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  1. Article ; Online: Improving plane wave ultrasound imaging through real-time beamformation across multiple arrays

    Josquin Foiret / Xiran Cai / Hanna Bendjador / Eun-Yeong Park / Aya Kamaya / Katherine W. Ferrara

    Scientific Reports, Vol 12, Iss 1, Pp 1-

    2022  Volume 14

    Abstract: Abstract Ultrasound imaging is a widely used diagnostic tool but has limitations in the imaging of deep lesions or obese patients where the large depth to aperture size ratio (f-number) reduces image quality. Reducing the f-number can improve image ... ...

    Abstract Abstract Ultrasound imaging is a widely used diagnostic tool but has limitations in the imaging of deep lesions or obese patients where the large depth to aperture size ratio (f-number) reduces image quality. Reducing the f-number can improve image quality, and in this work, we combined three commercial arrays to create a large imaging aperture of 100 mm and 384 elements. To maintain the frame rate given the large number of elements, plane wave imaging was implemented with all three arrays transmitting a coherent wavefront. On wire targets at a depth of 100 mm, the lateral resolution is significantly improved; the lateral resolution was 1.27 mm with one array (1/3 of the aperture) and 0.37 mm with the full aperture. After creating virtual receiving elements to fill the inter-array gaps, an autoregressive filter reduced the grating lobes originating from the inter-array gaps by − 5.2 dB. On a calibrated commercial phantom, the extended field-of-view and improved spatial resolution were verified. The large aperture facilitates aberration correction using a singular value decomposition-based beamformer. Finally, after approval of the Stanford Institutional Review Board, the three-array configuration was applied in imaging the liver of a volunteer, validating the potential for enhanced resolution.
    Keywords Medicine ; R ; Science ; Q
    Subject code 535
    Language English
    Publishing date 2022-08-01T00:00:00Z
    Publisher Nature Portfolio
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article ; Online: Spatial and Temporal Control of Hyperthermia Using Real Time Ultrasonic Thermal Strain Imaging with Motion Compensation, Phantom Study.

    Josquin Foiret / Katherine W Ferrara

    PLoS ONE, Vol 10, Iss 8, p e

    2015  Volume 0134938

    Abstract: Mild hyperthermia has been successfully employed to induce reversible physiological changes that can directly treat cancer and enhance local drug delivery. In this approach, temperature monitoring is essential to avoid undesirable biological effects that ...

    Abstract Mild hyperthermia has been successfully employed to induce reversible physiological changes that can directly treat cancer and enhance local drug delivery. In this approach, temperature monitoring is essential to avoid undesirable biological effects that result from thermal damage. For thermal therapies, Magnetic Resonance Imaging (MRI) has been employed to control real-time Focused Ultrasound (FUS) therapies. However, combined ultrasound imaging and therapy systems offer the benefits of simple, low-cost devices that can be broadly applied. To facilitate such technology, ultrasound thermometry has potential to reliably monitor temperature. Control of mild hyperthermia was previously achieved using a proportional-integral-derivative (PID) controller based on thermocouple measurements. Despite accurate temporal control of heating, this method is limited by the single position at which the temperature is measured. Ultrasound thermometry techniques based on exploiting the thermal dependence of acoustic parameters (such as longitudinal velocity) can be extended to create thermal maps and allow an accurate monitoring of temperature with good spatial resolution. However, in vivo applications of this technique have not been fully developed due to the high sensitivity to tissue motion. Here, we propose a motion compensation method based on the acquisition of multiple reference frames prior to treatment. The technique was tested in the presence of 2-D and 3-D physiological-scale motion and was found to provide effective real-time temperature monitoring. PID control of mild hyperthermia in presence of motion was then tested with ultrasound thermometry as feedback and temperature was maintained within 0.3°C of the requested value.
    Keywords Medicine ; R ; Science ; Q
    Subject code 621
    Language English
    Publishing date 2015-01-01T00:00:00Z
    Publisher Public Library of Science (PLoS)
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  3. Article ; Online: Imaging beyond ultrasonically-impenetrable objects

