Professor
Robin Cleveland
PhD
Associate Head of Department (Graduates)
Professor of Engineering Science
Fellow of Magdalen College
Foam gratings as an alternative to customized acoustic lenses
Richards LA,  Stride E,  Cleveland RO,  et al. (2023)
Transcranial ultrasound stimulation to human middle temporal complex improves visual motion detection and modulates electrophysiological responses
Butler CR,  Rhodes E,  Blackmore J,  Cheng X,  Peach RL,  Veldsman M,  Sheerin F,  Cleveland RO,  et al. (2022)
Effect of Acoustic Radiation Force on Displacement of Nanoparticles in Collagen Gels.
Lovmo MK,  Yemane PT,  Bjorkoy A,  Hansen R,  Cleveland RO,  Angelsen BA,  de Lange Davies C,  et al. (2021)
Dual array passive acoustic mapping for cavitation imaging with enhanced 2-D resolution
Gray M,  Elbes D,  Paverd C,  Lyka E,  Coviello C,  Cleveland RO,  Coussios C-C,  et al. (2020)
Ultrasound neuromodulation: a review of results, mechanisms and safety
Blackmore J,  Shrivastava S,  Sallet J,  Butler C,  Cleveland R,  et al. (2019)
Lipid-mRNA Nanoparticle Designed to Enhance Intracellular Delivery Mediated by Shock Waves
Zhang J,  Shrivastava S,  Cleveland RO,  Rabbitts T,  et al. (2019)
Delivering focused ultrasound to intervertebral discs using time-reversal
Qiao S,  Elbes D,  Boubriak O,  Urban J,  Coussios C-C,  Cleveland R,  et al. (2019)
Response of single cells to shock waves and numerically optimized waveforms for cancer therapy
Li D,  Pellegrino A,  Hallack A,  Petrinic N,  Jérusalem A,  Cleveland RO,  et al. (2018)
Concussion, microvascular injury, and early tauopathy in young athletes after impact head injury and an impact concussion mouse model
Tagge CA,  Fisher AM,  Minaeva OV,  Gaudreau-Balderrama A,  Moncaster JA,  Zhang X-L,  Wojnarowicz MW,  Casey N,  Lu H,  Kokiko-Cochran ON,  Saman S,  Ericsson M,  Onos KD,  Veksler R,  Senatorov VV,  Kondo A,  Zhou XZ,  Miry O,  Vose LR,  Gopaul KR,  Upreti C,  Nowinski CJ,  Cantu RC,  Alvarez VE,  Hildebrandt AM,  et al. (2018)
3D multicellular model of shock wave-cell interaction
Li D,  Hallack A,  Cleveland RO,  Jerusalem A,  et al. (2018)
'Seeing’ HIFU lesions with ultrasound
Cleveland RO,  Adams MT,  Raymond JL,  Roy R,  et al. (2018)
On measuring the acoustic state changes in lipid membranes using fluorescent probes
Shrivastava S,  Cleveland R,  Schneider MF,  et al. (2018)
Aneurysm Growth Rate Estimation
LEE R,  HANDA A,  CLEVELAND R,  et al. (2018)
3D multicellular model of shock wave-cell interaction
Jerusalem A,  Li D,  Cleveland R,  et al. (2018)
Segmented CT data sets
Cleveland R,  et al. (2018)
Segmented CT data sets
Cleveland R,  et al. (2018)
CT Texture Analysis of Ex Vivo Renal Stones Predicts Ease of Fragmentation with Shockwave Lithotripsy
Cui H,  Devlies W,  Ravenscroft S,  Heers H,  Freidin AJ,  Cleveland R,  Ganeshan B,  Turney B,  et al. (2017)
Molecular dynamics simulations of heterogeneous cell membranes in response to uniaxial membrane stretches at high loading rates
Zhang L,  Zhang Z,  Jasa J,  Li D,  Cleveland R,  Negahban M,  Jerusalem AJ,  et al. (2017)
Tracking kidney stones in a homogeneous medium using a trilateration approach
Shoar K,  Turney B,  Cleveland R,  et al. (2017)
Quantification of the range of motion of kidney and ureteral stones during shockwave lithotripsy in conscious patients
Harrogate SR,  Yick LM,  Williams JC,  Cleveland R,  Turney BW,  et al. (2016)
In vitro assessment of three clinical lithotripters employing different shock wave generators
Cleveland R,  Kumar S,  Wiseman OJ,  Turney BW,  et al. (2016)
Microvessels-on-a-Chip to Assess Targeted Ultrasound-Assisted Drug Delivery.
