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International Journal of Hyperthermia Volume 26, 2010 - Issue 8: Special issue on thermal therapy for prostate cancer
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RESEARCH ARTICLE

MRI-controlled transurethral ultrasound therapy for localised prostate cancer

Rajiv Chopra Imaging Research, Centre for Research in Image-Guided Therapeutics, Sunnybrook Health Sciences Centre, Toronto, and Department of Medical Biophysics, University of Toronto, Toronto, Ontario, CanadaCorrespondence[email protected]
,
Mathieu Burtnyk Imaging Research, Centre for Research in Image-Guided Therapeutics, Sunnybrook Health Sciences Centre, Toronto, and Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada
,
W. Apoutou N’djin Imaging Research, Centre for Research in Image-Guided Therapeutics, Sunnybrook Health Sciences Centre, Toronto, and Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada
&
Michael Bronskill Imaging Research, Centre for Research in Image-Guided Therapeutics, Sunnybrook Health Sciences Centre, Toronto, and Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada
Pages 804-821 | Received 27 Apr 2010, Accepted 20 Jun 2010, Published online: 02 Nov 2010

References

  • Tanter M, Thomas JL, Fink M. Focusing and steering through absorbing and aberrating layers: Application to ultrasonic propagation through the skull. J Acoust Soc Am 1998; 103: 2403–2410
  • Hynynen K, Jolesz FA. Demonstration of potential noninvasive ultrasound brain therapy through an intact skull. Ultrasound Med Biol 1998; 24: 275–283
  • Zhu H, Zhou K, Zhang L, Jin C, Peng S, Yang W, Li K, Su H, Chen W, Bai J, et al. High intensity focused ultrasound (HIFU) therapy for local treatment of hepatocellular carcinoma: Role of partial rib resection. Eur J Radiol 2009; 72: 160–166
  • Liu HL, Chang H, Chen WS, Shih TC, Hsiao JK, Lin WL. Feasibility of transrib focused ultrasound thermal ablation for liver tumors using a spherically curved 2D array: A numerical study. Med Phys 2007; 34: 3436–3448
  • Diederich CJ, Hynynen K. The development of intracavitary ultrasonic applicators for hyperthermia: A design and experimental study. Med Phys 1990; 17: 626–634
  • Hynynen K. The feasibility of interstitial ultrasound hyperthermia. Med Phys 1992; 19: 979–987
  • Deardorff DL, Diederich CJ. Axial control of thermal coagulation using a multi-element interstitial ultrasound applicator with internal cooling. IEEE Trans Ultrason Ferroelectr Freq Control 2000; 47: 170–178
  • Lafon C, Chapelon JY, Prat F, Gorry F, Margonari J, Theillere Y, Cathignol D. Design and preliminary results of an ultrasound applicator for interstitial thermal coagulation. Ultrasound Med Biol 1998; 24: 113–122
  • Chopra R, Luginbuhl C, Weymouth AJ, Foster FS, Bronskill MJ. Interstitial ultrasound heating applicator for MR-guided thermal therapy. Phys Med Biol 2001; 46: 3133–3145
  • Ross AB, Diederich CJ, Nau WH, Gill H, Bouley DM, Daniel B, Rieke V, Butts RK, Sommer G. Highly directional transurethral ultrasound applicators with rotational control for MRI-guided prostatic thermal therapy. Phys Med Biol 2004; 49: 189–204
  • Makin IR, Mast TD, Faidi W, Runk MM, Barthe PG, Slayton MH. Miniaturized ultrasound arrays for interstitial ablation and imaging. Ultrasound Med Biol 2005; 31: 1539–1550
  • Melodelima D, Lafon C, Prat F, Birer A, Cathignol D. Ultrasound cylindrical phased array for transoesophageal thermal therapy: Initial studies. Phys Med Biol 2002; 47: 4191–4203
  • Diederich CJ, Stafford RJ, Nau WH, Burdette EC, Price RE, Hazle JD. Transurethral ultrasound applicators with directional heating patterns for prostate thermal therapy: In vivo evaluation using magnetic resonance thermometry. Med Phys 2004; 31: 405–413
  • Kinsey AM, Diederich CJ, Tyreus PD, Nau WH, Rieke V, Pauley KB. Multisectored interstitial ultrasound applicators for dynamic angular control of thermal therapy. Med Phys 2006; 33: 1352–1363