    Tali Ilovitsh / Asaf Ilovitsh / Josquin Foiret / Katherine W. Ferrara

    Scientific Reports, Vol 8, Iss 1, Pp 1-

    2018  Volume 11

    Abstract: Abstract Ultrasound images are severely degraded by the presence of obstacles such as bones and air gaps along the beam path. This paper describes a method for imaging structures that are distal to obstacles that are otherwise impenetrable to ultrasound. ...

    Abstract Abstract Ultrasound images are severely degraded by the presence of obstacles such as bones and air gaps along the beam path. This paper describes a method for imaging structures that are distal to obstacles that are otherwise impenetrable to ultrasound. The method uses an optically-inspired holographic algorithm to beam-shape the emitted ultrasound field in order to bypass the obstacle and place the beam focus beyond the obstruction. The resulting performance depends on the transducer aperture, the size and position of the obstacle, and the position of the target. Improvement compared to standard ultrasound imaging is significant for obstacles for which the width is larger than one fourth of the transducer aperture and the depth is within a few centimeters of the transducer. For such cases, the improvement in focal intensity at the location of the target reaches 30-fold, and the improvement in peak-to-side-lobe ratio reaches 3-fold. The method can be implemented in conventional ultrasound systems, and the entire process can be performed in real time. This method has applications in the fields of cancer detection, abdominal imaging, imaging of vertebral structure and ultrasound tomography. Here, its effectiveness is demonstrated using wire targets, tissue mimicking phantoms and an ex vivo biological sample.
    Keywords Medicine ; R ; Science ; Q
    Language English
    Publishing date 2018-04-01T00:00:00Z
    Publisher Nature Portfolio
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  4. Article ; Online: Acoustical structured illumination for super-resolution ultrasound imaging

    Tali Ilovitsh / Asaf Ilovitsh / Josquin Foiret / Brett Z. Fite / Katherine W. Ferrara

    Communications Biology, Vol 1, Iss 1, Pp 1-

    2018  Volume 11

    Abstract: Tali Ilovitsh et al. describe a new method, acoustical structured illumination, for generating super-resolution ultrasound images. The method applies principles from structured illumination microscopy and can be adapted to existing ultrasound systems ... ...

    Abstract Tali Ilovitsh et al. describe a new method, acoustical structured illumination, for generating super-resolution ultrasound images. The method applies principles from structured illumination microscopy and can be adapted to existing ultrasound systems without the need for additional components.
    Keywords Biology (General) ; QH301-705.5
    Language English
    Publishing date 2018-01-01T00:00:00Z
    Publisher Nature Publishing Group
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  5. Article ; Online: Ultrasound localization microscopy to image and assess microvasculature in a rat kidney

    Josquin Foiret / Hua Zhang / Tali Ilovitsh / Lisa Mahakian / Sarah Tam / Katherine W. Ferrara

    Scientific Reports, Vol 7, Iss 1, Pp 1-

    2017  Volume 12

    Abstract: Abstract The recent development of ultrasound localization microscopy, where individual microbubbles (contrast agents) are detected and tracked within the vasculature, provides new opportunities for imaging the vasculature of entire organs with a spatial ...

