The papers included in this volume were part of the technical conference cited on the cover and title page. Papers were selected and subject to review by the editors and conference program committee. Some conference presentations may not be available for publication. The papers published in these proceedings reflect the work and thoughts of the authors and are published herein as submitted. The publisher is not responsible for the validity of the information or for any outcomes resulting from reliance thereon. Please use the following format to cite material from this book: Author(s), "Title of Paper," in Optical Elastography and Tissue Biomechanics II, edited by Kirill V. Larin, David D. Sampson, Proceedings of SPIE Vol. 9327 (SPIE, Bellingham, WA, 2015) Article CID Number. ISSN: 1605-7422 ISBN: 9781628414172 Published by SPIE P.O. Box 10, Bellingham, Washington 98227-0010 USA Telephone +1 360 676 3290 (Pacific Time) · Fax +1 360 647 1445 SPIE.org Copyright © 2015, Society of Photo-Optical Instrumentation Engineers. Copying of material in this book for internal or personal use, or for the internal or personal use of specific clients, beyond the fair use provisions granted by the U.S. Copyright Law is authorized by SPIE subject to payment of copying fees. The Transactional Reporting Service base fee for this volume is $18.00 per article (or portion thereof), which should be paid directly to the Copyright Clearance Center (CCC), 222 Rosewood Drive, Danvers, MA 01923. Payment may also be made electronically through CCC Online at copyright.com. Other copying for republication, resale, advertising or promotion, or any form of systematic or multiple reproduction of any material in this book is prohibited except with permission in writing from the publisher. The CCC fee code is 1605-7422/15/$18.00. Printed in the United States of America. Publication of record for individual papers is online in the SPIE Digital Library. 
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The CID Number appears on each page of the manuscript. The complete citation is used on the first page, and an abbreviated version on subsequent pages. AuthorsNumbers in the index correspond to the last two digits of the six-digit citation identifier (CID) article numbering system used in Proceedings of SPIE. The first four digits reflect the volume number. Base 36 numbering is employed for the last two digits and indicates the order of articles within the volume. Numbers start with 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 0A, 0B...0Z, followed by 10-1Z, 20-2Z, etc. Aglyamov, Salavat R., 10 Al-Rekabi, Zeinab, 0I Arnal, Bastien, 05 Baker, Ryan, 13 Bamber, J. C., 0W Bregar, Maksimilijan, 17 Brewer, Molly, 0D Bukshtab, Michael, 18 Bürmen, Miran, 17 Celli, Jonathan P., 0L Chen, Zhongping, 0V Choi, Woo June, 0A Cugmas, Blaž, 17 Ehman, Richard L., 02 Elson, D. S., 0B Es'haghian, Shaghayegh, 0C Franco, Walfre, 0R Friedman, Marc, 18 Gong, Peijun, 0C Grimwood, A., 0W Guolla, Louise, 0I Haase, Kristina, 0I Han, Zhaolong, 0S, 0Z, 10 Hanna, William, 0L He, Youmin, 0V Hickey, Ryan, 0I Huang, Zhihong, 0U, 0Y Idugboe, Rita, 10 Jones, Dustin P., 0L Joy, Joyce, 0Y Kennedy, Brendan F., 0C Kennedy, Kelsey M., 0C Kochevar, Irene E., 0R Larin, Kirill V., 03, 0F, 0S, 0Z, 10, 14, 16 Larina, Irina V., 0F Le, Nhan Minh, 0U Li, Jiasong, 03, 0F, 0S, 0Z, 10, 14 Li, Rui, 0V Likar, Boštjan, 17 Liu, Chih-Hao, 0Z, 10, 14 Lopez, Andrew L., III, 0F Ma, Teng, 0V Martin, James F., 0F McLaughlin, Robert A., 0C Meng, Zhaokai, 0P, 13 Messa, A., 0W Morikawa, Yuka, 0F Muller, David, 18 Nandy, Sreyankar, 0D Nguyen, Thu-Mai, 05 O'Donnell, Matthew, 05 Ortega-Martinez, Antonio, 0R Panin, Vladislav M., 13 Paranjape, Amit, 18 Pelling, Andrew E., 0I Pernuš, Franjo, 17 Petrov, Georgi I., 0P Qi, Wenjuan, 0V Qu, Yueqiao (Rachel), 0V Raghunathan, Raksha, 10 Salehi, Hassan, 0D Sampson, David D., 0C Sanders, Melinda, 0D Shen, Tueng T., 05 Shung, K. Kirk, 0V Singh, Manmohan, 03, 0S, 0Z, 10, 14 Skryabina, M.N., 14 Sobol, E., 14 Song, L., 0B Song, Shaozhen, 05, 0U, 0Y Sudheendran, Narendran, 10 Sun, Cuiru, 0E Tao, Ge, 0F Tremblay, Dominique, 0I Twa, Michael D., 03, 0S, 0Z, 10 Tziraki, M., 0B Vantipalli, Srilatha, 0S, 0Z Wang, Hequn, 0A Wang, Ruikang K., 05, 0A, 0U, 0Y Wang, Ruisheng, 0R Wang, Shang, 03, 0F, 10, 16 Wang, Tianheng, 0D Wijesinghe, Philip, 0C Wong, Emily Y., 05 Wu, Chen, 10, 14 Yakovlev, Vladislav V., 0P, 13 Yang, Victor, 0E Zhou, Qifa, 0V Zhu, Hong, 0R Zhu, Jiang, 0V Zhu, Quing, 0D Conference CommitteeSymposium Chairs James G. Fujimoto, Massachusetts Institute of Technology (United States) R. Rox Anderson, Wellman Center for Photomedicine, Massachusetts General Hospital (United States) and Harvard School of Medicine (United States)
Program Track Chair Conference Chairs Kirill V. Larin, University of Houston (United States) David D. Sampson, The University of Western Australia (Australia)