  • Chopra R, Luginbuhl C, Foster FS, Bronskill MJ. Multifrequency ultrasound transducers for conformal interstitial thermal therapy. IEEE Trans Ultrason Ferroelectr Freq Control 2003; 50: 881–889
  • Bihrle R, Foster RS, Sanghvi NT, Fry FJ, Donohue JP. High-intensity focused ultrasound in the treatment of prostatic tissue. Urology 1994; 43: S21–26
  • Gelet A, Chapelon JY, Margonari J, Theillere Y, Gorry F, Souchon R, Bouvier R. High-intensity focused ultrasound experimentation on human benign prostatic hypertrophy. Eur Urol 1993; S23: 44–47
  • Hutchinson EB, Hynynen K. Intracavitary ultrasound phased arrays for prostate thermal therapies: MRI compatibility and in vivo testing. Med Phys 1998; 25: 2392–2399
  • Diederich CJ, Khalil IS, Stauffer PR, Sneed PK, Phillips TL. Direct-coupled interstitial ultrasound applicators for simultaneous thermobrachytherapy: A feasibility study. Int J Hyperthermia 1996; 12: 401–419
  • Diederich CJ. Ultrasound applicators with integrated catheter-cooling for interstitial hyperthermia: Theory and preliminary experiments. Int J Hyperthermia 1996; 12: 279–297, discussion 299–300
  • Deardorff DL, Diederich CJ, Nau WH. Air-cooling of direct-coupled ultrasound applicators for interstitial hyperthermia and thermal coagulation. Med Phys 1998; 25: 2400–2409
  • Nau WH, Diederich CJ, Stauffer PR. Directional power deposition from direct-coupled and catheter-cooled interstitial ultrasound applicators. Int J Hyperthermia 2000; 16: 129–144
  • Diederich CJ, Nau WH, Stauffer PR. Ultrasound applicators for interstitial thermal coagulation. IEEE Trans Ultrason Ferroelectr Freq Control 1999; 46: 1218–1228
  • Diederich CJ, Burdette EC. Transurethral ultrasound array for prostate thermal therapy: Initial studies. IEEE Trans Ultrason Ferrolectr Freq Contr 1996; 43: 1011–1022
  • Diederich CJ, Nau WH, Burdette EC, Bustany IS, Deardorff DL, Stauffer PR. Combination of transurethral and interstitial ultrasound applicators for high-temperature prostate thermal therapy. Int J Hyperthermia 2000; 16: 385–403
  • Lafon C, Koszek L, Chesnais S, Theillere Y, Cathignol D. Feasibility of a transurethral ultrasound applicator for coagulation in prostate. Ultrasound Med Biol 2004; 30: 113–122
  • Chopra R, Baker N, Choy V, Boyes A, Tang K, Bradwell D, Bronskill MJ. MRI-compatible transurethral ultrasound system for the treatment of localized prostate cancer using rotational control. Med Phys 2008; 35: 1346–1357
  • Blana A, Walter B, Rogenhofer S, Wieland WF. High-intensity focused ultrasound for the treatment of localized prostate cancer: 5-year experience. Urology 2004; 63: 297–300
  • Bouchoux G, Lafon C, Berriet R, Chapelon JY, Fleury G, Cathignol D. Dual-mode ultrasound transducer for image-guided interstitial thermal therapy. Ultrasound Med Biol 2008; 34: 607–616
  • Chopra R, Tang K, Burtnyk M, Boyes A, Sugar L, Appu S, Klotz L, Bronskill M. Analysis of the spatial and temporal accuracy of heating in the prostate gland using transurethral ultrasound therapy and active MR temperature feedback. Phys Med Biol 2009; 54: 2615–2633
  • Hazle JD, Diederich CJ, Kangasniemi M, Price RE, Olsson LE, Stafford RJ. MRI-guided thermal therapy of transplanted tumors in the canine prostate using a directional transurethral ultrasound applicator. J Magn Reson Imaging 2002; 15: 409–417
  • Hynynen K, Pomeroy O, Smith DN, Huber PE, McDannold NJ, Kettenbach J, Baum J, Singer S, Jolesz FA. MR imaging-guided focused ultrasound surgery of fibroadenomas in the breast: A feasibility study. Radiology 2001; 219: 176–185
  • Gianfelice D, Khiat A, Amara M, Belblidia A, Boulanger Y. MR imaging-guided focused US ablation of breast cancer: Histopathologic assessment of effectiveness – Initial experience. Radiology 2003; 227: 849–855
  • Huber PE, Jenne JW, Rastert R, Simiantonakis I, Sinn HP, Strittmatter HJ, von Fournier D, Wannenmacher MF, Debus J. A new noninvasive approach in breast cancer therapy using magnetic resonance imaging-guided focused ultrasound surgery. Cancer Res 2001; 61: 8441–8447
