References
- Bardati F., Solimini D. Microwave radiometry for temperature monitoring in biological structures: an outline. Locoregional High-frequency Hyperthermia and Temperature Measurement, RRCR 101, G. Bruggmoser, et al. Springer VErlag, Berlin, Heidelberg, New York, Paris, Tokyo 1986; 99–102
- Bruggmoser G., Hinkelbein W., Neugebauer V. Design of an experimental setup for combined treatment (RT plus HT) of Nude Mice. International Journal of Hypertermia 1986; 2: 394–395
- Chivé M., Plancot M., Van de Velde J. C. Wide and micro-strip-slot applicators for microwave hyperthermia and microwave thermography. Summaries of presented papers. Symposium on Microwave Powers 1983; 18: 92–95
- Chou C. K. Phantoms for electromagnetic heating studies. Physics and Technology of Hyperthermia, S. B. Field, C. Franconi. Martinus Nijhoff, Dordrecht, Boston, Lancaster 1987; 294–318
- Froese G., Dunscombe P. B., Das R. M., McLellan J. Thermal dosimetry of the spinal cord heating in the mouse. International Journal of Hyperthermia 1990; 6: 319–332
- Hinkelbein W., Wallbrecher E., Fiebig H. H., Wannenmacher M. Fractionated irradiation under ambient conditions of human NSCLC transplanted into nude mice: effect of different fractionation schedules of radiotherapy and vindesine. Strahlentherapie Onkologie 1989; 165: 519–520
- Kist R., Drope S., Wölfelschneider H. Fiber Fabry-Perot thermometer for medical applications. Locoregional High-frequency Hyperthermia and Temperature Measurement, RRCR 101, G. Bruggmoser, et al. Springer Verlag, Berlin, Heidelberg, New York, Paris, Tokyo 1986; 103–108
- Land D. V. A clinical microwave thermography system. E. E. Proceedings 1987; 134: 193–200
- Lagendijk J. J. W. Heat transfer in tissues. Physics and Technology of Hyperthermia, S. B. Field, C. Franconi. Martinus Nijhoff, Dordrecht, Boston, Lancaster 1987; 517–552
- Leroy Y., Mamouni A., Hochedez-Robillard M., Van de Velde J. C., Bellarbi K., Enel L. Non invasive thermometry by microwave radiometry. Hyperthermic Oncology, J. Overgaard. Taylor & Francis, London, Philadelphia 1984; Vol. 1: 541–544
- Lüdeke K. M., Koehler J., Kanzenbach J. A radiation balance microwave thermograph for medical applications. Acta Electronica 1979; 22: 65–69
- Plancot M., Chivé M., Giaux G., Prevost B. Thermal dosimetry in microwave hyperthermia process based on radiometric temperature measurements; principles and feasibility. Hyperthermic Oncology, J. Overgaard. Taylor & Francis, London, Philadelphia 1984; Vol. 1: 863–866
- Plancot M., Prevost B., Chivé M., Fabre J. J., Ledee R., Giaux R. A new method for thermal dosimetry in microwave hyperthermia using microwave radiometry for temperature control. International Journal of Hyperthermia 1987; 3: 9–19
- Roemer R. B., Fletcher A. M., Cetas T. C. Obtaining local SAR and blood perfusion data from temperature measurements: steady state and transient techniques compared. International Journal of Radiation Oncology, Biology and Physics 1985; 12: 373–378
- Rofstad E. K., Brustad T. Hyperthermic radiosensitizing of cells from a human melanoma xenograft. Radiation Research 1984; 99: 59–72
- Rofstad E. K., Brustad T. Arrhenius analysis of the heat response in vivo, in vitro of human melanoma xenografts. International Journal of Hyperthermia 1986; 2: 359–368
- Samaras G. M. Intracranial microwave hyperthermia: Heat induction and temperature control. IEEE Transactions on Biomedical Engineering 1984; BME31: 63–69
- Vanloot D. Contribution a l'etude et la realisation d'un dispositif de traitement du signal optimum pour des systems radiometriques. Application au radiometre a methode de zero automatique. Thèse, Université de Lille. 1987
- Zywietz F., Knöchel R., Kordts J. Heating of rhabdomyosarcoma of the rat by 2450 MHz microwaves: technical aspects and temperature distributions. Locoregional High-frequency Hyperthermia and Temperature Measurements, RRCR 101, G. Bruggmoser, et al. Springer Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo 1986; 36–46