Conference Program Committee Jeffrey C. Bamber, Institute of Cancer Research (United Kingdom) and The Royal Marsden NHS Foundation Trust (United Kingdom) A. Claude Boccara, Institut Langevin (France) Stephen A. Boppart M.D., University of Illinois at Urbana-Champaign (United States) Brett E. Bouma, Wellman Center for Photomedicine (United States) Zhongping Chen, Beckman Laser Institute and Medical Clinic (United States) Donald D. Duncan, Portland State University (United States) Kishan Dholakia, University of St. Andrews (United Kingdom) Daniel S. Elson, Imperial College London (United Kingdom) Mathias Fink, Institut Langevin (France) Brendan F. Kennedy, The University of Western Australia (Australia) Sean J. Kirkpatrick, Michigan Technological University (United States) Seemantini K. Nadkarni, Harvard Medical School (United States) Kentaro Nakamura, Tokyo Institute of Technology (Japan) Amy L. Oldenburg, The University of North Carolina at Chapel Hill (United States) Francesco S. Pavone, European Laboratory for Non-linear Spectroscopy (Italy) Andrew Pelling, University of Ottawa (Canada) Gabriel Popescu, University of Illinois at Urbana-Champaign (United States) Giuliano Scarcelli, Harvard Medical School (United States) Gijs van Soest, Erasmus MC (Netherlands) Victor X. D. Yang, Ryerson University (Canada) Seok Hyun A. Yun, Wellman Center for Photomedicine (United States) Ruikang K. Wang, University of Washington (United States) Qifa Zhou, The University of Southern California (United States)
Session Chairs 1 Keynote Session Kirill V. Larin, University of Houston (United States) David D. Sampson, The University of Western Australia (Australia) 2 Perspectives in Elastography Richard L. Ehman, Mayo Clinic (United States) 3 Rheology and Speckle Methods Seemantini K. Nadkarni, Harvard Medical School (United States) Sean J. Kirkpatrick, Michigan Technological University (United States) 4 Elastography and Biomechanics Applications Jeffrey C. Bamber, Institute of Cancer Research (United Kingdom) and The Royal Marsden NHS Foundation Trust (United Kingdom) 5 Cell Mechanics Gabriel Popescu, University of Illinois at Urbana-Champaign (United States) 6 Compression Elastography and Brillouin Microscopy Brendan F. Kennedy, The University of Western Australia (Australia) Giuliano Scarcelli, Harvard Medical School (United States) 7 Elastography of the Cornea Ruikang K. Wang, University of Washington (United States) Seok Hyun A. Yun, Wellman Center for Photomedicine (United States) 8 Loading and Measurement Methods A. Claude Boccara, Institut Langevin (France) Zhongping Chen, Beckman Laser Institute and Medical Clinic (United States)
IntroductionOptical elastography is the use of optics to characterize cells and tissues based on their mechanical properties. In utilizing the high-resolution capability of optics, this rapidly emerging field builds on and complements the related fields of ultrasound and MR elastography, as well as existing biomechanics methods, such as atomic force microscopy, cell indentation, micropipette aspiration, and particle rheology. Mechanical forces play an important role in the behavior and development of cells at all spatial scales, from cells and their constituents, to tissues and organs. Such forces profoundly influence the health, structural integrity, and normal function of cells and organs. Accurate determination of cell and tissue biomechanical properties, such as Young's or shear modulus, is a vitally important area. High-resolution optical methods could help further the understanding of mechanical interactions and mechanical properties, with application to cell mechanics, clinical diagnosis, and the understanding of a wide range of diseases. This second annual conference maintained the vibrant intellectual ambience of the first. It continued to display a strong multidisciplinary character, bringing together technology and applications experts in bioengineering, biophysics, cell biology, clinical sciences, medical imaging, optics and photonics, and tissue engineering. This year, more than 42 contributed papers enhanced two days of invited presentations and posters (a 20% increase over last year). An exceptional keynote and invited speakers headlined the program: Keynote: Richard L. Ehman M.D., Mayo Clinic (United States), MRI & mechanobiology: new science at the intersection of engineering and medicine Invited: Jeffrey C. Bamber, The Institute of Cancer Research (United Kingdom), Ultrasound elastography: current systems, ongoing research and future potential Claude Boccara, Institut Langevin (France), Full field OCT and tissue elasticity measurements: a critical view Andrew E. Pelling, Univ. of Ottawa (Canada), Simultaneous optical and mechanical probes to investigate complex cellular responses to physical cues Peter Török, Imperial College London (United Kingdom), High numerical aperture Brillouin microscopy A highlight of this year's meeting was the insight provided by Richard Ehman and Jeff Bamber on magnetic resonance and ultrasound elastography, respectively. The insight that these allied but more mature fields provide into our own field is profound. Special acknowledgement goes to Thorlabs Inc., who sponsored and supported the Keynote Session. Other highlights included the progress and impact made in Brillouin microscopy, and in both the shear wave and compression-based optical coherence elastography approaches. Applications in the anterior eye continued to grow, with some important progress made in breast cancer and interesting new approaches to imaging skin and scar mechanical properties. Optical Elastography and Tissue Biomechanics has confirmed its important role in supporting this emerging area—we look forward with excitement and anticipation to see what the next twelve months will bring. In the meantime, please enjoy reading the papers submitted for this volume. Kirill V. Larin David D. Sampson
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