E. Góra
9 Papers
14 Citations
E. Góra is an academic researcher. The author has contributed to research in topics: Proton therapy & Proton. The author has an hindex of 2, co-authored 7 publications.
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Papers
On the clinical applicability of large-area 2-D TL dosimetry for verifying small photon radiotherapy beams
D. Kabat,Damian Nahajowski,E. Góra,B. Rozwadowska-Bogusz,J. Lesiak,B. Polak,Ł. Czopyk,Pawel Olko,Michael P. R. Waligórski +8 more
TL;DR: Satisfactory agreement found between dose distributions measured as percent depth dose or transverse beam profiles at different depths and respective distributions calculated by the TPS, confirms that the 2-D TL dosimetry is a promising technique for quality assurance of radiotherapy beams where steep dose gradients may occur over small field areas.
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Evaluation of the relative effectiveness of LiF-based TL detectors for electron radiotherapy beams over the energy range 6–20 MeV
Damian Nahajowski,E. Góra,B. Rozwadowska-Bogusz,J. Lesiak,B. Polak,D. Kabat,P. Zawadzki,Michael P. R. Waligórski +7 more
TL;DR: While no correction is required for dose values estimated by LiB TLDs, the under-response of MTS-N detectors exposed to a beam of electrons has to be corrected by about 7%.
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5 Rak endometrium – wstępna ocena tolerancji pooperacyjnej pulsacyjnej brachyterapii
Małgorzata Klimek,Krzysztof Urbański,E. Góra,Zbigniew Kojs,Kazimierz Karolewski,Jerzy Jakubowicz,Jacek Pudełek +6 more
TL;DR: Cel Ocena tolerancji dopochwowego leczenia PDR (pulsed dose-rate) chorych operowanych z powodu raka trzonu macicy przeprowadzono po raz pierwszy w Polsce w okresie obserwacji loko-regionalne niepowodzenie wystąpila u jednej chorej.
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Verification of geometry reconstruction and dose calculation modules of the PLATO radiotherapy planing system
TL;DR: The geometry reconstruction software module unit and the dose distribution algorithm of the PLATO v. 13.7 planning system used at the Centre of Oncology in Krakow, were found to operate correctly and to correctly reproduce the published benchmark data.
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Validation of a radiotherapy treatment planning system using an anthropomorphic phantom and MTS-N thermoluminescent detectors.
Michael P. R. Waligórski,Paweł Bilski,J. Lesiak,E. Byrski,B. Rozwadawska-Bogusz,R. Bara_czyk,E. Góra,E. Ochab,Pawel Olko +8 more
TL;DR: While fraction-to-fraction repeatability was within 1-2%, systematic underexposure around the reference point, by 2-3%, was found in two consecutive exposures by sets of both beams.
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