Park YC,  Zhang C,  Kim S,  Mohamedi G,  Beigie C,  Nagy JO,  Holt RG,  Cleveland RO,  Jeon NL,  Wong JY,  et al. (2016)
Monodisperse Micro-Oil Droplets Stabilized by Polymerizable Phospholipid Coatings as Potential Drug Carriers.
Park Y,  Pham TA,  Beigie C,  Cabodi M,  Cleveland RO,  Nagy JO,  Wong JY,  et al. (2015)
Nonlinear Acoustics in Biomedical Ultrasound
Cleveland RO,  et al. (2015)
Simulation of nonlinear propagation of biomedical ultrasound using PZFlex and the KZK Texas code
Qiao S,  Jackson E,  Coussios C-C,  Cleveland R,  et al. (2015)
Understanding Lung Ultrasound Artifacts using a Phantom Lung Model
Loh JS,  Walden AP,  Cleveland RO,  et al. (2015)
Simulations of ultrasound propagation in a spinal structure.
Qiao S,  Coussios CC,  Cleveland RO,  et al. (2014)
Ultrasound-Assisted Drug Delivery with Targeted-Microbubbles in Blood Vessels on a Chip
Park YC,  Zhang C,  Mohamedi G,  Kim S,  Jeon N,  Cleveland RO,  Nagy JO,  Wong JY,  et al. (2014)
Improving the acousto-optic detection of high-intensity focused ultrasound lesions.
Adams MT,  Wang Q,  Cleveland RO,  Roy RA,  et al. (2013)
Single-shot measurements of the acoustic field of an electrohydraulic lithotripter using a hydrophone array.
Alibakhshi MA,  Kracht JM,  Cleveland RO,  Filoux E,  Ketterling JA,  et al. (2013)
Improving the acousto-optic detection of high-intensity focused ultrasound lesions
Adams M,  Wang Q,  Cleveland R,  Roy R,  et al. (2013)
Improving the acousto-optic detection of high-intensity focused ultrasound lesions
Adams M,  Wang Q,  Cleveland R,  Roy R,  et al. (2013)
Tunable diacetylene polymerized shell microbubbles as ultrasound contrast agents.
Park Y,  Luce AC,  Whitaker RD,  Amin B,  Cabodi M,  Nap RJ,  Szleifer I,  Cleveland RO,  Nagy JO,  Wong JY,  et al. (2012)
Sparsity driven ultrasound imaging.
Tuysuzoglu A,  Kracht JM,  Cleveland RO,  Çetin M,  Karl WC,  et al. (2012)
Chronic traumatic encephalopathy in blast-exposed military veterans and a blast neurotrauma mouse model.
Goldstein LE,  Fisher AM,  Tagge CA,  Zhang X-L,  Velisek L,  Sullivan JA,  Upreti C,  Kracht JM,  Ericsson M,  Wojnarowicz MW,  Goletiani CJ,  Maglakelidze GM,  Casey N,  Moncaster JA,  Minaeva O,  Moir RD,  Nowinski CJ,  Stern RA,  Cantu RC,  Geiling J,  Blusztajn JK,  Wolozin BL,  Ikezu T,  Stein TD,  Budson AE,  Kowall NW,  Chargin D,  Sharon A,  Saman S,  Hall GF,  Moss WC,  Cleveland RO,  Tanzi RE,  Stanton PK,  McKee AC,  et al. (2012)
Tunable diacetylene polymerized shell microbubbles as ultrasound contrast agents
Park Y,  Luce AC,  Whitaker RD,  Amin B,  Cabodi M,  Nap RJ,  Szleifer I,  Cleveland RO,  Nagy JO,  Wong JY,  et al. (2012)
Multi-parameter acoustic imaging of uniform objects in inhomogeneous soft tissue.
Güven HE,  Miller EL,  Cleveland RO,  et al. (2012)
Modeling acousto-optic sensing of high-intensity focused ultrasound lesion formation.
