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Noninvasive temperature estimation based on the energy of backscattered ultrasound
1.M. W. Dewhirst, L. Prosnitz, D. Thrall, D. Prescott, S. Cleff, C. Charles, J. Macfall, G. Rosner, T. Samulski, E. Gillette, and S. LaRue, “Hyperthermic treatment of malignant diseases: Current status and a view toward the future,” Semin. Oncol. 24, 616–625 (1997).
2.R. J. Myerson, E. G. Moros, and J. L. Roti, “Principles and practice of radiation oncology,” in Hyperthermia, 3rd ed., edited by C. A. Perez and L. W. Brady (Lippincott-Raven, Philadelphia, 1998), Chap. 24, pp. 637–683.
3.J. Overgaard, D. Gonzales, M. Hulshof, G. Arcangeli, O. Dahl, O. Mella, and S. Bentzen, “Hyperthermia as an adjuvant to radiation therapy of recurrent or metastatic malignant melanoma. A multicenter randomized trial by the European society for hyperthermic oncology,” Int. J. Hyperthermia 12, 3–20 (1996).
4.C. Vernon, J. Hand, S. Field, D. Machin, J. Whaley, J. van der Zee, W. van Putten, G. van Rhoon, J. van Dijk, D. Gonzalez, F. Liu, P. Goodman, and M. Sherar, “Radiotherapy with or without hyperthermia in the treatment of superficial localized breast cancer: results from five randomized controlled trials,” Int. J. Radiat. Oncol., Biol., Phys. 35, 731–744 (1996).
5.H. K. Lee, A. G. Antell, C. A. Perez, W. L. Straube, G. Ramachandran, R. J. Myerson, B. Emami, E. P. Molmenti, A. Buckner, and M. A. Lockett, “Specific absorption rate as a predictor of outcome in superficial tumors treated with hyperthermia and radiation therapy,” Int. J. Radiat. Oncol., Biol., Phys. 40, 365–375 (1998).
6.R. J. Myerson, W. L. Straube, E. G. Moros, B. N. Emami, H. K. Lee, C. A. Perez, and M. E. Taylor, “Simultaneous superficial hyperthermia and external radiotherapy: report of thermal dosimetry and tolerance to treatment,” Int. J. Hyperthermia 15, 251–266 (1999).
7.J. van dėr Zee, D. Gonzalez, G. van Rhoon, J. van Dijk, W. van Putten, and A. Hart, “Comparison of radiotherapy alone with radiotherapy plus hyperthermia in locally advanced pelvic tumours: a prospective, randomised, multicentre trial,” Lancet 355, 1119–1125 (2000).
8.K. Hynynen, A. Chung, M. Buchanan, T. Fjield, T. D. Daum, V. Colucci, P. Lopath, and F. Jolesz, “Feasibility of using ultrasound phased arrays for mri monitored noninvasive surgery,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control 43, 1043–1053 (1996).
9.M. Dewhirst, D. Sim, S. Sapareto, and W. Coner, “Importance of minimum tumor temperature in determining early and long-term responses of spontaneous canine and feline tumors to heat and radiation,” Cancer Res. 44, 43–50 (1984).
10.R. Myerson, C. Perez, B. Emami, W. Straube, R. Kuske, L. Leybovich, and J. Von Gerichten, “Tumor control in long-term survivors following superficial hyperthermia,” Int. J. Radiat. Oncol., Biol., Phys. 18, 1123–1129 (1990).
11.K. Leopold, M. Dewhirst, T. Samulski, R. Dodge, S. George, J. Blivin, L. Progsnitz, and J. Oleson, “Relationships among tumor temperature, treatment time, and histopathological outcome using preoperative hyperthermia with radiation in soft tissue sarcomas,” Int. J. Radiat. Oncol., Biol., Phys. 22, 989–998 (1992).
12.E. G. Moros and K. Hynynen, “A comparison of theoretical and experimental ultrasound field distributions in canine muscle tissue in vivo,” Ultrasound Med. Biol. 18, 81–92 (1992).
