Khot, M. P., Maitz, P. K. M., Phillips, B. R., Bowman, H. F., Pribaz, J. J., and Orgill, D. P., 2005, “Thermal Diffusion Probe Analsis of Perfusion Changes in Vascular Occlusions of Rabbit Pedicle Flaps,” Plast. Reconstr. Surg., 115 , pp. 1103–1109.
Stewart, C. J., Frank, R., Forrester, K. R., Tulip, J., Lindsay, R., and Bray, R. C., 2005, “A Comparison of Two Laser-Based Methods for Determination of Burn Scar Perfusion: Laser Doppler Versus Laser Speckle Imaging,” Burns, 31 , pp. 744–752.
Wintermark, M., Sesay, M., Barbier, E., Borbely, K., Dillon, W. P., Eastwood, J. D, Glenn, T. C., Grandin, C. B., Pedraza, S., Soustiel, J.-F., Nariai, T., Zaharchuk, G., Caille, J.-M., Dousset, V., and Yonas, H., 2005, “Comparative Overview of Brain Perfusion Imaging Techniques,” Stroke
[CrossRef], 36 , pp. 83–99.
1990, "Laser-Doppler Blood Flowmetry", A.P.Shepherd and P.Å.Öberg, eds., Kluwer Academic, Boston MA..
Richardson, R., Haseler, L. J., Nygren, A. T., Bluml, S., and Frank, L. R., 2001, “Local Perfusion and Metabolic Demand During Exercise: A Noninvasive MRI Method of Assessment,” J. Appl. Physiol., 91 , pp. 1845–1853.
Dias, M., Hadgraft, J., Glover, P. M., and McDonald, P. J., 2003, “Stray Field Magnetic Resonance Imaging: A Preliminary Study of Skin Hydration,” J. Phys. D
[CrossRef], 36 . pp. 364–368.
Bowman, H. F., 1985, “Estimation of Tissue Blood Flow,” "Heat Transfer in Medicine and Biology", A.Shitzer and R.C.Eberhart, eds, Plenum, New York, Vol. 1 , Chap. 9, pp. 193–230.
Chato, J. C., 1985, “Measurements of Thermal Properties of Biological Materials,” "Heat Transfer in Medicine and Biology", A.Shitzer and R.C.Eberhart, eds., Plenum, New York, Vol. 1 , Chap. 8, pp. 93–122.
Eberhart, R. C., Shitzer, A., and Hernandez., E. J., 1980, “Thermal Dilution Methods: Estimation of Tissue Blood Flow and Metabolism,” in Thermal Characteristics of Tissue: Applications in Detection and Treatment, Ann. N.Y. Acad. Sci., 35 , pp. 107–132.
Kress, R., and Roemer, R., 1987, “A Comparative Analysis of Thermal Blood Perfusion Measurement Techniques,” ASME J. Biomech. Eng., 109 , pp. 218–225.
Newman, W. H., Bowman, H. F., Orgill, D. P., and Klar, E., 1995, “A Methodology for In Vivo Measurement of Blood Flow in Small Tissue Volumes,” "Advances in Heat and Mass Transfer in Biotechnology", L.J.Hayes, ed., ASME, New York, pp. 99–105.
Vajkoczy, P., Roth, H., Horn, P., Lucke, T., Thome, C., Hubner, U., Martin, G., Zappletal, C., Klar, E., Schilling, L., and Schmiedek, P., 2000, “Continuous Monitoring of Regional Cerebral Blood Flow: Experimental and Clinical Validation of a Novel Thermal Diffusion Microprobe,” J. Neurosurg., 93 , pp. 265–274.
Valvano, J. W., and Nho, S., 1991, “Tissue Thermal Diffusivity Measured With Sinusoidally Heated Thermistors,” "Advances in Biological Heat and Mass Transfer", J.J.McGrath, ed., ASME, New York, pp. 9–14.
