Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit

Hi-C implementation of genome structure for in silico models of radiation-induced DNA damage.

Samuel P Ingram
Nicholas T Henthorn
John W Warmenhoven
Norman F Kirkby
Ranald I Mackay
Karen J Kirkby
Michael J Merchant

December 2020

Developments in the genome organisation field has resulted in the recent methodology to infer spatia...

Analytical formulas representing track-structure simulations on DNA damage induced by protons and light ions at radiotherapy-relevant energies.

Kundrát, P.
Friedland, W.
Becker, J.
Eidemüller, M.
Ottolenghi, A.
Baiocco, G.

January 2020

Track structure based simulations valuably complement experimental research on biological effects of...

Radiation Damage to Nervous System: Designing Optimal Models for Realistic Neuron Morphology in Hippocampus

Munkhbaatar Batmunkh
Alexander Bugay
Lkhagvaa Bayarchimeg
Oidov Lkhagva

February 2018

The present study is focused on the development of optimal models of neuron morphology for Monte Car...

Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit

Mcnamara, Aimee L.
Ramos-Méndez, José
Perl, Joseph
Held, Kathryn
Dominguez, Naoki
Moreno, Eduardo
Thenthorn, Nicholas
Jkirkby, Karen
Meylan, Sylvain
Villagrasa, Carmen
Incerti, Sebastien
Faddegon, Bruce
Paganetti, Harald
Schuemann, Jan

January 2018

International audienceComputational simulations, such as Monte Carlo track structure simulations, of...

TOPAS-nBio: An Extension to the TOPAS Simulation Toolkit for Cellular and Sub-cellular Radiobiology

Schuemann, J.
Mcnamara, A.L.
Ramos-Méndez, J.
Perl, J.
Held, K.D.
Paganetti, H.
Incerti, S.
Faddegon, B.

January 2018

International audienceThe TOPAS Monte Carlo (MC) system is used in radiation therapy and medical ima...

Coupling Radiation Transport and Track-Structure Simulations: Strategy Based on Analytical Formulas Representing DNA Damage Yields

Kundrat P.
Friedland W.
Ottolenghi A.
Baiocco G.

January 2021

Existing radiation codes for biomedical applications face the challenge of dealing with largely diff...

Monte Carlo simulation of chemistry following radiolysis with TOPAS-nBio

Ramos-Méndez, J
Perl, J
Schuemann, J
McNamara, A
Paganetti, H
Faddegon, B

May 2018

Simulation of water radiolysis and the subsequent chemistry provides important information on the ef...

Modelling the topology of radiation-induced damage at the cell population level.

Thibaut, Yann
Villagrasa, Carmen
Incerti, Sébastien
Perrot, Yann

November 2021

International audienceWith the aim of better understanding the mechanisms leading to side effects of...

Coupling radiation transport and track-structure simulations: Strategy based on analytical formulas representing DNA damage yields.

Kundrát, P.
Friedland, W.
Ottolenghi, A.
Baiocco, G.

January 2021

Existing radiation codes for biomedical applications face the challenge of dealing with largely diff...

From track structure to biological endpoints: models, codes and MC simulations to investigate radiation action and damage formation

OTTOLENGHI, ANDREA DAVIDE
SCANNICCHIO, DOMENICO
BALLARINI, FRANCESCA
M. Biaggi
A. Valota

January 2002

The investigation of the action of ionising radiation on biological structures requires a detailed a...

Track-structure based simulations with PARTRAC and modelling beyond single-cell level.

Kundrát, P.

January 2014

The first part of this contribution focuses on simulations of biological effects of radiation on sub...

Extension of TOPAS for the simulation of proton radiation effects considering molecular and cellular endpoints

Polster, Lisa
Schuemann, Jan
Rinaldi, Ilaria
Burigo, Lucas
McNamara, Aimee L
Stewart, Robert D
Attili, Andrea
Carlson, David J
Sato, Tatsuhiko
Méndez, José Ramos
Faddegon, Bruce
Perl, Joseph
Paganetti, Harald

July 2015

The aim of this work is to extend a widely used proton Monte Carlo tool, TOPAS, towards the modeling...

Development of an integrated stochastic radiobiological model for electromagnetic particle interactions in a 4D cellular geometry.

Douglass, Michael John James

January 2014

An integrated radiobiological model has been developed in this thesis using the Monte Carlo toolkit ...

Radiation track structure: how the spatial distribution of energy deposition drives biological response

Hill, M

January 2019

Ionising radiation is incredibly effective at causing biological effects. This is due to the unique ...

Hi-C implementation of genome structure for in silico models of radiation-induced DNA damage.

Samuel P Ingram
Nicholas T Henthorn
John W Warmenhoven
Norman F Kirkby
Ranald I Mackay
Karen J Kirkby
Michael J Merchant

December 2020

Developments in the genome organisation field has resulted in the recent methodology to infer spatia...

Analytical formulas representing track-structure simulations on DNA damage induced by protons and light ions at radiotherapy-relevant energies.

Kundrát, P.
Friedland, W.
Becker, J.
Eidemüller, M.
Ottolenghi, A.
Baiocco, G.

