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SiFi-CC: ON-LINE MONITORING OF DOSE DISTRIBUTION IN PROTON THERAPY USING HEAVY SCINTILLATING FIBERS
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== CONTEXT ==
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The project SiFi-CC is a joint effort of a group of researchers and students from the Jagiellonian University in Kraków, Poland and RWTH Aachen University, Germany. The aim of the project is development of a method for on-line monitoring of a cancer treatment called proton therapy. In this kind of treatment a tumor is irradiated with a proton beam with parameters adjusted such, that protons deposit maximum of their energy in the tumor region, leading to destruction oftumor cells. For this purpose a treatment plan is prepared individually for each patient, usually based on CT (computer tomography) or PET (positron emission tomography) images. However, human body undergoes changes, which may lead to misplacement of the applied dose compared to the original plan. Therefore methods for on-line monitoring in proton therapy are sought for, as they would allow to prepare better treatment plans for patients, leading to better and safer treatment.
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== PROJECT ==
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In our project we want to test a possible option of design of a setup for proton therapy monitoring. Its operation consists in detection of gamma radiation, which is produced in a patient's body irradiated with a proton beam. By reconstructing the source of this radiation we can conclude about the location and shape of deposited dose. We will detect prompt-gamma radiation using long but thin pieces (so-called fibers) of a scintillating material, i.e. the one which shines light when being traversed by a particle or a gamma ray. This light can be registered with special sensors called silicon photomultipliers. So the name of our project comes from SiPMs and scintillating Fiber-based Compton Camera (SiFi-CC).
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The setup we propose has two modes of operation: a Compton camera and a coded-mask, which allow to map the deposited dose distribution in three or two dimensions, respectively. The two options share a vast part of hardware, therefore we want to develop them in parallel. First we will conduct a series of virtual experiments (computer simulations) to find the best possible design option, then we will make sure in the laboratory tests that the simulation results correspond to reality. Once the design is fixed, we will build and test the setup, first in a laboratory, and then in a therapeutic center with phantoms simulating human body.
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== JOB OFFERS ==
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Such a venture comprises very different tasks: from laboratory tests, through computer simulations, building a modern data acquisition system, processign of experimental data and implementation of algorithms for image reconstruction, up to experiments with a proton beam in a therapeutic center. If you are interested in our joining our group, contact us and ask for our offer for students, PhD students and post-docs.
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The project is financed by the National Science Centre, Poland, within the SONATA BIS 7 program, foreseen to end in September 2022.
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[[File:SS_20181109_Logo6.svg|100px|x100px]] [[File:SS_20181109_CrossedFibres.png|150px|x150px]]
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Latest revision as of 11:57, 12 November 2020

               

SiFi-CC: ON-LINE MONITORING OF DOSE DISTRIBUTION IN PROTON THERAPY USING HEAVY SCINTILLATING FIBERS

Context

The project SiFi-CC is a joint effort of a group of researchers and students from the Jagiellonian University in Kraków, Poland, RWTH Aachen University, Germany and the University of Lübeck, Germany. The aim of the project is the development of a method for on-line monitoring of a cancer treatment called proton therapy. In this kind of treatment, a tumour is irradiated with a proton beam with parameters adjusted such, that protons deposit maximum of their energy in the tumour region, leading to the destruction of tumour cells. For this purpose, a treatment plan is prepared individually for each patient, usually based on CT (computed tomography) or PET (positron emission tomography) images. However, human body undergoes changes, which may lead to misplacement of the applied dose compared to the original plan. Therefore methods for on-line monitoring in proton therapy are sought for, as they would allow preparing better treatment plans for patients, leading to better and safer treatment.

Project

LM 20231214 BudgetCC SideView.png In our project, we want to test a possible option of design of a setup for proton therapy monitoring. Its operation consists in the detection of gamma radiation, which is produced in a patient's body irradiated with a proton beam. By reconstructing the source of this radiation we can conclude about the location and shape of the deposited dose. We will detect prompt-gamma radiation using long but thin pieces (so-called fibres) of a scintillating material, i.e. the one which shines the light when being traversed by a particle or a gamma ray. This light can be registered with special sensors called silicon photomultipliers. So the name of our project comes from Silicon Photomultiplier and Scintillating Fiber based Compton Camera (SiFi-CC).

The setup we propose has two modes of operation: a Compton camera and a coded-mask, which allow mapping the deposited dose distribution in three or two dimensions, respectively. The two options share a vast part of the hardware, therefore we want to develop them in parallel. First, we will conduct a series of virtual experiments (computer simulations) to find the best possible design option, then we will make sure in the laboratory tests that the simulation results correspond to reality. Once the design is fixed, we will build and test the setup, first in a laboratory, and then in a therapeutic centre with phantoms simulating the human body.

SUPPORTED BY

OW 20201211 ncn.jpeg OW 20201211 nawa.png


RH 20210210 DAADLogo.png

Job offers

OW 20191218 Puzzle ad2020 EN.jpg Such a venture comprises very different tasks: from laboratory tests, through computer simulations, building a modern data acquisition system, processing of experimental data and implementation of algorithms for image reconstruction, up to experiments with a proton beam in a therapeutic centre.

