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Valentina Anechitei-Deacu, Alida Timar-Gabor, Daniela Constantin, Oana Trandafir-Antohi, Laura Del Valle, Joan J Fornós, Lluís Gómez-pujol and Ann G. Wintle

susceptibility changes ( Timar-Gabor and Wintle, 2013 ). It was also observed in these studies that the corrected luminescence signals for fine grains are higher than the ones measured on coarse grains and thus a possible explanation for the lower equivalent doses measured on fine grains could reside in the interpolation of these values on the different single aliquot regenerative (SAR) dose response curves encountered for the two grain sizes at doses higher than 100 Gy. Furthermore, the 4–11 μm fraction has higher saturation characteristics (D 0 values) compared to the 63

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Colleen Schinkel, Nadia Stavreva, Pavel Stavrev, Marco Carlone and B. Fallone

; 1993; 38 : 653-66. Warkentin B, Stavrev P, Stavreva NA, Fallone BG. Limitations of a TCP model incorporating population heterogeneity. Phys Med Biol 2005; 50 : 3571-88. Brenner DJ. Dose, volume, and tumor-control predictions in radiotherapy. Int J Radiat Oncol Biol Phys 1993; 26 : 171-9. D'Souza WD, Thames HD, Kuban DA. Dose-volume conundrum for response of prostate cancer to brachytherapy: summary dosimetric measures and their relationship to tumor control probability. Int J Radiat

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Maria Kowalska, Katarzyna Meronka and Kamil Szewczak

Trasdescantia. Dose-response curves. Radiat. Botanic, 15, 87. [11]Savage JRK and Papworth DG. (2000). Constructing a 2B calibration curve for retrospective dose reconstruction. Radiat. Prot. Dosim, 88, 69-76. [12]Sevan’kaev AV, Lloyd DC, Edwards AA, Moquet JE, Nugis VYu, Mikhailova GM, Potetnaya OI, Khvostunov IK, Guskova AK, Baranow AE and Nadejina NM (2002). Cytogenic investigations of serious overexposure to industrial gamma radiography source. Radiat. Prot. Dosim, 102, 201-206. [13]Sreedevi B., Rao BS and Bhatt B. (1993

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T. Naveen, Sanjay Supe, K. Ganesh and Jacob Samuel

-921. Josef EB, Shamsa F, et al. External beam radiotherapy for painful osseous metastases: pooled data dose response analysis. Int J Radiat Oncol Biol Phy. 1999; 45: 715-719. Koswing S, Budach V. Remineralisation and schmerzlin derung von knochen metastases nach under schiedlich fractionierter strahlentherapie (10 mal 3 Gy vs 1 mal 8 Gy). Strahlenther Onkol. 1999; 175: 500-508. Nielson OS, Bentzen SM, et al. Randomised trial of single dose vs fractionated palliative radiotherapy of bone metastases. Radiother Oncol. 1998

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Giulia Maria Liosi, Francesca Giacobbo, Emanuele Pignoli, Mauro Carrara, Grazia Gambarini and Mario Mariani

. Phys.-Conf. Ser., 3, 87-114. DOI: 10.1088/1742-6596/3/1/009. 12. Jordan, K. J., & Battista, J. (2004). Dose response of ferrous-xylenol orange gels: the effects of gel substrate, gelation time and dose fractionation. J. Phys.-Conf. Ser., 3, 232-235. DOI: 10.1088/1742-6596/3/1/035. 13. Jordan, K. J., MacDonald, D. J., Pajak, T., & Battista, J. J. (2001). Refrigeration temperature gradients generate dose response artifacts in Fricke gelatin dosimeters. In DosGel2001 2nd International Conference on Radiotherapy Gel Dosimetry (pp. 95

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Anna Papiez, Christophe Badie and Joanna Polanska

41 (1/2): 133–145. Kabacik, S., Mackay, A., Tamber, N., Manning, G., Finnon, P., Paillier, F., Ashworth, A., Bouffler, S. and Badie, C. (2011). Gene expression following ionising radiation: Identification of biomarkers for dose estimation and prediction of individual response, International Journal of Radiation Biology 87 (2): 115–129. Kabacik, S., Manning, G., Raffy, C., Bouffler, S. and Badie, C. (2015). Time, dose and ataxia telangiectasia mutated (ATM) status dependency of coding and noncoding RNA expression after ionizing radiation exposure

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Jelica Bjekić-Macut, Vojislav Radosavljević, Zoran Andrić, Dušan Ilić, Olivera Stanojlović, Danijela Vojnović Milutinović, Ivana Božić Antić, Marija Zdravković, Saša Hinić, Djuro Macut and Miloš Žarković

List of abbreviations: SIRS, systemic inflammatory response syndrome; ACTH, adrenocorticotropin; APACHE, acute physiology and chronic health evaluation; SOFA, sequential organ failure assessment; ICU/RICU, intensive care unit / respiratory intensive care unit; LDT, low-dose test; ARDS, acute respiratory distress syndrome. References 1. Bone RC, Balk RA, Cerra FB, Dellinger RP, Fein AM, Knaus WA, et al. Definitions for sepsis and organ failure and guidelines for the use of innovative therapies in sepsis. The ACCP/SCCM Consensus

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E. Dvorožňáková, M. Jalčová and Z. Hurníková

infected with low doses of Trichinella spiralis, T. britovi, and T. pseudospiralis larvae. Helminthologia 47(3): 152–157. DOI: 10.2478/s11687- 010-0023-x [8] Dvorožňáková, E., Hurníková, Z., Kołodziej-Sobocińska, M. (2011): Development of cellular immune response of mice to infection with low doses of Trichinella spiralis, T. britovi, and T. pseudospiralis larvae. Parasitol. Res. 108(1): 169–176. DOI: 10.1007/s00436-010-2049-x [9

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Pavel Stavrev, Colleen Schinkel, Nadia Stavreva, Krassimir Markov and B. Fallone

dose-volume histograms. Radiat Res Suppl 1985; 8 : S13-19. Burman C, Kutcher GJ, Emami B, Goitein M. Fitting of normal tissue tolerance data to an analytic function. Int J Radiat Oncol Biol Phys 1991; 21 : 123-35. Stavrev P, Stavreva N, Niemierko A, Goitein M. Generalization of a model of tissue response to radiation based on the idea of functional subunits and binomial statistics. Phys Med Biol 2001; 46 : 1501-18. Stavrev P, Stavreva N, Niemierko A, Goitein M. The application of

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E. Dvorožňáková, Z. Hurníková and M. Kołodziej-Sobocińska

. I. (1985): Antigen production by encysted muscle larvae of Trichinella spiralis. J. Helminthol., 59: 71–77 [30] Reiterová, K., Dubinský, P., Klimenko, V. V., Tomašovičová, O., Dvorožňáková, E. (1999): Comparison of Trichinella spiralis larva antigens for the detection of specific antibodies in pigs. Vet. Med-Czech., 44: 1–5 [31] Reiterová, K., Antolová, D., Hurníková, Z. (2009): Humoral immune response of mice infected with low doses of Trichinella spiralis muscle