Computerized tomography with high-energy proton beams: Tomographic image reconstruction from computer-simulated data

Ivan Evseev; Margio C.L. Klock; Sergei A. Paschuk; Hugo R. Schelin; João A.P. Setti; Ricardo T. Lopes; Reinhard W. Schulte; David C. Williams

doi:10.1590/S0103-97332004000500025

Computerized tomography with high-energy proton beams: Tomographic image reconstruction from computer-simulated data

Ivan Evseev, Margio C.L. Klock, Sergei A. Paschuk, Hugo R. Schelin, João A.P. Setti, Ricardo T. Lopes, Reinhard W. Schulte, David C. Williams

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Abstract

The use of protons instead of X-rays for computerized tomography (CT) studies has potential advantages, especially for medical applications in proton treatment planning. However, the spatial resolution of proton CT is limited by multiple Coulomb scattering (MCS). We used the Monte Carlo simulation tool GEANT4 to study the resolution achievable with different experimental arrangements of a proton CT scanner. The passage of a parallel 200MeV proton beam through a virtual cylindrical aluminum phantom with 50mm external diameter was simulated. In our study, the phantom contained a set of cylindrical holes with diameters ranging from 4mm to 0.5mm. The GEANT4 simulation consisted of a series of 180 projections at 2 degree intervals with 350 proton track histories for each one. The filtered back projection algorithm was used to reconstruct a 20 tomographic image of phantom.

Original language	English
Pages (from-to)	804-807
Number of pages	4
Journal	Brazilian Journal of Physics
Volume	34
Issue number	3 A
DOIs	https://doi.org/10.1590/S0103-97332004000500025
State	Published - Sep 2004

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General Physics and Astronomy

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title = "Computerized tomography with high-energy proton beams: Tomographic image reconstruction from computer-simulated data",

abstract = "The use of protons instead of X-rays for computerized tomography (CT) studies has potential advantages, especially for medical applications in proton treatment planning. However, the spatial resolution of proton CT is limited by multiple Coulomb scattering (MCS). We used the Monte Carlo simulation tool GEANT4 to study the resolution achievable with different experimental arrangements of a proton CT scanner. The passage of a parallel 200MeV proton beam through a virtual cylindrical aluminum phantom with 50mm external diameter was simulated. In our study, the phantom contained a set of cylindrical holes with diameters ranging from 4mm to 0.5mm. The GEANT4 simulation consisted of a series of 180 projections at 2 degree intervals with 350 proton track histories for each one. The filtered back projection algorithm was used to reconstruct a 20 tomographic image of phantom.",

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AU - Evseev, Ivan

AU - Klock, Margio C.L.

AU - Paschuk, Sergei A.

AU - Schelin, Hugo R.

AU - Setti, João A.P.

AU - Lopes, Ricardo T.

AU - Schulte, Reinhard W.

AU - Williams, David C.

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AB - The use of protons instead of X-rays for computerized tomography (CT) studies has potential advantages, especially for medical applications in proton treatment planning. However, the spatial resolution of proton CT is limited by multiple Coulomb scattering (MCS). We used the Monte Carlo simulation tool GEANT4 to study the resolution achievable with different experimental arrangements of a proton CT scanner. The passage of a parallel 200MeV proton beam through a virtual cylindrical aluminum phantom with 50mm external diameter was simulated. In our study, the phantom contained a set of cylindrical holes with diameters ranging from 4mm to 0.5mm. The GEANT4 simulation consisted of a series of 180 projections at 2 degree intervals with 350 proton track histories for each one. The filtered back projection algorithm was used to reconstruct a 20 tomographic image of phantom.

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Computerized tomography with high-energy proton beams: Tomographic image reconstruction from computer-simulated data

Abstract

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