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1
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Effect of overpressure and pulse repetition frequency on cavitation in shock wave lithotripsy.
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J Acoust Soc Am
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2002
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2.77
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2
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Focused ultrasound to expel calculi from the kidney.
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J Urol
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2011
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2.55
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3
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Acoustic characterization of high intensity focused ultrasound fields: a combined measurement and modeling approach.
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J Acoust Soc Am
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2008
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2.25
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4
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Cavitation bubble cluster activity in the breakage of kidney stones by lithotripter shockwaves.
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J Endourol
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2003
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2.05
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5
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Blood vessel deformations on microsecond time scales by ultrasonic cavitation.
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Phys Rev Lett
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2011
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2.03
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6
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Novel ultrasound method to reposition kidney stones.
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Urol Res
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2010
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1.90
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7
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Effects of nonlinear propagation, cavitation, and boiling in lesion formation by high intensity focused ultrasound in a gel phantom.
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J Acoust Soc Am
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2006
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1.90
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8
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Shock-induced heating and millisecond boiling in gels and tissue due to high intensity focused ultrasound.
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Ultrasound Med Biol
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2009
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1.82
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9
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Shock wave technology and application: an update.
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Eur Urol
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2011
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1.77
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10
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Focused ultrasonic propulsion of kidney stones: review and update of preclinical technology.
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J Endourol
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2013
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11
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Blood vessel rupture by cavitation.
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Urol Res
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2010
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1.65
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12
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Cavitation selectively reduces the negative-pressure phase of lithotripter shock pulses.
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Acoust Res Lett Online
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2005
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1.61
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13
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Controlled tissue emulsification produced by high intensity focused ultrasound shock waves and millisecond boiling.
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J Acoust Soc Am
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2011
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1.58
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14
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A mechanistic analysis of stone fracture in lithotripsy.
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J Acoust Soc Am
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2007
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1.56
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15
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Overview of therapeutic ultrasound applications and safety considerations.
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J Ultrasound Med
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2012
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1.54
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16
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Kidney damage and renal functional changes are minimized by waveform control that suppresses cavitation in shock wave lithotripsy.
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J Urol
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2002
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1.47
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17
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Ultracal-30 gypsum artificial stones for research on the mechanisms of stone breakage in shock wave lithotripsy.
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Urol Res
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2005
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1.46
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18
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Cavitation clouds created by shock scattering from bubbles during histotripsy.
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J Acoust Soc Am
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2011
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1.41
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19
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Pretreatment with low-energy shock waves induces renal vasoconstriction during standard shock wave lithotripsy (SWL): a treatment protocol known to reduce SWL-induced renal injury.
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BJU Int
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2008
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1.33
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20
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Evidence for trapped surface bubbles as the cause for the twinkling artifact in ultrasound imaging.
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Ultrasound Med Biol
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2013
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1.30
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21
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Characterization of a multi-element clinical HIFU system using acoustic holography and nonlinear modeling.
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IEEE Trans Ultrason Ferroelectr Freq Control
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2013
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1.23
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22
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Ultrasonic atomization of tissue and its role in tissue fractionation by high intensity focused ultrasound.
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Phys Med Biol
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2012
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1.22
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23
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The risk of exposure to diagnostic ultrasound in postnatal subjects: nonthermal mechanisms.
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J Ultrasound Med
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2008
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1.21
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24
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Radiation force of an arbitrary acoustic beam on an elastic sphere in a fluid.
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J Acoust Soc Am
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2013
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1.17
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25
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Focused ultrasound to expel calculi from the kidney: safety and efficacy of a clinical prototype device.
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J Urol
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2013
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1.16
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26
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Magnetic resonance imaging of boiling induced by high intensity focused ultrasound.
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J Acoust Soc Am
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2009
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1.14
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27
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Tools to improve the accuracy of kidney stone sizing with ultrasound.
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J Endourol
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2014
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1.07
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28
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Observations of translation and jetting of ultrasound-activated microbubbles in mesenteric microvessels.
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Ultrasound Med Biol
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2011
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1.02
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29
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B-mode ultrasound versus color Doppler twinkling artifact in detecting kidney stones.
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J Endourol
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2013
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1.00
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30
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Dual-pulse lithotripter accelerates stone fragmentation and reduces cell lysis in vitro.