    Abstract Abstract The recent development of ultrasound localization microscopy, where individual microbubbles (contrast agents) are detected and tracked within the vasculature, provides new opportunities for imaging the vasculature of entire organs with a spatial resolution below the diffraction limit. In stationary tissue, recent studies have demonstrated a theoretical resolution on the order of microns. In this work, single microbubbles were localized in vivo in a rat kidney using a dedicated high frame rate imaging sequence. Organ motion was tracked by assuming rigid motion (translation and rotation) and appropriate correction was applied. In contrast to previous work, coherence-based non-linear phase inversion processing was used to reject tissue echoes while maintaining echoes from very slowly moving microbubbles. Blood velocity in the small vessels was estimated by tracking microbubbles, demonstrating the potential of this technique to improve vascular characterization. Previous optical studies of microbubbles in vessels of approximately 20 microns have shown that expansion is constrained, suggesting that microbubble echoes would be difficult to detect in such regions. We therefore utilized the echoes from individual MBs as microscopic sensors of slow flow associated with such vessels and demonstrate that highly correlated, wideband echoes are detected from individual microbubbles in vessels with flow rates below 2 mm/s.
    Keywords Medicine ; R ; Science ; Q
    Subject code 621
    Language English
    Publishing date 2017-10-01T00:00:00Z
    Publisher Nature Publishing Group
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  6. Article ; Online: Enhanced microbubble contrast agent oscillation following 250 kHz insonation

    Tali Ilovitsh / Asaf Ilovitsh / Josquin Foiret / Charles F. Caskey / Jiro Kusunose / Brett Z. Fite / Hua Zhang / Lisa M. Mahakian / Sarah Tam / Kim Butts-Pauly / Shengping Qin / Katherine W. Ferrara

    Scientific Reports, Vol 8, Iss 1, Pp 1-

    2018  Volume 15

    Abstract: Abstract Microbubble contrast agents are widely used in ultrasound imaging and therapy, typically with transmission center frequencies in the MHz range. Currently, an ultrasound center frequency near 250 kHz is proposed for clinical trials in which ... ...

    Abstract Abstract Microbubble contrast agents are widely used in ultrasound imaging and therapy, typically with transmission center frequencies in the MHz range. Currently, an ultrasound center frequency near 250 kHz is proposed for clinical trials in which ultrasound combined with microbubble contrast agents is applied to open the blood brain barrier, since at this low frequency focusing through the human skull to a predetermined location can be performed with reduced distortion and attenuation compared to higher frequencies. However, the microbubble vibrational response has not yet been carefully evaluated at this low frequency (an order of magnitude below the resonance frequency of these contrast agents). In the past, it was assumed that encapsulated microbubble expansion is maximized near the resonance frequency and monotonically decreases with decreasing frequency. Our results indicated that microbubble expansion was enhanced for 250 kHz transmission as compared with the 1 MHz center frequency. Following 250 kHz insonation, microbubble expansion increased nonlinearly with increasing ultrasonic pressure, and was accurately predicted by either the modified Rayleigh–Plesset equation for a clean bubble or the Marmottant model of a lipid-shelled microbubble. The expansion ratio reached 30-fold with 250 kHz at a peak negative pressure of 400 kPa, as compared to a measured expansion ratio of 1.6 fold for 1 MHz transmission at a similar peak negative pressure. Further, the range of peak negative pressure yielding stable cavitation in vitro was narrow (~100 kPa) for the 250 kHz transmission frequency. Blood brain barrier opening using in vivo transcranial ultrasound in mice followed the same trend as the in vitro experiments, and the pressure range for safe and effective treatment was 75–150 kPa. For pressures above 150 kPa, inertial cavitation and hemorrhage occurred. Therefore, we conclude that (1) at this low frequency, and for the large oscillations, lipid-shelled microbubbles can be approximately modeled as clean gas microbubbles and (2) the development of safe and successful protocols for therapeutic delivery to the brain utilizing 250 kHz or a similar center frequency requires consideration of the narrow pressure window between stable and inertial cavitation.
    Keywords Microbubbles (MBs) ; Inertial Cavitation ; Stable Cavitation ; Marmottant Model ; Expansion Ratio ; Medicine ; R ; Science ; Q
    Subject code 500
    Language English
    Publishing date 2018-11-01T00:00:00Z
    Publisher Nature Portfolio
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  7. Article: CpG expedites regression of local and systemic tumors when combined with activatable nanodelivery

