Your search keyword '"Goethem, M. J."' showing total 3 results

1. PROTON RADIOGRAPHY TO IMPROVE PROTON RADIOTHERAPY: SIMULATION STUDY AT DIFFERENT PROTON BEAM ENERGIES.

Author

BIEGUN, A. K., TAKATSU, J., VAN^GOETHEM, M-J., VAN DER^GRAAF, E. R., VAN BEUZEKOM, M., VISSER, J., and BRANDENBURG, S.

Subjects

PROTON beams, RADIOGRAPHY, RADIOTHERAPY, X-ray computed microtomography, COMPUTED tomography, CANCER treatment, PROTON therapy

Abstract

To improve the quality of cancer treatment with protons, a translation of X-ray Computed Tomography (CT) images into a map of the proton stopping powers needs to be more accurate. Proton stopping powers determined from CT images have systematic uncertainties in the calculated proton range in a patient of typically 3-4% and even up to 10% in a region containing bone. As a consequence, part of a tumor may receive no dose, or a very high dose can be delivered in healthy tissues and organs at risks (e.g. brain stem). A transmission radiograph of high-energy protons measuring proton stopping powers directly will allow to reduce these uncertainties, and thus improve the quality of treatment. The best way to obtain a sufficiently accurate radiograph is by tracking individual protons traversing the phantom (patient). In our simulations, we have used an ideal position sensitive detectors measuring a single proton before and after a phantom, while the residual energy of a proton was detected by a BaF2 crystal. To obtain transmission radiographs, different phantom materials have been irradiated with a 3 × 3 cm2 scattered proton beam, with various beam energies. The simulations were done using the Geant4 simulation package. In this study, we focus on the simulations of the energy loss radiographs for various proton beam energies that are clinically available in proton radiotherapy. [ABSTRACT FROM AUTHOR]

Published

2016

2. Mapping the Future of Particle Radiobiology in Europe: The INSPIRE Project

Author

Nicholas T. Henthorn, Olga Sokol, Marco Durante, Ludovic De Marzi, Frederic Pouzoulet, Justyna Miszczyk, Pawel Olko, Sytze Brandenburg, Marc Jan van Goethem, Lara Barazzuol, Makbule Tambas, Johannes A. Langendijk, Marie Davídková, Vladimír Vondráĉek, Elisabeth Bodenstein, Joerg Pawelke, Antony J. Lomax, Damien C. Weber, Alexandru Dasu, Bo Stenerlöw, Per R. Poulsen, Brita S. Sørensen, Cai Grau, Mateusz K. Sitarz, Anne-Catherine Heuskin, Stephane Lucas, John W. Warmenhoven, Michael J. Merchant, Ran I. Mackay, Karen J. Kirkby, Henthorn, N. T., Sokol, O., Durante, M., De Marzi, L., Pouzoulet, F., Miszczyk, J., Olko, P., Brandenburg, S., van Goethem, M. J., Barazzuol, L., Tambas, M., Langendijk, J. A., Davidkova, M., Vondracek, V., Bodenstein, E., Pawelke, J., Lomax, A. J., Weber, D. C., Dasu, A., Stenerlow, B., Poulsen, P. R., Sorensen, B. S., Grau, C., Sitarz, M. K., Heuskin, A. -C., Lucas, S., Warmenhoven, J. W., Merchant, M. J., Mackay, R. I., and Kirkby, K. J.

Subjects

Materials Science (miscellaneous), Biophysics, FOS: Physical sciences, General Physics and Astronomy, RBE, Proton theraphy, Biology, 01 natural sciences, HELIUM-IONS, 0103 physical sciences, proton therapy, ddc:530, FACILITY, Physical and Theoretical Chemistry, 010306 general physics, Mathematical Physics, BEAM THERAPY, radiotherapy, beamline, International research, Cancer och onkologi, Manchester Cancer Research Centre, irradiation, European research, ResearchInstitutes_Networks_Beacons/mcrc, Research needs, Data science, CANCER, Physics - Medical Physics, lcsh:QC1-999, Cancer treatment, radiobiology, Cancer and Oncology, CELLS, Medical Physics (physics.med-ph), lcsh:Physics

Abstract

Particle therapy is a growing cancer treatment modality worldwide. However, there still remains a number of unanswered questions considering differences in the biological response between particles and photons. These questions, and probing of biological mechanisms in general, necessitate experimental investigation. The Infrastructure in Proton International Research (INSPIRE) project was created to provide an infrastructure for European research, unify research efforts on the topic of proton and ion therapy across Europe, and to facilitate the sharing of information and resources. This work highlights the radiobiological capabilities of the INSPIRE partners, providing details of physics (available particle types and energies), biology (sample preparation and post-irradiation analysis), and researcher access (the process of applying for beam time). The collection of information reported here is designed to provide researchers both in Europe and worldwide with the tools required to select the optimal center for their research needs. We also highlight areas of redundancy in capabilities and suggest areas for future investment., 18 pages

Published

2020

3. 34 - Short-lived Positron Emitters in Beam-on PET Imaging During Proton Therapy.

Author

Dendooven, P., Buitenhuis, H.J.T., Diblen, F., Biegun, A.K., Fiedler, F., van Goethem, M.-J., van der Graaf, E.R., and Brandenburg, S.

Subjects

*CANCER radiotherapy, *POSITRON emission tomography, *PROTON therapy, *IMAGING of cancer, *CANCER treatment, *RADIATION dosimetry

Published

2016