and Double Strand Break Clustering Conditions
P Pater
Medical Physics 41 (6Part2), 95-95, 2014
2014
Hands-On Monte Carlo Project Assignment as a Method to Teach Radiation Physics
P Pater, M Vallieres, J Seuntjens
Medical Physics 41 (6), 426-427, 2014
2014
WE‐E‐BRE‐11: New Method to Simulate DNA Damage Using Ionization Cross‐Sections and a Geometrical Nucleosome Model
P Pater, J Seuntjens, I El Naqa
Medical Physics 41 (6Part29), 506-506, 2014
2014
SU‐E‐T‐306: Electronic Equilibrium in RBE of DSB Induction in Monte Carlo Simulations of Low Energy Photon and Electron Track Structures
P Pater, J Seuntjens, M Bernal, I El Naqa
Medical Physics 40 (6Part15), 275-275, 2013
2013
SU‐E‐T‐05: Comparing DNA Strand Break Yields for Photons under Different Irradiation Conditions with Geant4‐DNA
P Pater, M Bernal, IE Naqa, J Seuntjens
Medical physics 39 (6Part9), 3703-3703, 2012
2012
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Articles 1–20