    Kheirolomoom, Azadeh / Elizabeth S. Ingham / Lisa M. Mahakian / Sarah M. Tam / Matthew T. Silvestrini / Spencer K. Tumbale / Josquin Foiret / Neil E. Hubbard / Alexander D. Borowsky / William J. Murphy / Katherine W. Ferrara

    Journal of Controlled Release. 2015 Dec. 28, v. 220

    2015  

    Abstract: Ultrasonic activation of nanoparticles provides the opportunity to deliver a large fraction of the injected dose to insonified tumors and produce a complete local response. Here, we evaluate whether the local and systemic response to chemotherapy can be ... ...

    Abstract Ultrasonic activation of nanoparticles provides the opportunity to deliver a large fraction of the injected dose to insonified tumors and produce a complete local response. Here, we evaluate whether the local and systemic response to chemotherapy can be enhanced by combining such a therapy with locally-administered CpG as an immune adjuvant. In order to create stable, activatable particles, a complex between copper and doxorubicin (CuDox) was created within temperature-sensitive liposomes. Whereas insonation of the CuDox liposomes alone has been shown to produce a complete response in murine breast cancer after 8 treatments of 6mg/kg delivered over 4weeks, combining this treatment with CpG resolved local cancers within 3 treatments delivered over 7days. Further, contralateral tumors regressed as a result of the combined treatment, and survival was extended in systemic disease. In both the treated and contralateral tumor site, the combined treatment increased leukocytes and CD4+ and CD8+ T-effector cells and reduced myeloid-derived suppressor cells (MDSCs). Taken together, the results suggest that this combinatorial treatment significantly enhances the systemic efficacy of locally-activated nanotherapy.
    Keywords adjuvants ; breast neoplasms ; copper ; doxorubicin ; drug therapy ; mice ; nanoparticles ; suppressor cells ; ultrasonics
    Language English
    Dates of publication 2015-1228
    Size p. 253-264.
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 632533-6
    ISSN 1873-4995 ; 0168-3659
    ISSN (online) 1873-4995
    ISSN 0168-3659
    DOI 10.1016/j.jconrel.2015.10.016
    Database NAL-Catalogue (AGRICOLA)

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  8. Article ; Online: 5th International Symposium on Focused Ultrasound