Adams MT,  Giraud DS,  Cleveland RO,  Roy RA,  et al. (2012)
Fourier continuation methods for high-fidelity simulation of nonlinear acoustic beams.
Albin N,  Bruno OP,  Cheung TY,  Cleveland RO,  et al. (2012)
Tunable ultrasound contrast agents: Polymerizable microbubbles
Park Y,  Luce AC,  Whitaker RD,  Amin B,  Cabodi M,  Nap RJ,  Szleifer I,  Cleveland RO,  Nagy JO,  Wong JY,  et al. (2012)
Physics of Shock-Wave Lithotripsy
Cleveland RO,  Mcateer JA,  et al. (2012)
Shock wave technology and application: an update.
Rassweiler JJ,  Knoll T,  Köhrmann K-U,  McAteer JA,  Lingeman JE,  Cleveland RO,  Bailey MR,  Chaussy C,  et al. (2011)
Nonlinear and diffraction effects in propagation of N-waves in randomly inhomogeneous moving media.
Averiyanov M,  Blanc-Benon P,  Cleveland RO,  Khokhlova V,  et al. (2011)
In vivo quantification of lead in bone with a portable x-ray fluorescence system--methodology and feasibility.
Nie LH,  Sanchez S,  Newton K,  Grodzins L,  Cleveland RO,  Weisskopf MG,  et al. (2011)
An acoustic microscopy technique to assess particle size and distribution following needle-free injection.
Condliffe J,  Schiffter HA,  Cleveland RO,  Coussios C-C,  et al. (2010)
Detecting cavitation in mercury exposed to a high-energy pulsed proton beam
Manzi NJ,  Chitnis PV,  Holt RG,  Roy R,  Cleveland R,  Riemer B,  Wendel M,  et al. (2010)
Instantaneous beamwidth measurements of an electrohydraulic lithotripter
Ketterling JA,  Filoux E,  Alibakhshi MA,  Kracht JM,  Cleveland RO,  et al. (2010)
Targeted binding of PEG-lipid modified polymer ultrasound contrast agents with tiered surface architecture.
Duncanson WJ,  Oum K,  Eisenbrey JR,  Cleveland RO,  Wheatley MA,  Wong JY,  et al. (2010)
Mitigation of damage to solid surfaces from the collapse of cavitation bubble clouds
Chitnis PV,  Manzi NJ,  Cleveland R,  Roy R,  Holt RG,  et al. (2010)
Hydrophone arrays for instantaneous measurement of high-pressure acoustic fields
Ketterling JA,  Kracht JM,  Cleveland RO,  et al. (2010)
Lithotripsy.
Leighton TG,  Cleveland RO,  et al. (2010)
Fast computation of the acoustic field for ultrasound elements.
Güven HE,  Miller EL,  Cleveland RO,  et al. (2009)
Detection of HIFU lesions in excised tissue using acousto‐optic imaging
Draudt A,  Lai P,  Roy R,  Murray T,  Cleveland R,  et al. (2009)
HIFU lesion characterization on liver: acquisition and results
Duming B,  Raymond J,  Church CC,  Cleveland RO,  Miller EL,  et al. (2009)
Linear hydrophone arrays for measurement of shock wave lithotripter acoustic fields
Ketterling JA,  Kracht JM,  Cleveland RO,  et al. (2009)
Reply
Cleveland RO,  Chitnis PV,  McClure SR,  et al. (2008)
The Advantage of a Broad Focal Zone in SWL
Cleveland RO,  et al. (2008)
SHOCK WAVE THERAPY: WHAT REALLY MATTERS REPLY
Cleveland RO,  Chitnis PV,  McClure SR,  et al. (2008)
Acoustic field of a ballistic shock wave therapy device.
Cleveland RO,  Chitnis PV,  McClure SR,  et al. (2007)
Imaging artifacts of medical instruments in ultrasound-guided interventions.
Huang J,  Triedman JK,  Vasilyev NV,  Suematsu Y,  Cleveland RO,  Dupont PE,  et al. (2007)
Advantage of a broad focal zone in SWL: Synergism between squeezing and shear
Sapozhnikov OA,  Bailey MR,  Maxwell AD,  MacConaghy B,  Cleveland RO,  McAteer JA,  Crum LA,  et al. (2007)
The acoustics of shock wave lithotripsy
Cleveland RO,  et al. (2007)
Producing diffuse ultrasound reflections from medical instruments using a quadratic residue diffuser.
