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Influence of gold marker for magnetic resonance imaging during prostate radiotherapy

References [1] Yamaguchi H, Hori M, Suzuki O, et al . Clinical Significance of the Apparent Diffusion Coefficient Ratio in Prostate Cancer Treatment with Intensity-modulated Radiotherapy Anticancer Res. 2016;36(12):6551-6556. [2] Qi WX, Zhang Q, Li P, et al . The predictive role of ADC values in prostate cancer patients treated with carbon-ion radiotherapy: initial clinical experience at Shanghai Proton and Heavy Ion Center (SPHIC). J Cancer Res Clin Oncol. 2016;142(6):1361-1367. [3] Casares-Magaz O, van der Heide UA, Rørvik J, et al . A

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Evaluation of various common prostate IMRT techniques based on estimated tumor control and normal tissue complication probabilities in correlation with patients anatomical parameters derived from the CT scans

References [1] Center MM, Jemal A, Lortet-Tieulent J, et al . International variation in prostate cancer incidence and mortality rates. Eur Urol. 2012;61(6):1079-1092. [2] Khan FM, Gerbi BJ. Treatment planning in radiation oncology. Wolters Kluwer Health/Lippincott Williams & Wilkins; 2012. [3] Pan HY, Jiang J, Hoffman KE, et al . Comparative toxicities and cost of intensity-modulated radiotherapy, proton radiation, and stereotactic body radiotherapy among younger men with prostate cancer. J Clin Oncol. 2018;36(18):1823-1830. [4

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Stereotactic radiosurgery of prostate cancer – dose distribution for VMAT and CyberKnife techniques

References [1] Chin LS, Regine WF, editors. Principles and Practice of Stereotactic Radiosurgery. Springer; 2008. [2] Hernández TG, Gonzáleza AV, Peidro JP, et al. Radiobiological comparison of two radiotherapy treatment techniques for high-risk prostate cancer. Rep Pract Oncol Radiother. 2013;18(5):265-271. [3] Ślosarek K, Rembielak A, Maciejewski B. Dynamiczna radiochirurgia - nowe możliwości radioterapii stereotaktycznej. Nowotwory J Oncol. 2003;53(5):546-551. [4] Stąpór-Fudzińska M, Grządziel

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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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A Monte Carlo study on the radio-sensitization effect of gold nanoparticles in brachytherapy of prostate by 103Pd seeds

characterization of the first AMIRS 103Pd brachytherapy source. Appl Radiat Isot 2008;66(12):1856-60. [32] Kim YJ, Park JH, Yun IH, Kim YS. A prospective comparison of acute intestinal toxicity following whole pelvic versus small field intensity-modulated radiotherapy for prostate cancer. Onco Targets Ther. 2016;9:1319-25. [33] Xie WZ, Friedland WF, Li WB, et al. Simulation on the molecular radiosensitization effect of gold nanoparticles in cells irradiated by x-rays. Phys Med Biol 2015; 21;60(16):6195-212. [34] Yang CJ, Chithrani DB. Nuclear Targeting of Gold

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Initial experience of using an iron-containing fiducial marker for radiotherapy of prostate cancer: Advantages in the visualization of markers in Computed Tomography and Magnetic Resonance Imaging

;42(5):2638-2647. [4] Tanaka O, Hayashi S, Matsuo M, et al. Comparison of MRI-based and CT/MRI fusion-based postimplant dosimetric analysis of prostate brachytherapy. Int J Radiat Oncol Biol Phys. 2006;66(2):597-602. [5] Tanaka O, Hattori M, Hirose S. Comparison of the MRI sequences in ideal fiducial marker-based radiotherapy for prostate cancer. Radiother Oncol. 2016;119(Supplement1):S858-S859.

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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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Toward a better prescription method for external radiotherapy

;52(1):224-235. [10] ICRU. Prescribing, recording, and reporting photon-beam intensity-modulated radiation therapy (IMRT). ICRU Report 83. J ICRU. 2010;10(1):1-106. [11] Mrozowska M, Kukołowicz P. Relationships between various indices of doses distribution homogeneity. Rep Pract Oncol Radiother. 2015;20(4):278-283. [12] Miles EF, Nelson JW, Alkaissi AK, et al. Biologically effective dose (BED) correlation after low-dose rate prostate brachytherapy for clinically low-risk prostate cancer. Int J Radiat Oncol Biol Phys. 2010;77(1):139-146. [13] Hartley A, Sanghera P

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Impact of g-Load Shift on Temporal Expression Pattern of Apoptosis-linked Proteins in the Rat Mammary Gland

between cell death and proliferation. Digestive Diseases and Sciences 51, 1063-1069. 10.1007/s10620-006-8010-2 16865572 Werneck-Silva AL Alvares EP Gama P Damiao AO Osaki LH Ogias D Sipahi AM 2006 Intestinal damage in strongyloidiasis: The imbalance between cell death and proliferation Digestive Diseases and Sciences 51 1063 1069 Winter RN, Kramer A, Borkowski A, Kyprianou N (2001) Loss of caspase-1 and caspase-3 protein expression in human prostate cancer. Cancer Res 61, 1227-1232. 11221855 Winter RN Kramer A

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3D polyelectrolyte scaffolds to mimic exocrine glands: a step towards a prostate-on-chip platform

appropriately to drugs used to treat prostate cancer ( 2 ) The use of organoids, as 3D culture models would provide even closer tissue-like conditions for studying drug reaction ( 3 ). Those types of 3D cell-culture systems provide information of cell responses that are measurable by imaging or spectroscopic techniques. The limitation of those 3D epithelial models for acinar structures is that it is not possible to access the luminal secretions to measure physiological responses in real-time and to identify new cancer biomarkers. The use of microfabricated systems, or

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