    Menashe Zaaroor / Alon Sinai / Dorit Goldsher / Ayelet Eran / Maria Nassar / Ilana Schlesinger / Jonathon Parker / Vinod Ravikumar / Pejman Ghanouni / Sherman Stein / Casey Halpern / Vibhor Krishna / Amelia Hargrove / Punit Agrawal / Barbara Changizi / Eric Bourekas / Michael Knopp / Ali Rezai / Brian Mead /
    Namho Kim / Panagiotis Mastorakos / Jung Soo Suk / Wilson Miller / Alexander Klibanov / Justin Hanes / Richard Price / Shutao Wang / Oluyemi Olumolade / Tara Kugelman / Vernice Jackson-Lewis / Maria Eleni (Marilena) Karakatsani / Yang Han / Serge Przedborski / Elisa Konofagou / Kullervo Hynynen / Isabelle Aubert / Gerhard Leinenga / Rebecca Nisbet / Robert Hatch / Anneke Van der Jeugd / Harrison Evans / Jürgen Götz / Ann Van der Jeugd / Paul Fishman / Paul Yarowsky / Victor Frenkel / Shen Wei-Bin / Ben Nguyen / Carlos Sierra Sanchez / Camilo Acosta / Cherry Chen / Shih-Ying Wu / Muna Aryal / Iason T. Papademetriou / Yong-Zhi Zhang / Chanikarn Power / Nathan McDannold / Tyrone Porter / Zsofia Kovacs / Saejeong Kim / Neekita Jikaria / Farhan Qureshi / Michele Bresler / Joseph Frank / Henrik Odéen / George Chiou / John Snell / Nick Todd / Bruno Madore / Dennis Parker / Kim Butts Pauly / Mike Marx / Sumeeth Jonathan / William Grissom / Costas Arvanitis / Gregory Clement / Joshua de Bever / Allison Payne / Douglas Christensen / Guillaume Maimbourg / Mathieu David Santin / Alexandre Houdouin / Stéphane Lehericy / Mickael Tanter / Jean Francois Aubry / Christian Federau / Beat Werner / Dong-Guk Paeng / Zhiyuan Xu / Anders Quigg / Matt Eames / Changzhu Jin / Ashli Everstine / Jason Sheehan / M. Beatriz Lopes / Neal Kassell / James Drake / Karl Price / Lior Lustgarten / Vivian Sin / Charles Mougenot / Elizabeth Donner / Emily Tam / Mojgan Hodaie / Adam Waspe / Thomas Looi / Samuel Pichardo / Wonhye Lee / Yong An Chung / Yujin Jung / In-Uk Song / Seung-Schik Yoo / Hyun-Chul Kim / Jong-Hwan Lee / Charles Caskey / Wolf Zinke / Josh Cosman / Jillian Shuman / Jeffrey Schall / Christian Aurup / Hong Chen / Hermes Kamimura / Antonio Carneiro / Tao Sun / Navid Nazai / Sam Patz / Margaret Livingstone / Todd Mainprize / Yuexi Huang / Ryan Alkins / Martin Chapman / James Perry / Nir Lipsman / Allison Bethune / Arjun Sahgal / Maureen Trudeau / Hao-Li Liu / Po-Hung Hsu / Kuo-Chen Wei / Jonathan Sutton / Phillip Alexander / Eric Miller / Thiele Kobus / Alexandre Carpentier / Michael Canney / Alexandre Vignot / Kevin Beccaria / Delphine Leclercq / Cyril Lafon / Jean Yves Chapelon / Khe Hoang-Xuan / Jean-Yves Delattre / Ahmed Idbaih / David Moore / Alexis Xu / Paul Schmitt / Jessica Foley / Jonathan Sukovich / Charles Cain / Aditya Pandey / Neeraj Chaudhary / Sandra Camelo-Piragua / Steven Allen / Jon Cannata / Dejan Teofilovic / Jim Bertolina / Timothy Hall / Zhen Xu / Julien Grondin / Vincent Ferrera / Gail ter Haar / Petros Mouratidis / Elizabeth Repasky / Kelsie Timbie / Lena Badr / Benjamin Campbell / John McMichael / Andrew Buckner / Jessica Prince / Aaron Stevens / Timothy Bullock / Karin Skalina / Chandan Guha / Franco Orsi / Guido Bonomo / Paolo Della Vigna / Giovanni Mauri / Gianluca Varano / George Schade / Yak-Nam Wang / Venu Pillarisetty / Joo Ha Hwang / Vera Khokhlova / Michael Bailey / Tatiana Khokhlova / Ilya Sinilshchikov / Petr Yuldashev / Yulia Andriyakhina / Wayne Kreider / Adam Maxwell / Oleg Sapozhnikov / Ari Partanen / Jonathan Lundt / Tobias Preusser / Sabrina Haase / Mario