Huang J,  Dupont PE,  Undurti A,  Triedman JK,  Cleveland RO,  et al. (2006)
Modelling nonlinear ultrasound propagation in bone
Cleveland RO,  Johnson PA,  Muller M,  Talmant M,  Padilla F,  Laugier P,  et al. (2006)
Parabolic equation for nonlinear acoustic wave propagation in inhomogeneous moving media
Aver'yanov MV,  Khokhlova VA,  Sapozhnikov OA,  Blanc-Benon P,  Cleveland RO,  et al. (2006)
Interactions of cavitation bubbles observed by high-speed imaging in shock wave lithotripsy
Pishchalnikov YA,  Sapozhnikov OA,  Bailey MR,  McAteer JA,  Williams JCJ,  Evan AP,  Cleveland RO,  Crum LA,  et al. (2006)
Acoustic and cavitation fields of shock wave therapy devices
Chitnis PV,  Cleveland RO,  et al. (2006)
Detecting fragmentation of kidney stones in lithotripsy by means of shock wave scattering
Sapozhnikov OA,  Trusov LA,  Owen NR,  Bailey MR,  Cleveland RO,  et al. (2006)
Born inversion for broadband ultrasonic monitoring of cancer treatment
Karbeyaz B,  Miller E,  Cleveland R,  Roy R,  et al. (2006)
New devices and old pitfalls in shock wave therapy
Bailey MR,  Matula TJ,  Sapozhnikov OA,  Cleveland RO,  Pishchalnikov YA,  McAteer JA,  et al. (2006)
Derivation of elastic stiffness from site-matched mineral density and acoustic impedance maps.
Raum K,  Cleveland RO,  Peyrin F,  Laugier P,  et al. (2006)
Ultrasonic contrast agent shell rupture detected by inertial cavitation and rebound signals.
Ammi AY,  Cleveland RO,  Mamou J,  Wang GI,  Bridal SL,  O'Brien WD,  et al. (2006)
Assessment of microstructure and tissue elastic stiffness by site-matched acoustic microscopy and synchrotron radiation-μCT
Raum K,  Leguerney I,  Chandelier F,  Talmant M,  Saied A,  Cleveland RO,  Peyrin F,  Laugier P,  et al. (2006)
Double passive cavitation detection of Optison (TM) shell rupture
Ammi AY,  Cleveland RO,  Mamou J,  Wang GI,  Bridal SL,  O'Brien WD,  et al. (2005)
Ultracal-30 gypsum artificial stones for research on the mechanisms of stone breakage in shock wave lithotripsy.
McAteer JA,  Williams JC,  Cleveland RO,  Van Cauwelaert J,  Bailey MR,  Lifshitz DA,  Evan AP,  et al. (2005)
Strategies for improved shock wave lithotripsy.
McAteer JA,  Bailey MR,  Williams JC,  Cleveland RO,  Evan AP,  et al. (2005)
Cavitation detection during shock-wave lithotripsy.
Bailey MR,  Pishchalnikov YA,  Sapozhnikov OA,  Cleveland RO,  McAteer JA,  Miller NA,  Pishchalnikova IV,  Connors BA,  Crum LA,  Evan AP,  et al. (2005)
Assessing the mechanism of kidney stone comminution by a lithotripter shock pulse
Sapozhnikov OA,  Bailey MR,  Maxwell AD,  MacConaghy B,  Cleveland RO,  Crum LA,  et al. (2005)
Diffraction of nonlinear acoustic waves in inhomogeneous moving media
Averiyanov MV,  Khokhlova VA,  Blanc-Benon P,  Cleveland RO,  et al. (2005)
Three-dimensional echocardiography-guided beating-heart surgery without cardiopulmonary bypass: a feasibility study.
Suematsu Y,  Marx GR,  Stoll JA,  DuPont PE,  Cleveland RO,  Howe RD,  Triedman JK,  Mihaljevic T,  Mora BN,  Savord BJ,  Salgo IS,  del Nido PJ,  et al. (2004)
Effect of stone motion on in vitro comminution efficiency of Storz Modulith SLX.
