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  1. Article ; Online: Evaluation of pancreatic tumor development in KPC mice using multi-parametric MRI

    Ravneet Vohra / Joshua Park / Yak-Nam Wang / Kayla Gravelle / Stella Whang / Joo-Ha Hwang / Donghoon Lee

    Cancer Imaging, Vol 18, Iss 1, Pp 1-

    2018  Volume 11

    Abstract: Abstract Background Pancreatic ductal adenocarcinoma (PDA) is a fatal disease with very poor prognosis. Development of sensitive and noninvasive methods to monitor tumor progression in PDA is a critical and unmet need. Magnetic resonance imaging (MRI) ... ...

    Abstract Abstract Background Pancreatic ductal adenocarcinoma (PDA) is a fatal disease with very poor prognosis. Development of sensitive and noninvasive methods to monitor tumor progression in PDA is a critical and unmet need. Magnetic resonance imaging (MRI) can noninvasively provide information regarding underlying pathophysiological processes such as necrosis, inflammatory changes and fibrotic tissue deposition. Methods A genetically engineered KPC mouse model that recapitulates human PDA was used to characterize disease progression. MR measures of T1 and T2 relaxation times, magnetization transfer ratio (MTR), diffusion and chemical exchange saturation transfer were compared in two separate phases i.e. slow and rapid growth phase of tumor. Fibrotic tissue accumulation was assessed histologically using Masson’s trichrome staining. Pearson correlation coefficient (r) was computed to assess the relationship between the fibrotic tissue accumulation and different MR parameters. Results There was a negative correlation between amide proton transfer signal intensity and tumor volume (r = − 0.63, p = 0.003) in the slow growth phase of the tumor development. In the terminal stage of rapid growth phase of the tumor development MTR was strongly correlated with tumor volume (r = 0.62, p = 0.008). Finally, MTR was significantly correlated with % fibrosis (r = 0.87; p < 0.01), followed by moderate correlation between tumor volume (r = 0.42); T1 (r = − 0.61), T2 (r = − 0.61) and accumulation of fibrotic tissue. Conclusions Here we demonstrated, using multi-parametric MRI (mp-MRI), that MRI parameters changed with tumor progression in a mouse model of PDA. Use of mp-MRI may have the potential to monitor the dynamic changes of tumor microenvironment with increase in tumor size in the transgenic KPC mouse model of pancreatic tumor.
    Keywords Pancreatic ductal adenocarcinoma ; Tumor microenvironment ; KPC ; Multi-parametric MRI ; Medical physics. Medical radiology. Nuclear medicine ; R895-920 ; Neoplasms. Tumors. Oncology. Including cancer and carcinogens ; RC254-282
    Subject code 610 ; 500
    Language English
    Publishing date 2018-11-01T00:00:00Z
    Publisher BMC
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article ; Online: Increased tumour burden alters skeletal muscle properties in the KPC mouse model of pancreatic cancer

    Ravneet Vohra / Matthew D. Campbell / Joshua Park / Stella Whang / Kayla Gravelle / Yak‐Nam Wang / Joo‐Ha Hwang / David J. Marcinek / Donghoon Lee

    JCSM Rapid Communications, Vol 3, Iss 2, Pp 44-

    2020  Volume 55

    Abstract: Abstract Background Cancer cachexia is a multifactorial wasting syndrome that is characterized by the loss of skeletal muscle mass and weakness, which compromises physical function, reduces quality of life, and ultimately can lead to mortality. ... ...

