• Abe, K., S. Mizoshiri, T. Sugiura, and S. Mizushina (1995), Electromagnetic near fields of rectangular waveguide antenna in contact with biological objects obtained by the FDTD method, IEICE Trans. Commun., E78, 851858.
  • Arunachalam, K., P. R. Stauffer, P. F. Maccarini, S. Jacobsen, and F. Sterzer (2008), Characterization of a digital microwave radiometry system for noninvasive thermometry using temperature controlled homogeneous test load, Phys. Med. Biol., 53, 38833901.
  • Azzopardi, D., F. M. Cowan, N. J. Robertson, and A. D. Edwards (1999), Mild whole body hypothermia following birth asphyxia, Pediatr. Res., 45, 908.
  • Camps, A. (2010), Noise wave analysis of Dicke and noise injection radiometers: Complete S parameter analysis and effect of temperature gradients, Radio Sci., 45, RS5004, doi:10.1029/2009RS004198.
  • Childs, C., A. Vali, R. Protheroe, A. T. King, and P. M. Dark (2005), Differences between brain and rectal temperatures during routine critical care of patients with severe traumatic brain injury, Anaesthesia, 60, 759765.
  • Childs, C., Y. Hiltunen, R. Vidyasagar, and R. A. Kauppinen (2007), Determination of regional brain temperature using proton magnetic resonance spectroscopy to assess brain-body temperature differences in healthy human subjects, Magn. Reson. Med., 57, 5966.
  • Corbett, R. J. T., A. R. Laptook, G. Tollefsbol, and B. Kim (1995), Validation of a noninvasive method to measure brain temperature in vivo using 1H NMR spectroscopy, J. Neurochem., 64, 12241230.
  • Edwards, A. D., P. Brocklehurst, A. J. Gunn, H. Halliday, E. Juszczak, M. Levene, B. Strohm, M. Thoresen, A. Whitelaw, and D. Azzopardi (2010), Neurological outcomes at 18 months of age after moderate hypothermia for perinatal hypoxic ischaemic encephalopathy: synthesis and meta-analysis of trial data, BMJ, 340, doi:1136/bmj.c363.
  • Eicher, D. J., et al. (2005), Moderate hypothermia in neonatal encephalography: Safety outcomes, Pediatr. Neurol., 32, 1117.
  • Hand, J. W., G. M. J. Van Leeuwen, S. Mizushina, J. B. Van de Kamer, K. Maruyama, T. Sugiura, D. V. Azzopardi, and A. D. Edwards (2001), Monitoring of deep brain temperature in infants using multi-frequency microwave radiometry and thermal modeling, Phys. Med. Biol., 46, 18851903.
  • Jacobs, S., R. Hunt, W. Tarnow-Mordi, T. Inder, and P. Davis (2003), Cooling for newborns with hypoxic ischemic encephalopathy, Cochrane Database Syst. Rev., 4, CD003311.
  • Karaszewski, B., J. M. Wardlaw, I. Marshall, V. Cvoro, K. Wartolowska, K. Haga, P. A. Armitage, M. E. Bastin, and M. S. Dennis (2006), Measurement of brain temperature with magnetic resonance spectroscopy in acute ischemic stroke, Ann. Neurol., 60, 438446.
  • Lawson, L., E. J. Bridge, I. Ballou, R. Eraker, S. Greco, J. Shively, and V. Sochulak (2007), Accuracy and precision of noninvasive temperature measurement in adult intensive care patients, Am. J. Crit. Care, 16, 485496.
  • Lee, J. W., S. M. Lee, K. S. Kim, W. T. Ham, G. Yoon, L. A. Pasmanik, and A. V. Troitsky (2004), Experimental investigation of the mammary gland tumour phantom for multifrequency microwave radio-thermometers, Med. Biol. Eng. Comput., 42, 581590.
  • Leeuwen, G. M. J. V., J. W. Hand, A. D. Edwards, D. Azzopori, and J. J. W. Lagendijk (2000), Numerical modeling of temperature distributions within the neonatal head, Pediatr. Res., 48, 351356.
  • Leroy, Y., B. Bocquet, and A. Mamouni (1998), Non-invasive microwave radiometry thermometry, Physiol. Meas., 19, 127148.
  • Lüdeke, K. M., B. Schiek, and J. Kohler (1978), Radiation balance microwave thermograph for industrial and medical applications, Electron. Lett., 14, 194196.
  • Maruyama, K., S. Mizushina, T. Sugiura, G. M. J. Van Leeuwen, J. W. Hand, G. Marrocco, F. Badarti, A. D. Edwards, D. Azzopardi, and D. Land (2000), Feasibility of non-invasive measurement of deep brain temperature in new-born infants by multi-frequency microwave radiometry, IEEE Trans. Microwave Theory Tech., 48, 21412147.
  • Mizushina, S., T. Shimizu, K. Suzuki, M. Komiyama, and T. Sugiura (1993), Retrieval of temperature-depth profiles in biological objects from multi-frequency microwave radiometric data, J. Electromagn. Waves, 7, 15151548.
  • Perlman, M., and P. Shah (2009), Time to adopt cooling for neonatal hypoxic-ischemic encephalopathy: Response to a previous commentary, Pediatrics, 121, 616618.
  • Perrone, S., M. Szabó, C. V. Bellieni, M. Longini, M. Bangó, D. Kelen, A. Treszl, S. Negro, M. L. Tataranno, and G. Buonocore (2010), Whole body hypothermia and oxidative stress in babies with hypoxic-ischemic brain injury, Pediatr. Neurol., 43, 236240.
  • Racette, P., and R. H. Lang (2005), Radiometer design analysis based upon measurement uncertainty, Radio Sci., 40, RS5004, doi:10.1029/2004RS003132.
  • Rieke, V., and K. B. Pauly (2008), MR thermometry, J. Magn. Reson. Imaging, 27, 376390.
  • Sugiura, T., N. Umehara, S. Mizushina, and H. Hirata (2010), Improvement of the confidence interval level of multi-frequency microwave radiometer system for measuring deep brain temperature in new born infants, paper presented at 27th Progress in Electromagnetic Research Symposium, Res. Lab. of Electron., Mass. Inst. of Technol., Xi'an, China.
  • Toutouzas, K., H. Grassos, A. Synetos, M. Drakopoulou, E. Tsiamis, C. Moldovan, G. Agrogiannis, E. Patsouris, E. Siores, and C. Stefanadis (2011), A new non-invasive method for detection of local inflammation in atherosclerotic plaques: Experimental application of microwave radiometry, Atherosclerosis, 215, 8289.
  • Ulaby, F. T. (1981), Microwave Remote Sensing: Active and Passive, vol. 1, Microwave Remote Sensing and Fundamentals, Artech House, Norwood, Mass.
  • Weis, J., L. Covaciu, S. Rubertsson, M. Allers, A. Lunderquist, and H. Ahlström (2009), Noninvasive monitoring of brain temperature during mild hypothermia, Magn. Reson. Imaging, 27, 923932.