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References
Andreuccetti, D., Fossi, R., Petrucci, C., 1997. An Internet Resource for the Calculation of the
Dielectric Properties of Body Tissues in the Frequency Range 10 Hz 100 GHz. IFAC CNR,
Florence (Italy), Based on data published by Gabriel C. et al. in 1996. [Online]. ,http://niremf.ifac.
cnr.it/tissprop/..
Bachmann, D., Haasner, E., 1965. cited by Illustrated Encyclopedia of Human Anatomic Variation: Opus II:
Cardiovascular System: Arteries: Thorax Intercostal Artery, Ronald A. Bergman, PhD, Adel K. Afifi, MD,
MS, Ryosuke Miyauchi, MD Truncus Intercosto Renalis, 102. Fortschr. Geb. Rontgenstr.
Nuklearmed, pp. 712 713.
Baerov, R., 2019. Magnetic Stimulation of the Lumbar Spine Planning Assisted by Numerical Modeling (in
Romanian), Diploma Project. The Faculty of Medical Engineering, “Politehnica” University of
Bucharest, Romania.
Baronzio, G., Gramaglia, A., Fiorentini, G., 2006. Hyperthermia and immunity. A brief overview. Vivo
20, 689 696.
Bhowmick, S., Coad, J.E., Swanlund, D.J., Bischof, J.C., 2004. In vitro thermal therapy of AT 1
Dunning prostate tumors. Int. J. Hyperth. 20 (1), 73 92.
Bejan, A., 2000. Shape and Structure, from Engineering to Nature. Cambridge University Press.
Bejan, A., Zane, J.P., 2012. Design in Nature. How Constructal Law Governs Evolution in Biology,
Physics, Technology, and Social Organization. Anchor Books, Random House Inc, New York.
Bertram, J.M., Yang, D., Converse, M.C., Webster, J.G., Mahvi, D.M., 2006. Antenna design for micro-
wave hepatic ablation using an axisymmetric electromagnetic model. Biomed. Eng. OnLine 5, 15.
Boston Scientific Corporation, 2013. Boston Scientific Advancing Since for life, Natick, MA, USA,
, https://www.bostonscientific.com/content/dam/bostonscientific/pi/portfolio-group/rfa/RFA-
Family-Brochure-ENDO-149636-AA.pdf.
Brace, C., 2011. Thermal tumor ablation in clinical use. IEEE Pulse 2 (5), 28 38.
British Institute of Radiology, 2014. ,https://www.birpublications.org/doi/abs/10.1259/bjr/
17150274 .
Brown, S.L., Hunt, J.W., Hill, R.P., 1992. Differential thermal sensitivity of tumor and normal tissue
microvascular response during hyperthermia. Int. J. Hyperth. 8 (4), 501 514.
Christensen, D.A., Durney, C.H., 1981. Hyperthermia production for cancer therapy: a review of funda-
mentals and methods. J. Microw. Power 16, 89 105.
Comsol Multiphysics, 2010 2019. AB, v. 3.5a...5.3a.
Danhier, F., Feron, O., Préat, V., 2010. To exploit the tumor microenvironment: passive and active
tumor targeting of nanocarriers for anti-cancer drug delivery. J. Controlled Rel. 148, 135 146.
Dassault Systemes, 2016. Solidworks Corporation, France.
Dahl, O., Overgaard, J., 1995. A century with hyperthermic oncology in Scandinavia. Acta Oncologica
34 (8), 1075 1083.
De Mey, G., Strakowska, M., Wiecek, B., 2016. Macroscale heat transfer in human tissues. In: 23rd
International Conference Mixed Design of Integrated Circuits and Systems, 23 25 June 2016, èodz,
Poland.
Dewhirst, M.W., Lora-Michiels, M., Viglianti, B.L., Dewey, W.C., Repacholi, M., 2003a. Carcinogenic
effects of hyperthermia. Int. J. Hyperth. 19, 236 251.
Dewhirst, M.W., Viglianti, B.L., Lora-Michiels, M., Hanson, M., Hoopes, P.J., 2003b. Basic principles of
thermal dosimetry and thermal thresholds for tissue damage from hyperthermia. Int. J. Hyperth. 19
(3), 267 294. May June.
Dickson, J.A., Calderwood, S.K., 1980. Temperature range and selective sensitivity of tumors to hyper-
thermia: a critical review. Ann. N.Y. Acad. Sci. 335, 180 205.
Dobre A.A., Morega A.M., Virlan L.D., Sandoiu A.M., Morega M., 2017. Planning of renal tumor abla-
tion aided by numerical modeling. In: Proceedings of the 10th International Symposium on
Advanced Topics in Electrical Engineering, ATEE 2017, pp. 274 278, Bucharest, Romania.
Duck, F.A., 1990. Physical Properties of Tissue. Academic Press.