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Ultrasound Med Biol
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2003
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0.97
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31
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Quantitative assessment of shockwave lithotripsy accuracy and the effect of respiratory motion.
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J Endourol
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2012
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0.94
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32
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In vitro sonoluminescence and sonochemistry studies with an electrohydraulic shock-wave lithotripter.
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Ultrasound Med Biol
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2002
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0.92
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33
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The relation between cavitation and platelet aggregation during exposure to high-intensity focused ultrasound.
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Ultrasound Med Biol
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2004
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0.91
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34
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A suppressor to prevent direct wave-induced cavitation in shock wave therapy devices.
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J Acoust Soc Am
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2005
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0.89
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35
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A method to synchronize high-intensity, focused ultrasound with an arbitrary ultrasound imager.
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IEEE Trans Ultrason Ferroelectr Freq Control
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2006
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0.89
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36
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Content and face validation of a curriculum for ultrasonic propulsion of calculi in a human renal model.
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J Endourol
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2014
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0.87
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37
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A reduced-order, single-bubble cavitation model with applications to therapeutic ultrasound.
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J Acoust Soc Am
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2011
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0.87
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38
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Focused ultrasound: concept for automated transcutaneous control of hemorrhage in austere settings.
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Aviat Space Environ Med
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2009
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0.86
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39
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Evaluation of a shock wave induced cavitation activity both in vitro and in vivo.
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Phys Med Biol
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2007
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0.84
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40
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Prefocal alignment improves stone comminution in shockwave lithotripsy.
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J Endourol
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2002
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0.84
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Ultrasonic propulsion of kidney stones.
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Curr Opin Urol
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The use of resonant scattering to identify stone fracture in shock wave lithotripsy.
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J Acoust Soc Am
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2007
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Design of HIFU Transducers for Generating Specified Nonlinear Ultrasound Fields.
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IEEE Trans Ultrason Ferroelectr Freq Control
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2016
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0.81
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Depleted uranium: a new battlefield hazard.
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2002
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0.79
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45
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Use of a bovine eye lens for observation of HIFU-induced lesions in real-time.
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Ultrasound Med Biol
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2006
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0.79
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46
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Proof of principle in vitro study of a prototype ultrasound technology to size stone fragments during ureteroscopy.
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J Endourol
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2009
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0.79
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47
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Observations of the collapses and rebounds of millimeter-sized lithotripsy bubbles.
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J Acoust Soc Am
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2011
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0.79
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48
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Ultrasonic measurement of condensate film thickness.
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J Acoust Soc Am
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2008
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0.79
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49
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Beamwidth measurement of individual lithotripter shock waves.
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J Acoust Soc Am
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2009
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0.78
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50
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Ureteroscopic ultrasound technology to size kidney stone fragments: proof of principle using a miniaturized probe in a porcine model.
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2010
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1pPAb5. Acoustic radiation force to reposition kidney stones.
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Proc Meet Acoust
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Rectified growth of histotripsy bubbles.
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3aBAb5. Ultrasound intensity to propel stones from the kidney is below the threshold for renal injury.
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Noninvasive ureterocele puncture using pulsed focused ultrasound: an in vitro study.
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2013
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Non-invasive measurement of the temperature rise in tissue surrounding a kidney stone subjected to ultrasonic propulsion.
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Conf Proc IEEE Eng Med Biol Soc
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2015
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56
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Novel high-intensity focused ultrasound clamp--potential adjunct for laparoscopic partial nephrectomy.
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57
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2aBA6. Bubbles trapped on the surface of kidney stones as a cause of the twinkling artifact in ultrasound imaging.
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Characterizing the Acoustic Output of an Ultrasonic Propulsion Device for Urinary Stones.
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IEEE Trans Ultrason Ferroelectr Freq Control
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2017
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Evaluation of Renal Calculi Passage While Riding a Roller Coaster.
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J Am Osteopath Assoc
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2017
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A step-by-step procedure to aid the assessment of intake and doses from measurement data.
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Radiat Prot Dosimetry
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2005
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61
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A revised model for the deposition and clearance of inhaled particles in human extra-thoracic airways.
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Radiat Prot Dosimetry
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62
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A Prototype Therapy System for Transcutaneous Application of Boiling Histotripsy.
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IEEE Trans Ultrason Ferroelectr Freq Control
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2017
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0.75
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