  • Tempany CM, Stewart EA, McDannold N, Quade BJ, Jolesz FA, Hynynen K. MR imaging-guided focused ultrasound surgery of uterine leiomyomas: A feasibility study. Radiology 2003; 226: 897–905
  • Gianfelice D, Gupta C, Kucharczyk W, Bret P, Havill D, Clemons M. Palliative treatment of painful bone metastases with MR imaging-guided focused ultrasound. Radiology 2008; 249: 355–363
  • Smith NB, Merrilees NK, Dahleh M, Hynynen K. Control system for an MRI compatible intracavitary ultrasound array for thermal treatment of prostate disease. Int J Hyperthermia 2001; 17: 271–282
  • Salomir R, Rata M, Cadis D, Petrusca L, Auboiroux V, Cotton F. Endocavitary thermal therapy by MRI-guided phased-array contact ultrasound: Experimental and numerical studies on the multi-input single-output PID temperature controller's convergence and stability. Med Phys 2009; 36: 4726–4741
  • Quesson B, Vimeux F, Salomir R, de Zwart JA, Moonen CT. Automatic control of hyperthermic therapy based on real-time Fourier analysis of MR temperature maps. Magn Reson Med 2002; 47: 1065–1072
  • Arora D, Cooley D, Perry T, Skliar M, Roemer RB. Direct thermal dose control of constrained focused ultrasound treatments: Phantom and in vivo evaluation. Phys Med Biol 2005; 50: 1919–1935
  • Salomir R, Palussiere J, Vimeux FC, de Zwart JA, Quesson B, Gauchet M, Lelong P, Pergrale J, Grenier N, Moonen CTW. Local hyperthermia with MR-guided focused ultrasound: Spiral trajectory of the focal point optimized for temperature uniformity in the target region. J Magn Reson Imaging 2000; 12: 571–583
  • Kangasniemi M, McNichols RJ, Bankson JA, Gowda A, Price RE, Hazle JD. Thermal therapy of canine cerebral tumors using a 980 nm diode laser with MR temperature-sensitive imaging feedback. Lasers Surg Med 2004; 35: 41–50
  • McNichols RJ, Gowda A, Kangasniemi M, Bankson JA, Price RE, Hazle JD. MR thermometry-based feedback control of laser interstitial thermal therapy at 980 nm. Lasers Surg Med 2004; 34: 48–55
  • Keserci BM, Kokuryo D, Suzuki K, Kumamoto E, Okada A, Khankan AA, Kuroda K. Near-real-time feedback control system for liver thermal ablations based on self-referenced temperature imaging. Eur J Radiol 2006 Aug; 59: 175–182
  • Chopra R, Burtnyk M, Haider MA, Bronskill MJ. Method for MRI-guided conformal thermal therapy of prostate with planar transurethral ultrasound heating applicators. Phys Med Biol 2005; 50: 4957–4975
  • Santos JM, Wright GA, Pauly JM. Flexible real-time magnetic resonance imaging framework. Conf.Proc.IEEE Eng Med Biol Soc 2004; 2: 1048–1051
  • Cline HE, Hynynen K, Watkins RD, Adams WJ, Schenck JF, Ettinger RH, Freund WR, Vetro JP, Jolesz FA. Focused US system for MR imaging-guided tumor ablation. Radiology 1995; 1943: 731–737
  • Kohler MO, Mougenot C, Quesson B, Enholm J, Le Bail B, Laurent C, Ehnholm GJ. Volumetric HIFU ablation under 3D guidance of rapid MRI thermometry. Med Phys 2009; 368: 3521–3535
  • Zhang L, Chen WZ, Liu YJ, Hu X, Zhou K, Chen L, Peng S, Zhu H, Zou HL, Bai J, et al. Feasibility of magnetic resonance imaging-guided high intensity focused ultrasound therapy for ablating uterine fibroids in patients with bowel lies anterior to uterus. Eur J Radiol 2010; 73: 396–403
  • Burtnyk M, Chopra R, Bronskill MJ. Quantitative analysis of 3-D conformal MRI-guided transurethral ultrasound therapy of the prostate: Theoretical simulations. Int J Hyperthermia 2009; 25: 116–131
  • Ishihara Y, Calderon A, Watanabe H, Okamoto K, Suzuki Y, Kuroda K, Suzuki Y. A precise and fast temperature mapping using water proton chemical shift. Magn Reson Med 1995; 34: 814–823
  • Mougenot C, Quesson B, de Senneville BD, de Oliveira PL, Sprinkhuizen S, Palussiere J, Grenier N, Moonen CTW. Three-dimensional spatial and temporal temperature control with MR thermometry-guided focused ultrasound (MRgHIFU). Magn Reson Med 2009; 61: 603–614