Patel, P. A., Valvano, J. W., Pearce, J. A., Prahl, S. A., and Denham, C. R., 1987, “A Self-Heated Thermistor Technique to Measure Effective Thermal Properties From the Tissue Surface,” ASME J. Biomech. Eng., 109 , pp. 330–335.
Wei, D., Saidel, G., and Jones, S., 1995, “Estimation of Cerebral Blood Flow From Thermal Measurement,” ASME J. Biomech. Eng.
[CrossRef], 117 , pp. 74–85.
Castellana, F. S., Skalak, R., Cho, J. M., and Case, R. B., 1983, “Steady-State Analysis and Evaluation of a New Thermal Sensor for Surface Measurements of Tissue Perfusion,” Ann. Biomed. Eng.
[CrossRef], 11 , pp. 101–115.
Walsh, J. T., and Bowman, H. F., 1984, “A Noninvasive Technique for Quantifying Tissue Perfusion,” "Advances in Bioengineering", R.L.Spilker, ed., ASME, New York, pp. 5–6.
Peng, J., Xia, Y., Gao, T., Lei, X., and Zhao, S., 2000, “A Surface Heat Disturbance Method for Measuring Local Tissue Blood Perfusion Rate,” Heat Transfer - Asian Research, 29 (1), pp. 34–44.
Holti., G., and Mitchell, K., 1979, “Estimation of the Nutrient Skin Blood Flow Using a Non-Invasive Segmented Thermal Clearance Probe,” "Non-Invasive Physiological Measurements", E.Rolfe, ed., Academic, London, Vol. 1 , pp. 113–123.
Valvano, J. W., Badeau, A. F., Prahl, S. A., Chan, J. C., and Pearce, J. A., 1988, “Thermal Camera Imaging to Measure Tissue Surface Perfusion,” "Association for the Advancement of Medical Instrumentation 23rd Annual Meeting", Washington, DC, May 14–18.
Cui, Z. F., and Barbenel, J. C., 1991, “The Influence of Model Parameter Values on the Prediction of Skin Surface Temperature: II. Contact Problems,” Phys. Med. Biol.
[CrossRef], 36 , pp. 1607–1620.
Anderson, G. T., and Burnside, G., 1990, “A Noninvasive Technique to Measure Perfusion Using a Focused Ultrasound Heating Source and a Tissue Surface Temperature Measurement,” "Advances in Measuring and Computing Temperatures in Biomedicine: Thermal Tomography Techniques, Bioheat Transfer Models", R.B.Roemer, J.W.Valvano, L.Hayes, and G.T.Anderson, eds., ASME, New York, pp. 31–36.
O’Reilly, T., Gonzales, T., and Diller, T., 1996, “Development of a Noninvasive Blood Perfusion Probe,” "Advances in Biological Heat and Mass Transfer", L.J.Hayes and S.Clegg, eds., ASME, New York, HTD-Vol. 337/BED, Vol. 34 , pp. 67–73.
Scott, E. P., Robinson, P., and Diller, T. E., 1998, “Development of Methodologies for the Estimation of Blood Perfusion Using a Minimally Invasive Thermal Probe,” Meas. Sci. Technol.
[CrossRef], 9 (6), pp. 888–897.
Terrell, J. P., 1996, “New High Sensitivity, Low Thermal Resistance Surface Mounted Heat Flux Transducer,” "Proceedings of 42nd International Instrumentation Symposium", ISA, Triangle Park, NC, pp. 235–249.
Pennes, H., 1948, “Analysis of Tissue and Arteriole Blood Temperatures in the Resting Forearm,” J. Appl. Physiol., 1 , pp. 93–122.
Nelson, D. A., 1998, “Invited Editorial on ‘Pennes’ 1948 Paper Revisited,” J. Appl. Physiol., 85 , pp. 2–3.
Robinson, P., “Development of Methodologies for the Noninvasive Estimation of Blood Perfusion,” M.S. thesis, Virginia Tech, 1998.