    Abstract Abstract Background Cancer cachexia is a multifactorial wasting syndrome that is characterized by the loss of skeletal muscle mass and weakness, which compromises physical function, reduces quality of life, and ultimately can lead to mortality. Experimental models of cancer cachexia have recapitulated this skeletal muscle atrophy and consequent decline in muscle force‐generating capacity. We address these issues in a novel transgenic mouse model Kras, Trp53, and Pdx‐1‐Cre (KPC) of pancreatic ductal adenocarcinoma using multi‐parametric magnetic resonance measures. Methods KPC mice (n = 10) were divided equally into two groups (n = 5 per group) depending on the size of the tumour, that is, tumour size <250 and >250 mm3. Using multi‐parametric magnetic resonance measures, we demonstrated the changes in the gastrocnemius muscle at the microstructural level. In addition, we evaluated skeletal muscle contractile function in KPC mice using an in vivo approach. Results Increase in tumour size resulted in decrease in gastrocnemius maximum cross‐sectional area, decrease in T2 relaxation time, increase in magnetization transfer ratio, decrease in mean diffusivity, and decrease in radial diffusivity of water across the muscle fibres. Finally, we detected significant decrease in absolute and specific force production of gastrocnemius muscle with increase in tumour size. Conclusions Our findings indicate that increase in tumour size may cause alterations in structural and functional parameters of skeletal muscles and that MR parameters may be used as sensitive biomarkers to non‐invasively detect structural changes in cachectic muscles.
    Keywords Cachexia ; Magnetic resonance imaging (MRI) ; Transverse relaxation time (T2) ; Magnetization transfer ratio (MTR) ; Diffusion tensor imaging (DTI) ; Internal medicine ; RC31-1245
    Subject code 610
    Language English
    Publishing date 2020-07-01T00:00:00Z
    Publisher Wiley
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  3. Article ; Online: Pilot in vivo studies on transcutaneous boiling histotripsy in porcine liver and kidney

    Tatiana D. Khokhlova / George R. Schade / Yak-Nam Wang / Sergey V. Buravkov / Valeriy P. Chernikov / Julianna C. Simon / Frank Starr / Adam D. Maxwell / Michael R. Bailey / Wayne Kreider / Vera A. Khokhlova

    Scientific Reports, Vol 9, Iss 1, Pp 1-

    2019  Volume 12

    Abstract: Abstract Boiling histotripsy (BH) is a High Intensity Focused Ultrasound (HIFU) method for precise mechanical disintegration of target tissue using millisecond-long pulses containing shocks. BH treatments with real-time ultrasound (US) guidance allowed ... ...

    Abstract Abstract Boiling histotripsy (BH) is a High Intensity Focused Ultrasound (HIFU) method for precise mechanical disintegration of target tissue using millisecond-long pulses containing shocks. BH treatments with real-time ultrasound (US) guidance allowed by BH-generated bubbles were previously demonstrated ex vivo and in vivo in exposed porcine liver and small animals. Here, the feasibility of US-guided transabdominal and partially transcostal BH ablation of kidney and liver in an acute in vivo swine model was evaluated for 6 animals. BH parameters were: 1.5 MHz frequency, 5–30 pulses of 1–10 ms duration per focus, 1% duty cycle, peak acoustic powers 0.9–3.8 kW, sonication foci spaced 1–1.5 mm apart in a rectangular grid with 5–15 mm linear dimensions. In kidneys, well-demarcated volumetric BH lesions were generated without respiratory gating and renal medulla and collecting system were more resistant to BH than cortex. The treatment was accelerated 10-fold by using shorter BH pulses of larger peak power without affecting the quality of tissue fractionation. In liver, respiratory motion and aberrations from subcutaneous fat affected the treatment but increasing the peak power provided successful lesion generation. These data indicate BH is a promising technology for transabdominal and transcostal mechanical ablation of tumors in kidney and liver.
    Keywords Medicine ; R ; Science ; Q
    Language English
    Publishing date 2019-12-01T00:00:00Z
    Publisher Nature Publishing Group
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  4. Article ; Conference proceedings: EUS-guided High-Intensity Focused Ultrasound

    Joo Ha, Hwang / Morrison, K / Farr, N / Khokhlova, T / Yak-Nam, Wang / Bong-Min, Ko / Hyun-Joo, Jang / Keilman, G

    Endoscopy

    2011  

    Abstract: Background/Rationale: High-intensity focused ultrasound (HIFU) is a rapidly developing technology that is becoming more widely used for non-invasive and minimally invasive ablation of benign and malignant tumors. In addition, recent studies suggest that ...