January 2020

Track structure based simulations valuably complement experimental research on biological effects of...

Radiation Damage to Nervous System: Designing Optimal Models for Realistic Neuron Morphology in Hippocampus

Munkhbaatar Batmunkh
Alexander Bugay
Lkhagvaa Bayarchimeg
Oidov Lkhagva

February 2018

The present study is focused on the development of optimal models of neuron morphology for Monte Car...

Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit

Mcnamara, Aimee L.
Ramos-Méndez, José
Perl, Joseph
Held, Kathryn
Dominguez, Naoki
Moreno, Eduardo
Thenthorn, Nicholas
Jkirkby, Karen
Meylan, Sylvain
Villagrasa, Carmen
Incerti, Sebastien
Faddegon, Bruce
Paganetti, Harald
Schuemann, Jan

January 2018

International audienceComputational simulations, such as Monte Carlo track structure simulations, of...

TOPAS-nBio: An Extension to the TOPAS Simulation Toolkit for Cellular and Sub-cellular Radiobiology

Schuemann, J.
Mcnamara, A.L.
Ramos-Méndez, J.
Perl, J.
Held, K.D.
Paganetti, H.
Incerti, S.
Faddegon, B.

January 2018

International audienceThe TOPAS Monte Carlo (MC) system is used in radiation therapy and medical ima...

Coupling Radiation Transport and Track-Structure Simulations: Strategy Based on Analytical Formulas Representing DNA Damage Yields

Kundrat P.
Friedland W.
Ottolenghi A.
Baiocco G.

January 2021

Existing radiation codes for biomedical applications face the challenge of dealing with largely diff...

Monte Carlo simulation of chemistry following radiolysis with TOPAS-nBio

Ramos-Méndez, J
Perl, J
Schuemann, J
McNamara, A
Paganetti, H
Faddegon, B

May 2018

Simulation of water radiolysis and the subsequent chemistry provides important information on the ef...

Modelling the topology of radiation-induced damage at the cell population level.

Thibaut, Yann
Villagrasa, Carmen
Incerti, Sébastien
Perrot, Yann

November 2021

International audienceWith the aim of better understanding the mechanisms leading to side effects of...

Coupling radiation transport and track-structure simulations: Strategy based on analytical formulas representing DNA damage yields.

Kundrát, P.
Friedland, W.
Ottolenghi, A.
Baiocco, G.

January 2021

Existing radiation codes for biomedical applications face the challenge of dealing with largely diff...

From track structure to biological endpoints: models, codes and MC simulations to investigate radiation action and damage formation

OTTOLENGHI, ANDREA DAVIDE
SCANNICCHIO, DOMENICO
BALLARINI, FRANCESCA
M. Biaggi
A. Valota

January 2002

The investigation of the action of ionising radiation on biological structures requires a detailed a...

Track-structure based simulations with PARTRAC and modelling beyond single-cell level.

Kundrát, P.

January 2014

The first part of this contribution focuses on simulations of biological effects of radiation on sub...

Extension of TOPAS for the simulation of proton radiation effects considering molecular and cellular endpoints

Polster, Lisa
Schuemann, Jan
Rinaldi, Ilaria
Burigo, Lucas
McNamara, Aimee L
Stewart, Robert D
Attili, Andrea
Carlson, David J
Sato, Tatsuhiko
Méndez, José Ramos
Faddegon, Bruce
Perl, Joseph
Paganetti, Harald

July 2015

The aim of this work is to extend a widely used proton Monte Carlo tool, TOPAS, towards the modeling...

Development of an integrated stochastic radiobiological model for electromagnetic particle interactions in a 4D cellular geometry.

Douglass, Michael John James

January 2014

An integrated radiobiological model has been developed in this thesis using the Monte Carlo toolkit ...

Radiation track structure: how the spatial distribution of energy deposition drives biological response

Hill, M

January 2019

Ionising radiation is incredibly effective at causing biological effects. This is due to the unique ...

Hi-C implementation of genome structure for in silico models of radiation-induced DNA damage.

Samuel P Ingram
Nicholas T Henthorn
John W Warmenhoven
Norman F Kirkby
Ranald I Mackay
Karen J Kirkby
Michael J Merchant

December 2020

Developments in the genome organisation field has resulted in the recent methodology to infer spatia...

Analytical formulas representing track-structure simulations on DNA damage induced by protons and light ions at radiotherapy-relevant energies.

Kundrát, P.
Friedland, W.
Becker, J.
Eidemüller, M.
Ottolenghi, A.
Baiocco, G.

January 2020

Track structure based simulations valuably complement experimental research on biological effects of...

Radiation Damage to Nervous System: Designing Optimal Models for Realistic Neuron Morphology in Hippocampus

Munkhbaatar Batmunkh
Alexander Bugay
Lkhagvaa Bayarchimeg
Oidov Lkhagva

February 2018

The present study is focused on the development of optimal models of neuron morphology for Monte Car...

Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit

Abstract

Extracted data

Geometrical structures for radiation biology research as implemented in the TOPAS-nBio toolkit

Abstract

Extracted data

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