13.J. Hand, D. Machin, C. Vernon, and J. Whaley, “Analysis of thermal parameters obtained during phase iii trials of hyperthermia as an adjunct to radiotherapy in the treatment of breast carcinoma,” Int. J. Hyperthermia 13, 343–364 (1997).
14.H. R. Underwood, E. C. Burdette, K. B. Ocheltree, and R. L. Magin, “A multielement ultrasonic hyperthermia applicator with independent element control,” Int. J. Hyperthermia 3, 257–267 (1987).
15.T. V. Samulski, W. J. Grant, J. R. Oleson, K. A. Leopold, M. W. Dewhirst, P. Vallario, and J. Blivin, “Clinical experience with a multi-element ultrasonic hyperthermia system: Analysis of treatment temperatures,” Int. J. Hyperthermia 6, 909–922 (1990).
16.E. Moros, W. Straube, and R. Myerson, “A reflected scanned ultrasound system for external simultaneous thermoradiotherapy,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control 43, 441–449 (1996).
17.P. Stauffer, F. Rossetto, M. Leoncini, and G. Gentilli, “Radiation patterns of dual concentric conductor microstrip antennas for superficial hyperthermia,” IEEE Trans. Biomed. Eng. 45, 605–613 (1998).
18.E. G. Moros, X. Fan, and W. L. Straube, “Experimental assessment of power and temperature penetration depth control with a dual frequency ultrasonic system,” Med. Phys. 26, 810–817 (1999).
19.Z. Sun and H. Ying, “A multi-gate time-of-flight technique for estimation of temperature distribution in heated tissue: theory and computer simulation,” Ultrasonics 37, 107–122 (1999).
20.K. Paulsen, M. Moskowitz, T. Ryan, S. Mitchell, and P. Hoopes, “Initial in vivo experience with iet as a thermal estimator during hyperthermia,” Int. J. Hyperthermia 12, 573–591 (1996).
21.P. Meaney, K. Paulsen, A. Hartov, and R. Crane, “Microwave imaging for tissue assessment: Initial evaluation in multitarget tissue-equivalent phantoms,” IEEE Trans. Biomed. Eng. 43, 878–890 (1996).
22.D. Carter, D. J. MacFall, S. Clegg, S. X. Wan, D. Prescott, H. Charles, and T. Samulski, “Magnetic resonance thermometry during hyperthermia for human high-grade sarcoma,” Int. J. Radiat. Oncol., Biol., Phys. 40, 815–822 (1998).
23.F. Jansson and E. Sundmar, “Determination of the velocity of ultrasound in ocular tissues at different temperatures,” Acta Ophthalmol. 39, 899–910 (1961).
24.M. O’Donnell, J. W. Mimbs, B. E. Sobel, and J. G. Miller, “Ultrasonic attenuation of myocardial tissue: Dependence on time after excision and on temperature,” J. Acoust. Soc. Am. 62, 1054–1057 (1977).
25.J. C. Bamber and C. R. Hill, “Ultrasonic attenuation and propagation speed in mammalian tissues as a function of temperature,” Ultrasound Med. Biol. 5, 149–157 (1979).
26.T. Bowen, W. G. Connor, R. L. Nasoni, A. E. Pifer, and R. R. Sholes, “Measurement of the temperature dependence of the velocity of ultrasound in soft tissues,” in Ultrasonic Tissue Characterization II, edited by M. Linzer, National Bureau of Standards, Spec. Publ. 525 (U.S. Government Printing Office, Washington, DC, 1979), pp. 57–61.
27.P. M. Gammell, D. H. Le Croissette, and R. C. Heyser, “Temperature and frequency dependence of ultrasonic attenuation in selected tissues,” Ultrasound Med. Biol. 5, 269–277 (1979).
28.R. L. Nasoni, T. Bowen, W. G. Connor, and R. R. Sholes, “In vivo temperature dependence of ultrasound speed in tissue and its application to noninvasive temperature monitoring,” Ultrason. Imaging 1, 34–43 (1979).