If you are interested in joining our group, contact us and ask for our offer for students, PhD students and post-docs.

The project is financed by the National Science Centre, Poland, within the SONATA BIS 7 program, foreseen to be completed in September 2024.

Collaboration

The project SiFi-CC is a joint effort of the group:

OW2019 square.png SS 20181110 r.hetzel.png KR 20190827 lalik.jpeg SS 20181110 a.magiera.png NN 20201124 Rafecas.JPG RH 20200302 a.stahl.jpg MW 20210203 random.jpg KR 20190827 rusiecka photo.jpg
Aleksandra Wrońska1ORCIDiD icon16x16.png Ronja Hetzel2ORCIDiD icon16x16.png Rafał Lalik1ORCIDiD icon16x16.png Andrzej Magiera1ORCIDiD icon16x16.png Magdalena Rafecas5ORCIDiD icon16x16.png Achim Stahl2ORCIDiD icon16x16.png Mark Wong1ORCIDiD icon16x16.png Katarzyna Rusiecka1ORCIDiD icon16x16.png
PI, associate professor post-doc post-doc professor professor professor post-doc post-doc
MK 20201018 profilephoto.jpg VU 20211120 me photo.jpg MK 20231003 profilepic.png AF 20230108 pfp.jpg Mielke pic.jpg GO 20230721 pic.jpg
Magdalena Kołodziej1ORCIDiD icon16x16.png Vitalii Urbanevych1ORCIDiD icon16x16.png Monika Kercz1ORCIDiD icon16x16.png Alexander Fenger2 Linn Mielke2 Gabriel Ostrzołek1
PhD student PhD student PhD student Master student Master student student


Former members, also those working on the gCCB project:

Awal Awal2, Piotr Bednarczyk3, Anna Bekas1, Andreas Bolke5, Daniel Böckenhoff2, Arshiya Anees Ahmed1, Arkadiusz Bubak4, Richard Chomjak1, Michelle Dombeu2, George Farah2 Sabine Feyen2, Grzegorz Gazdowicz1, Aleksandra Kaszlikowska1, Majid Kazemi Kozani1, Laurent Kelleter2, Jonas Kasper2, Nadia Kohlhase5, Barbara Kołodziej1, Adam Konefał4, Wojciech Kozyra1, Karim Laihem2, Johannes Leidner2, Sara Müller2, Grzegorz Obrzud1, Marek Pałka1, Mareike Profe2, Damian Stachura1, Szymon Świstun1, Aneta Wiśniewska1, Anna Władyszewska1, Mirosław Ziębliński3

1Institute of Physics, Jagiellonian University, Kraków 2RWTH University, Aachen 3Institute of Nuclear Physics PAN, Kraków 4University of Silesia, Katowice 5Institute of Medical Engineering, University of Lübeck


Publications

2024

M. L. Wong, M. Kołodziej, K. Briggl, R. Hetzel, G. Korcyl, R. Lalik, A. Malige, A. Magiera, G. Ostrzołek, K. Rusiecka, A. Stahl, V. Urbanevych, M. Wiebusch and A. Wrońska
Comparison of readout systems for high-rate silicon photomultiplier applications
Journal of Instrumentation 19 (2024) P01019, doi:10.1088/1748-0221/19/01/P01019 pdf arXiv

2023

Ronja Hetzel, Vitalii Urbanevych, Andreas Bolke, Jonas Kasper, Monika Kercz, Magdalena Kołodziej, Andrzej Magiera, Florian Mueller, Sara Müller, Magdalena Rafecas, Katarzyna Rusiecka, David Schug, Volkmar Schulz, Achim Stahl, Bjoern Weissler, Ming-Liang Wong, Aleksandra Wrońska
Near-field coded-mask technique and its potential for proton therapy monitoring
Physics in Medicine and Biology, 68 (2023) 245028, doi:10.1088/1361-6560/ad05b2 pdf arXiv

2022

M. Kazemi Kozani, A. Magiera
Machine learning-based event recognition in SiFi Compton camera imaging for proton therapy monitoring
Physics in Medicine and Biology 67 (2022), 155012 doi:10.1088/1361-6560/ac71f2 pdf

2021

K. Rusiecka, R. Hetzel, J. Kasper, M. Kazemi Kozani, N. Kohlhase, M. Kołodziej R. Lalik, A. Magiera, W. Migdał, M. Rafecas, A. Stahl, V. Urbanevych, M. L. Wong, A. Wrońska
A systematic study of LYSO:Ce, LuAG:Ce and GAGG:Ce scintillating fibers properties
Journal of Instrumentation 16 (2021) P11006, doi: 10.1088/1748-0221/16/11/P11006

A. Wrońska, J. Kasper, A. A. Ahmed, A. Andres, P. Bednarczyk, G. Gazdowicz, K. Herweg, R. Hetzel, A. Konefał, P. Kulessa, A. Magiera, K. Rusiecka, D. Stachura, A. Stahl, M. Ziębliński
Prompt-gamma emission in GEANT4 revisited and confronted with experiment
Physica Medica 88 (2021) 250-261, doi: 10.1016/j.ejmp.2021.07.018, pdf

M. Kazemi Kozani and A. Magiera on behalf of the SiFi-CC group
In: Proceedings of the NSS MIC 2021
Machine Learning-based Event Recognition in Compton Camera Imaging for Proton Therapy Monitoring
IEEE Transactions on Nuclear Science, pdf, doi???