  • Lin WL, Roemer RB, Hynynen K. Theoretical and experimental evaluation of a temperature controller for scanned focused ultrasound hyperthermia. Med Phys 1990; 17: 615–625
  • Kinsey AM, Diederich CJ, Tyreus PD, Nau WH, Rieke V, Pauly KB. Multisectored interstitial ultrasound applicators for dynamic angular control of thermal therapy. Med Phys 2006; 33: 1352–1363
  • Arora D, Minor MA, Skliar M, Roemer RB. Control of thermal therapies with moving power deposition field. Phys Med Biol 2006; 51: 1201–1219
  • Mougenot C, Salomir R, Palussiere J, Grenier N, Moonen CT. Automatic spatial and temporal temperature control for MR‐guided focused ultrasound using fast 3D MR thermometry and multispiral trajectory of the focal point. Magn Reson Med 2004; 52: 1005–1015
  • Vanne A, Hynynen K. MRI feedback temperature control for focused ultrasound surgery. Phys Med Biol 2003; 48: 31–43
  • Salomir R, Delemazure AS, Palussiere J, Rouviere O, Cotton F, Chapelon JY. Image-based control of the magnetic resonance imaging-guided focused ultrasound thermotherapy. Topics Magn Reson Imag 2006; 17: 139–151
  • Burtnyk M, Chopra R, Bronskill MJ. Simulation study on the heating of the surrounding anatomy during transurethral ultrasound prostate therapy: A 3D theoretical analysis of patient safety. Med Phys 2010; 37: 2862–2875
  • Pisani LJ, Ross AB, Diederich CJ, Nau WH, Sommer FG, Glover GH, Butts K. Effects of spatial and temporal resolution for MR image-guided thermal ablation of prostate with transurethral ultrasound. J Magn Reson Imaging 2005; 22: 109–118
  • Chopra R, Wachsmuth J, Burtnyk M, Haider MA, Bronskill MJ. Analysis of factors important for transurethral ultrasound prostate heating using MR temperature feedback. Phys Med Biol 2006; 51: 827–844
  • Haacke M, Brown R, Thompson M, Venkatesan R, Magnetic resonance imaging: Physical principles and sequence design. New York: Wiley-Liss. 1999.
  • Burtnyk M, Chopra R, Bronskill MJ, Temperature or thermal dose control for MRI-guided transurethral prostate ultrasound therapy: A comparative simulation study. 7th International Symposium on Therapeutic Ultrasound: (2010)
  • Ocheltree KB, Frizzel LA. Sound field calculation for rectangular sources. IEEE Trans Ultrason Ferroelectr Freq Control 1989; 36: 242–248
  • Nyborg WL, Steele RB. Temperature elevation in a beam of ultrasound. Ultrasound Med Biol 1983; 9: 611–620
  • Pennes HH. Analysis of tissue and arterial blood temperatures in the resting human forearm. J Appl Physiol 1948; 1: 93–122
  • Chopra R, Bronskill MJ, Foster FS. Feasibility of linear arrays for interstitial ultrasound thermal therapy. Med Phys 2000 Jun; 27: 1281–1286
  • Tang K, Choy V, Chopra R, Bronskill MJ. Conformal thermal therapy using planar ultrasound transducers and adaptive closed-loop MR temperature control: Demonstration in gel phantoms and ex vivo tissues. Phys Med Biol 2007; 52: 2905–2919
  • N'djin WA, Burtnyk M, Chopra R, Bronskill MJ. Investigation of parameters affecting treatment time in MRI-guided transurethral ultrasound therapy. 9th International Symposium on Therapeutic Ultrasound: ISTU-2009. AIP Conference Proceedings, Volume 1215, pp. 323–326 (2010).
  • Kobelevskiy I, Burtnyk M, Bronskill MJ, Chopra R, Quantitative Measures for Evaluation of Ultrasound Therapies of the Prostate. 9th International Symposium on Therapeutic Ultrasound: ISTU-2009. AIP Conference Proceedings, Volume 1215, pp. 229–233 (2010)
  • Sapareto SA, Dewey WC. Thermal dose determination in cancer therapy. Int J Radiat Oncol Biol Phys 1984; 10: 787–800
  • Boyes A, Tang K, Yaffe M, Sugar L, Chopra R, Bronskill M. Prostate tissue analysis immediately following magnetic resonance imaging guided transurethral ultrasound thermal therapy. J Urol 2007; 178: 1080–1085
  • Bookstein FL. Principal warps: Thin-plate splines and the decomposition of deformations. IEEE Trans Pattern Anal 1989; 11: 567–585

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