29.B. Rajagopalan, J. F. Greenleaf, P. J. Thomas, S. A. Johnson, and R. C. Bahn, “Variation of acoustic speed with temperature in various excised human tissues studied by ultrasound computerized tomography,” in Ultrasonic Tissue Characterization II, edited by M. Linzer, National Bureau of Standards, Spec. Publ. 525 (U. S. Government Printing Office, Washington, DC, 1979), pp. 227–233.
30.F. W. Kremkau, R. W. Barnes, and C. P. McGraw, “Ultrasonic attenuation and propagation speed in normal human brain,” J. Acoust. Soc. Am. 70, 29–38 (1981).
31.A. C. Lamont and B. J. Cremin, “The effect of temperature on ultrasonic images in infant cadavers,” Br. J. Radiol. 59, 271–272 (1986).
32.D. Shore and C. A. Miles, “Attenuation of ultrasound in homogenates of bovine skeletal muscle and other tissues,” Ultrasonics 26, 218–222 (1988).
33.R. N. McCarthy, L. B. Jeffcott, and R. N. McCartney, “Ultrasound speed in equine cortical bone: Effects of orientation, density, porosity and temperature,” J. Biomech. 23, 1139–1143 (1990).
34.W. L. Straube and R. M. Arthur, “Theoretical estimation of the temperature dependence of backscattered ultrasonic power for noninvasive thermometry,” Ultrasound Med. Biol. 20, 915–922 (1994).
35.O. Prakash, M. Fabbri, M. Drocourt, J. M. Escanye, C. Marchal, M. L. Gaulard, and J. Robert, “Hyperthermia induction and its measurement using ultrasound,” Proceedings of IEEE Symposium on Ultrasonics (IEEE, New York, 1980), pp. 1063–1066.
36.S. A. Johnson, D. A. Christensen, C. C. Johnson, J. F. Greenleaf, and B. Rajagopalan, “Non-intrusive measurement of microwave and ultrasound-induced hyperthermia by acoustic temperature tomography,” Proceedings of IEEE Symposium on Ultrasonics (IEEE, New York, 1977), pp. 977–982.
37.J. Ophir, “Estimation of the speed of ultrasound propagation in biological tissues: A beam-tracking method,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control 33, 359–368 (1986).
38.E. Ebbini, C. Simon, and P. VanBaren, “Two-dimensional temperature estimation using diagnostic ultrasound,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control 45, 1088–1099 (1998).
39.R. Maass-Moreno and C. A. Damianou, “Noninvasive temperature estimation in tissue via ultrasound echoshifts, part i. analytical model,” J. Acoust. Soc. Am. 100, 2514–2521 (1996).
40.N. T. Sanghvi, R. Maass-Moreno, and C. A. Damianou, “Noninvasive temperature estimation in tissue via ultrasound echo-shifts. part ii. in vitro study,” J. Acoust. Soc. Am. 100, 2522–2530 (1996).
41.C. A. Damianou, N. T. Sanghvi, F. J. Fry, and R. Maass-Moreno, “Dependence of ultrasonic attenuation and absorption in dog soft tissues on temperature and thermal dose,” J. Acoust. Soc. Am. 102, 628–634 (1997).
42.R. A. Sigelmann and J. M. Reid, “Analysis and measurement of ultrasound backscattering from an ensemble of scatterers excited by sine-wave bursts,” J. Acoust. Soc. Am. 53, 1351–1355 (1973).
43.K. K. Shung, M. B. Smith, and B. Tsui, Principles of Medical Imaging (Academic, New York, 1992), pp. 90–99.
44.P. M. Morse and K. U. Ingard, Theoretical Acoustics (McGraw-Hill, New York, 1968), p. 427.
45.A. R. Selfridge, “Approximate material properties in isotropic materials,” IEEE Trans. Sonics Ultrason. SU-32, 381–394 (1985).
46.X. Fan and K. Hynynen, “The effect of wave reflection and refraction at soft tissue interfaces during ultrasound hyperthermia treatments,” J. Acoust. Soc. Am. 91, 1727–1736 (1992).
47.R. Seip and E. S. Ebbini, “Noninvasive estimation of tissue temperature response to heating fields using diagnostic ultrasound,” IEEE Trans. Biomed. Eng. 42, 828–839 (1995).
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