A. Wrońska, D. Dauvergne
Range verification by means of prompt-gamma detection in particle therapy
chapter in the book Radiation Detection Systems, CRC Press/Routledge, www preprint in HAL

2020

A. Wrońska for the SiFi-CC collaboration
White Book, report on status of research and infrastructure of nuclear physics in Poland, prepared as the proceedings of the conference Przyszłość fizyki jądrowej niskich energii w Polsce a rozwój krajowej infrastruktury badawczej, held in Warsaw in Jan 2019
White Book, ISBN: 978-83-959188-0-3, published Oct 2020

J. Kasper, K. Rusiecka, R. Hetzel, M. Kazemi Kozani, R. Lalik, A. Magiera, A. Stahl, A. Wrońska
The SiFi-CC project – Feasibility study of a scintillation-fiber-based Compton camera for proton therapy monitoring
Physica Medica 76 (2020) 317-325, doi:10.1016/j.ejmp.2020.07.013, pdf

A. Wrońska for the SiFi-CC group
Prompt gamma imaging in proton therapy - status, challenges and developments
Journal of Physics: Conference Series 1561 (2020) 012021, doi:10.1088/1742-6596/1561/1/012021 pdf

A. Wrońska, R. Hetzel, J. Kasper, R. Lalik, A. Magiera, K. Rusiecka, A. Stahl
Characterisation of components of a scintillation-fiber-based Compton camera
contribution to proceedings of 3rd Jagiellonian Symposium.... in Kraków,
Acta Physica Polonica B, vol. 51 no. 1 (2020) p. 17-25. DOI:10.5506/APhysPolB.51.17

2019

Arshiya A. Ahmed, A. Wrońska, A. Magiera, M. Bartyzel, J.W. Mietelski, R. Misiak, B. Wąs
Reexamination of proton-induced reactions on natMo at 19–26 MeV and study of target yield of resultant radionuclides
Acta Physica Polonica B, vol. 50 (2019) p. 1583, DOI:10.5506/APhysPolB.50.1583

K. Rusiecka et al.
Investigation of the Properties of the Heavy Scintillating Fibers for Their Potential Use in Hadron Therapy Monitoring
chapter in Engineering of Scintillation Materials and Radiation Technologies - Selected Articles of ISMART2018, ISBN 978-3-030-21970-3, Springer Proceedings in Physics 227, pp 195-210
DOI: 10.1007/978-3-030-21970-3_14

A. Wrońska, A. Ruciński
Wyzwania w terapii protonowej – jak leczyć nowotwory lepiej?
Nowoczesne technologie XXI w. – przegląd, trendy i badania. Tom 1, Wydawnictwo Naukowe TYGIEL sp. z o.o., 2019, ISBN: 978-83-65932-70-9, pdf

2018

K. Rusiecka et al.
Shape of the spectral line and gamma angular distribution of the 12C(p,p'gamma4.44)12C reaction
Acta Physica Polonica B 49 (2018) 1637-1652 full text

2017

A. Wrońska et al., Experimental verification of key cross sections for prompt-gamma imaging in proton therapy
Presented at the 2nd Jagiellonian Symposium on Fundamental and Applied Subatomic Physics, Kraków, Poland, June 3–11, 2017
Acta Phys. Pol.B 48 (2017) 1631.
DOI:10.5506/APhysPolB.48.1631

A.Chrobak et al., Comparison of various models of Monte Carlo GEANT 4 code in simulations of prompt gamma production
Zakopane Conference on Nuclear Physics Extremes of the Nuclear Landscape
Acta Phys. Pol.B 48 (2017) 675. full text

L. Kelleter et al. Spectroscopic study of prompt-gamma emission for range verification in proton therapy
Physica Medica 34 (2017) 7-17
DOI:10.1016/j.ejmp.2017.01.003
Submitted version: pdf

2016

A. Wrońska, Gamma Emission in Hadron Therapy - Towards New Tols of Quality Assurance
contribution to conference proceedings pdf
Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC) 2015 IEEE, 2016, DOI:10.1109/NSSMIC.2015.7582186

K. Rusiecka et al., Determination of Gamma Angular Distribution from the Shape of Spectral Line for the First Excited State of Carbon Nucleus
World Journal of Nuclear Science and Technology 6 (2016) 63-70. full text

2015

A. Wrońska et al., Gamma Emission in Hadron Therapy — Experimental Approach
Contribution to the Proceedings of Zakopane Conference on Nuclear Physics Extremes of the Nuclear Landscape
Acta Phys. Pol. B 46 (2015) 753. full text