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Prediction of the cumulated dose for external beam irradiation of prostate cancer patients with 3D-CRT technique

., Morton, G., Loblaw, D. A., Tirona, R., Pang, G., Choo, R., Szumacher, E., Deboer, G., & Pignol, J. P. (2005). Individualized planning target volumes for intrafraction motion during hypofractionated intensity-modulated radiotherapy boost for prostate cancer. Int. J. Radiat. Oncol. Biol. Phys ., 62 (2), 418–425. DOI: 10.1016/j.ijrobp.2004.09.051. 6. Adamczyk, M., Piotrowski, T., Adamiak, E., & Malicki, J. (2014). Dosimetric consequences of prostate-based couch shifts on the precision of dose delivery during simultaneous IMRT irradiation of the prostate, seminal

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Measurements of doses from photon beam irradiation and scattered neutrons in an anthropomorphic phantom model of prostate cancer: a comparison between 3DCRT, IMRT and tomotherapy

and neck radiotherapy using IMRT and 3D-CRT. Radiol. Oncol ., 46 (4), 328–336. 10. Van den Heuvel, F., Defraene, G., Crijns, W., & Bogaerts, R. (2012). Out-of-field contributions for IMRT and volumetric modulated arc therapy measured using gafchromic films and compared to calculations using a superposition/convolution based treatment planning system. Radiother. Oncol ., 105 (1), 127–132. 11. Skórska, M., & Piotrowski, T. (2013). Optimization of treatment planning parameters used in tomotherapy for prostate cancer patients. Phys. Med ., 29 (3), 273

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Investigation of magnetite Fe3O4 nanoparticles for magnetic hyperthermia

.1007/s10934-016-0156-5. 6. Johannsen, M., Gneveckow, U., Eckelt, L., Feussner, A., Waldöfner, N., Scholz, R., Deger, S., Wust, P., Loening, S. A., & Jordan, A. (2005). Clinical hyperthermia of prostate cancer using magnetic nanoparticles: Presentation of a new interstitial technique. Int. J. Hyperthermia, 21, 637-647. DOI: 10.1080/02656730500158360. 7. Carrey, J., Mehdaoui, B., & Respaud, M. (2011). Simple models for dynamic hysteresis loop calculations of magnetic single-domain nanoparticles: Application to magnetic hyperthermia

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Ambient dose equivalent measurements in secondary radiation fields at proton therapy facility CCB IFJ PAN in Krakow using recombination chambers

., Sasaki, R., Sugimura, K., & Hishikawa, Y. (2007). Acute morbidity of proton therapy for prostate cancer: the Hyogo Ion Beam Medical Center experience. Int. J. Radiat. Oncol. Biol. Phys ., 69 (2), 434–443. DOI: 10.1016/j.ijrobp.2007.03.009. 7. Steneker, M., Lomax, A., & Schneider, U. (2006). Intensity modulated photon and proton therapy for the treatment of head and neck tumors. Radiother. Oncol ., 80 (2), 263–267. DOI: 10.1016/j.radonc.2006.07.025. 8. Lee, C. T., Bilton, S. D., Famiglietti, R. M., Riley, B. A., Mahajan, A., Chang, E. L., Maor, M. H

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Trace elements in scalp hair of leukaemia patients

. (2004). Trace elements and cancer. Japan Medical Association Journal (JMAJ), 47, 391-395. 4. Karimi, G,. Shahar, S., Homayouni, N., Rajikan, R., Abu Bakar, N. F., & Othman, M. S. (2012). Association between trace element and heavy metal levels in hair and nail with prostate cancer. Asian Pac. J. Cancer Prev., 13, 4249-4253. 5. Kolmogorov, Y., Kovaleva, V., & Gonchar, A. (2000). Analysis of trace elements in scalp hair of healthy people, hyperplasia and breast cancer patients with XRF method. Nucl. Instrum. Methods Phys. Res. Sect. A

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On the role of LET-dependent parameters in the determination of the absorbed dose by in-phantom recombination chambers

.11.004. 18. Konefal, A., Orlef, A., & Bieniasiewicz, M. (2016). Measurements of neutron radiation and induced radioactivity for the new medical linear accelerator, the Varian TrueBeam. Radiat. Meas., 86, 8-15. DOI: 10.1016/j.radmeas.2015.12.039. 19. Kowalik, A., Jackowiak, W., Malicki, J., Skórska, M., Adamczyk, M., Konstanty, E., Piotrowski, T., & Polaczek-Grelik, K. (2017). Measurements of doses from photon beam irradiation and scattered neutrons in an anthropomorphic phantom model of prostate cancer: a comparison between 3DCRT, IMRT and tomotherapy

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