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International Journal of Hyperthermia Volume 23, 2007 - Issue 2: High Intensity Focused Ultrasound
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Original

Treatment monitoring and thermometry for therapeutic focused ultrasound

I. Rivens Joint Department of Physics, Institute of Cancer Research: Royal Marsden NHS Foundation Trust, Sutton, UKCorrespondence[email protected]
,
A. Shaw Quality of Life Division, National Physical Laboratory, Teddington, UK
,
J. Civale Joint Department of Physics, Institute of Cancer Research: Royal Marsden NHS Foundation Trust, Sutton, UK
&
H. Morris Joint Department of Physics, Institute of Cancer Research: Royal Marsden NHS Foundation Trust, Sutton, UK
Pages 121-139 | Received 30 Oct 2006, Accepted 08 Jan 2007, Published online: 09 Jul 2009

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Moslem Sadeghi-Goughari, Hossein Rajabzadeh, Jeong-woo Han & Hyock-Ju Kwon. (2023) Artificial intelligence-assisted ultrasound-guided focused ultrasound therapy: a feasibility study. International Journal of Hyperthermia 40:1.
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Satya V. V. N. Kothapalli, Michael B. Altman, Lifei Zhu, Ari Partanen, Galen Cheng, H. Michael Gach, William Straube, Imran Zoberi, Dennis E. Hallahan & Hong Chen. (2018) Evaluation and selection of anatomic sites for magnetic resonance imaging-guided mild hyperthermia therapy: a healthy volunteer study. International Journal of Hyperthermia 34:8, pages 1381-1389.
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Stephen Derek Quinn & Wladyslaw M. Gedroyc. (2015) Thermal ablative treatment of uterine fibroids. International Journal of Hyperthermia 31:3, pages 272-279.
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Young-sun Kim. (2015) Advances in MR image-guided high-intensity focused ultrasound therapy. International Journal of Hyperthermia 31:3, pages 225-232.
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Matthew A. Lewis, Robert M. Staruch & Rajiv Chopra. (2015) Thermometry and ablation monitoring with ultrasound. International Journal of Hyperthermia 31:2, pages 163-181.
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Adam Shaw, Gail ter Haar, Julian Haller & Volker Wilkens. (2015) Towards a dosimetric framework for therapeutic ultrasound. International Journal of Hyperthermia 31:2, pages 182-192.
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Xiaodong Zhou, Qiang He, Al Zhang, Marc Beckmann & Cheng Ni. (2010) Temperature measurement error reduction for MRI-guided HIFU treatment. International Journal of Hyperthermia 26:4, pages 347-358.
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Kullervo Hynynen. (2010) Hyperthermia Classic Commentary: ‘A scanned, focused, multiple transducer ultrasonic system for localised hyperthermia treatments’, by K. Hynynen, R. Roemer, D. Anhalt, et al., International Journal of Hyperthermia 1987;3:21–35. International Journal of Hyperthermia 26:1, pages 12-15.
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>Gail ter Haar & Constantin Coussios. (2007) High intensity focused ultrasound: Physical principles and devices. International Journal of Hyperthermia 23:2, pages 89-104.
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Gail ter Haar & Constantin Coussios. (2007) High Intensity Focused Ultrasound: Past, present and future. International Journal of Hyperthermia 23:2, pages 85-87.
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N Hockham, C C Coussios & M Arora. (2010) A real-time controller for sustaining thermally relevant acoustic cavitation during ultrasound therapy. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 57:12, pages 2685-2694.
Crossref
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Crossref
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M. Gyongy, M. Arora, J. A. Noble & C. C. Coussios. (2008) Use of passive arrays for characterization and mapping of cavitation activity during HIFU exposure. Use of passive arrays for characterization and mapping of cavitation activity during HIFU exposure.
G. ter Haar. (2008) Harnessing the interaction of ultrasound with tissue for therapeutic benefit: high‐intensity focused ultrasound. Ultrasound in Obstetrics & Gynecology 32:5, pages 601-604.
Crossref
Adam Shaw & Mark Hodnett. (2008) Calibration and measurement issues for therapeutic ultrasound. Ultrasonics 48:4, pages 234-252.
Crossref
C Maleke & E E Konofagou. (2008) Harmonic motion imaging for focused ultrasound (HMIFU): a fully integrated technique for sonication and monitoring of thermal ablation in tissues. Physics in Medicine and Biology 53:6, pages 1773-1793.
Crossref
Constantin C. CoussiosRonald A. Roy. (2008) Applications of Acoustics and Cavitation to Noninvasive Therapy and Drug Delivery. Annual Review of Fluid Mechanics 40:1, pages 395-420.
Crossref
J. Mayer & G. Plasonig. 2008. Medizintechnik Life Science Engineering. Medizintechnik Life Science Engineering 1345 1363 .

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