High intensity focused ultrasound in clinical tumor ablation.

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Enhanced thermal effect using magnetic nano-particles during high-intensity focused ultrasound. PLoS One (2017) 0.75

High intensity focused ultrasound (HIFU) applied to hepato-bilio-pancreatic and the digestive system-current state of the art and future perspectives. Hepatobiliary Surg Nutr (2016) 0.75

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Moderate-to-deep sedation technique, using propofol and ketamine, allowing synchronised breathing for magnetic resonance high-intensity focused ultrasound (MR-HIFU) treatment for uterine fibroids: a pilot study. J Ther Ultrasound (2017) 0.75

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Long-term efficacy of ultrasound-guided high-intensity focused ultrasound treatment of breast fibroadenoma. J Ther Ultrasound (2017) 0.75

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A framework for continuous target tracking during MR-guided high intensity focused ultrasound thermal ablations in the abdomen. J Ther Ultrasound (2017) 0.75

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Targeted disruption of the blood-brain barrier with focused ultrasound: association with cavitation activity. Phys Med Biol (2006) 3.27

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Pathological changes in human malignant carcinoma treated with high-intensity focused ultrasound. Ultrasound Med Biol (2001) 1.78

Clinical outcomes of magnetic resonance-guided focused ultrasound surgery for uterine myomas: 24-month follow-up. Ultrasound Obstet Gynecol (2009) 1.71

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Delivery of systemic chemotherapeutic agent to tumors by using focused ultrasound: study in a murine model. Radiology (2005) 1.39

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The evolving non-surgical ablation of breast cancer: MR guided focused ultrasound (MRgFUS). Breast Cancer (2007) 1.33

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Extracorporeal high intensity focused ultrasound treatment for patients with breast cancer. Breast Cancer Res Treat (2005) 1.33

Ultrasound targeted microbubble destruction increases capillary permeability in hepatomas. Ultrasound Med Biol (2007) 1.31

Thermal ablation and high-temperature thermal therapy: overview of technology and clinical implementation. Int J Hyperthermia (2005) 1.31

Activated anti-tumor immunity in cancer patients after high intensity focused ultrasound ablation. Ultrasound Med Biol (2004) 1.31

Current status and future potential of MRI-guided focused ultrasound surgery. J Magn Reson Imaging (2008) 1.29

A clinical, noninvasive, MR imaging-monitored ultrasound surgery method. Radiographics (1996) 1.28

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Non-invasive transcranial ultrasound therapy based on a 3D CT scan: protocol validation and in vitro results. Phys Med Biol (2009) 1.23

Leiomyoma shrinkage after MRI-guided focused ultrasound treatment: report of 80 patients. AJR Am J Roentgenol (2010) 1.22

Acoustic power calibration of high-intensity focused ultrasound transducers using a radiation force technique. J Acoust Soc Am (2007) 1.19

Magnetic resonance guided focused ultrasound surgery of uterine fibroids--the tissue effects of GnRH agonist pre-treatment. Eur J Radiol (2006) 1.18

Measurement of high intensity focused ultrasound fields by a fiber optic probe hydrophone. J Acoust Soc Am (2006) 1.18

Optical and acoustic monitoring of bubble cloud dynamics at a tissue-fluid interface in ultrasound tissue erosion. J Acoust Soc Am (2007) 1.17

Miniaturized ultrasound arrays for interstitial ablation and imaging. Ultrasound Med Biol (2005) 1.16

Magnetic resonance imaging of boiling induced by high intensity focused ultrasound. J Acoust Soc Am (2009) 1.14

Technology insight: High-intensity focused ultrasound for urologic cancers. Nat Clin Pract Urol (2005) 1.14

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Minimizing abdominal wall damage during high-intensity focused ultrasound ablation by inducing artificial ascites. J Acoust Soc Am (2008) 0.84

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