Bezzi / Jürgen Jenne / Thomas Langø / Massimo Midiri / Michael Mueller / Giora Sat / Christine Tanner / Stephan Zangos / Matthias Guenther / Andreas Melzer / Arianna Menciassi / Selene Tognarelli / Andrea Cafarelli / Alessandro Diodato / Gastone Ciuti / Sven Rothluebbers / Julia Schwaab / Jan Strehlow / Senay Mihcin / Steffen Tretbar / Thomas Payen / Carmine Palermo / Steve Sastra / Kenneth Olive / Matthew Adams / Vasant Salgaonkar / Serena Scott / Graham Sommer / Chris Diederich / Joan Vidal-Jove / Eloi Perich / Antonio Ruiz / Manuela Velat / David Melodelima / Aurelien Dupre / Jeremy Vincenot / Chen Yao / David Perol / Michel Rivoire / Samantha Tucci / Lisa Mahakian / Brett Fite / Elizabeth Ingham / Sarah Tam / Chang-il Hwang / David Tuveson / Katherine Ferrara / Stephen Scionti / Lili Chen / Dusica Cvetkovic / Xiaoming Chen / Roohi Gupta / Bin Wang / Charlie Ma / Kenneth Bader / Kevin Haworth / Christy Holland / Narendra Sanghvi / Roy Carlson / Wohsing Chen / Christian Chaussy / Stefan Thueroff / Claudio Cesana / Carlo Bellorofonte / Qingguo Wang / Han Wang / Shengping Wang / Junhai Zhang / Alberto Bazzocchi / Alessandro Napoli / Robert Staruch / Chenchen Bing / Sumbul Shaikh / Joris Nofiele / Debra Szczepanski / Michelle Wodzak Staruch / Noelle Williams / Theodore Laetsch / Rajiv Chopra / Jarrett Rosenberg / Rachelle Bitton / Suzanne LeBlang / Joshua Meyer / Mark Hurwitz / Pavel Yarmolenko / Haydar Celik / Avinash Eranki / Viktoriya Beskin / Domiciano Santos / Janish Patel / Matthew Oetgen / AeRang Kim / Peter Kim / Karun Sharma / Alexander Chisholm / Dionne Aleman / Roberto Scipione / Michael Temple / Joao Guilherme Amaral / Ruby Endre / Maria Lamberti-Pasculli / Joost de Ruiter / Fiona Campbell / Jennifer Stimec / Samit Gupta / Manoj Singh / Sevan Hopyan / Gregory Czarnota / David Brenin / Carrie Rochman / Roussanka Kovatcheva / Jordan Vlahov / Katja Zaletel / Julian Stoinov / Matthew Bucknor / Viola Rieke / Jenny Shim / Korgun Koral / Brian Lang / Carlos Wong / Heather Lam / Alexander Shinkov / Jim Hu / Xi Zhang / Jonathan Macoskey / Kimberly Ives / Gabe Owens / Hitinder Gurm / Jiaqi Shi / Matthew Pizzuto / Christopher Dillon / Ivy Christofferson / Elaine Hilas / Jill Shea / Paul Greillier / Bénédicte Ankou / Francis Bessière / Ali Zorgani / Mathieu Pioche / Wojciech Kwiecinski / Julie Magat / Sandrine Melot-Dusseau / Romain Lacoste / Bruno Quesson / Mathieu Pernot / Stefan Catheline / Philippe Chevalier / Fabrice Marquet / Pierre Bour / Fanny Vaillant / Sana Amraoui / Rémi Dubois / Philippe Ritter / Michel Haïssaguerre / Mélèze Hocini / Olivier Bernus / Pamela Tebebi / Scott Burks / Blerta Milo / Michael Gertner / Jimin Zhang / Andrew Wong / Yu Liu / Azadeh Kheirolomoom / Jai Seo / Katherine Watson / Hua Zhang / Josquin Foiret / Alexander Borowsky / Doudou Xu / Maya Thanou / Miguell Centelles / Mike Wright / Maral Amrahli / Po-Wah So / Wladyslaw Gedroyc / Esther Kneepkens / Edwin Heijman / Jochen Keupp / Steffen Weiss / Klaas Nicolay / Holger Grüll / Matthew Nagle / Anastasia V. 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    Journal of Therapeutic Ultrasound, Vol 4, Iss S1, Pp 1-

    2016  Volume 113

    Keywords Medical physics. Medical radiology. Nuclear medicine ; R895-920
    Language English
    Publishing date 2016-11-01T00:00:00Z
    Publisher BioMed Central
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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