    Event/congress Submitted Congress Abstracts EUS 2010, Shanghai, China, 2010
    Abstract Background/Rationale: High-intensity focused ultrasound (HIFU) is a rapidly developing technology that is becoming more widely used for non-invasive and minimally invasive ablation of benign and malignant tumors. In addition, recent studies suggest that unique mechanical effects of HIFU may help to enhance targeted drug delivery and stimulate an anti-tumor immune response in many tumors including pancreatic tumors. However, targeting of pancreatic tumors using an extracorporeal source is often not possible due to the lack of an adequate acoustic window because of the presence of overlying bowel gas. The development of an EUS-guided HIFU transducer has many potential benefits including improved targeting, decreased energy requirements and decreased potential for injury to intervening structures.
    Aims: To design, develop and test an EUS-guided HIFU transducer designed for endoscopic applications.
    Methods: Specifications regarding the dimensions of the HIFU transducer were initially determined based on current therapeutic EUS specifications (diameter and rigid tip length). A metal housing was designed to house an EBUS imaging transducer for image guidance, a spherically curved PZT element (radius of curvature=35mm, frequency=3.9MHz), two passive cavitation detectors and circulating water channels. The metal housing is fitted with a balloon that is filled with water for ultrasound coupling. The acoustic output of the transducer output was tested with radiation force and hydrophone measurements. Characterization of lesion formation was performed using polyacrylamide gel phantoms and in ex vivo bovine livers. Preliminary in vivo studies were performed to assess the ergonomics of the transducer design and demonstrate the feasibility of targeting and creating lesions in the porcine pancreas.
    Results: The focal distance was measured to be 35mm from the surface of the transducer with focal dimensions of 2mm (diameter) x 10mm (axial). The transducer successfully created lesions in gel phantoms and ex vivo bovine livers with focal acoustic intensities of 250 W/cm 2. In vivo studies demonstrated that targeting and creating lesions in the porcine pancreas was feasible.
    Conclusions: An EUS-guided HIFU transducer was successfully designed and developed with dimensions that are appropriate for endoscopic use. Further development of this technology will allow endoscopists to perform therapeutic ablation of peri-lumenal lesions, expanding the capabilities of the therapeutic endoscopist.
    Language English
    Publishing date 2011-12-02
    Publishing place Stuttgart ; New York
    Document type Article ; Conference proceedings
    ZDB-ID 80120-3
    ISSN 1438-8812 ; 0013-726X
    ISSN (online) 1438-8812
    ISSN 0013-726X
    DOI 10.1055/s-0031-1292125
    Database Thieme publisher's database

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  5. 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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Kent Leach / Stephan Zidowitz / Hsin-Lun Lee / Fang-Chi Hsu / Chia-Chun Kuo / Shiu-Chen Jeng / Tung-Ho Chen / Nai-Yi Yang / Jeng-Fong Chiou / Yi-tzu Kao / Chia-Hsin Pan / Jing-Fu Wu / Yi-Chieh Tsai / Sara Johnson / Dawei Li / Ye He / Ioannis Karakitsios / Michael Schwenke / Daniel Demedts / Xu Xiao / Ian Cavin / Emilee Minalga / Robb Merrill / Rock Hadley / Pascal Ramaekers / Martijn de Greef / Kian Shahriari / Mohammad Hossein Parvizi / Kiana Asadnia / Marzieh Chamanara / Seyed Kamran Kamrava / Hamid Reza Chabok / Ruben Stein / Sébastien Muller / Jeremy Tan / Cornel Zachiu / Hans-Peter Erasmus / Glen Van Arsdell / Lee Benson / Kee W. 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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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