Cleveland RO,  Anglade R,  Babayan RK,  et al. (2004)
Propagation of nonlinear acoustic signals through inhomogeneous moving media
Khokhlova VA,  Blanc-Benon P,  Averianov MV,  Cleveland RO,  et al. (2004)
Determining thresholds for contrast agent collapse
Ammi AY,  Mamou J,  Wang GI,  Cleveland RO,  Bridal SL,  O 'Brien WD,  et al. (2004)
High strain rate testing of kidney stones.
Sylven ET,  Agarwal S,  Briant CL,  Cleveland RO,  et al. (2004)
Cavitation in shock wave lithotripsy: The critical role of bubble activity in stone breakage and kidney trauma
Bailey MR,  Cleveland RO,  Colonius T,  Crum LA,  Evan AP,  Lingeman JE,  McAteer JA,  Sapozhnikov OA,  Williams JC,  et al. (2003)
Cavitation bubble cluster activity in the breakage of kidney stones by lithotripter shockwaves.
Pishchalnikov YA,  Sapozhnikov OA,  Bailey MR,  Williams JC,  Cleveland RO,  Colonius T,  Crum LA,  Evan AP,  McAteer JA,  et al. (2003)
Effect of overpressure and pulse repetition frequency on cavitation in shock wave lithotripsy.
Sapozhnikov OA,  Khokhlova VA,  Bailey MR,  Williams JC,  McAteer JA,  Cleveland RO,  Crum LA,  et al. (2002)
Simulations of the thermo-acoustic lens effect during focused ultrasound surgery.
Hallaj IM,  Cleveland RO,  Hynynen K,  et al. (2001)
Simulations of the thermo-acoustic lens effect during focused ultrasound surgery
Hallaj IM,  Cleveland RO,  Hynynen K,  et al. (2001)
Laser-induced acoustic imaging of buried land mines: experiment and modeling
McKnight S,  Stott J,  Dimarzio C,  Cleveland R,  Roy R,  et al. (2001)
A dual passive cavitation detector for localized detection of lithotripsy-induced cavitation in vitro.
Cleveland RO,  Sapozhnikov OA,  Bailey MR,  Crum LA,  et al. (2000)
Scattering of ultrasound in cancellous bone: predictions from a theoretical model.
Nicholson PH,  Strelitzki R,  Cleveland RO,  Bouxsein ML,  et al. (2000)
Amplitude degradation of time-reversed pulses in nonlinear absorbing thermoviscous fluids
Hallaj IM,  Cleveland R,  Barbone PE,  Kargl SG,  Roy R,  et al. (2000)
Design and characterization of a research electrohydraulic lithotripter patterned after the Dornier HM3
Cleveland RO,  Bailey MR,  Fineberg N,  Hartenbaum B,  Lokhandwalla M,  McAteer JA,  Sturtevant B,  et al. (2000)
Numerical simulations of heating patterns and tissue temperature response due to high-intensity focused ultrasound.
Curra FP,  Mourad PD,  Khokhlova VA,  Cleveland RO,  Crum LA,  et al. (2000)
The acoustic emissions from single-bubble sonoluminescence
Matula TJ,  Hallaj IM,  Cleveland RO,  Crum LA,  Moss WC,  Roy R,  et al. (1998)
Optimal acoustic parameters for induced hyperthermia from focused ultrasound: phantom measurements with fluid flow and bubble activity
Holt G,  Cleveland R,  Roy R,  et al. (1998)
Therapeutic ultrasound: a promising future in clinical medicine
Crum L,  Bailey M,  Kaczkowski P,  Makin I,  Mourad P,  Beach K,  Carter S,  Schmiedl U,  Chandler W,  Martin R,  Vaezy S,  Keilman G,  Cleveland R,  Roy R,  et al. (1998)
FDTD simulation of transcranial focusing using ultrasonic phase-conjugate arrays
Hallaj I,  Cleveland R,  Kargl S,  Roy R,  et al. (1998)
Time domain propagation of pulsed ultrasound through a tissue-like material
Hallaj I,  Cleveland R,  Roy R,  Kargl S,  et al. (1998)
Nonlinear 3-D simulation of high-intensity focused ultrasound therapy in the kidney
Suomi V,  Jaros J,  Treeby B,  Cleveland R,  et al. ()