1. Optical Manipulation Fundamentals and Technologies
2. Optical Manipulation Applications
- Holographic optical tweezers and beam shaping, adaptive optics techniques
- Particle dynamics
- Opto-mechanical cooling
- Cell stretching
- High force optical tweezers
- Optical trap modelling and theoretical underpinnings
- Nanoparticle manipulation
- Plasmonic manipulation
- Integrated and near-field optical trapping
3. Alternative Particle Manipulation Techniques
- Single molecule biophysics
- Cellular mechanics and mechanotransduction
- Cellular adhesion
- Non-equilibrium statistical mechanics
- Nanoscale & quantum sensing
- Environmental sensing and aerosol analysis
- Laser cellular surgery and photoporation
- Integration with spectroscopic techniques
- Magnetic tweezers
- Electrical manipulation: Electrodynamic balance, dielectrophoresis etc
- Acoustic manipulation and trapping
- Microfluidic manipulation
- Optoelectronic Tweezers
- AFM applied to techniques studied by optical manipulation
Kirstine Berg-Sørensen, DTU Technical University of Denmark, Optical and Hydrodynamic Stretching of Single Cells From Blood, Invited
Frank Cichos, Univ Leipzig, Germany, Manipulating Single and Multiple Biomolecules with Dynamic Temperature Fields, Invited
Sergio Ciliberto, Ecole Normale Supérieure de Lyon, France, The Maxwell Demon and Landuer's Principle: From Gedanken to Real Experiments, Invited
Tomas Cizmar, University of Dundee, United Kingdom, Holographic Micro-endoscopy Through Multimode Waveguides, Invited
Alexandr Jonas, Istanbul Technical University, Optically Trapped Droplets of Liquid Crystals as Flexible, Tunable Optofluidic Microcavities, Invited
Philip Jones, University College London, United Kingdom, Stretching Red Blood Cells with Optical Tweezers, Invited
Lih Lin, University of Washington, United States, Photonic Crystal Optical Tweezers for Living Cells, Invited
Paulo Maia Neto, Universidade Federal do Rio de Janeiro, Brazil, Towards Casimir force measurements with optical tweezers, Invited
Antonio Neves, Universidade Federal do ABC, Brazil, Engineering Photonic Nanojets with Optical Traps, Invited
Sile Nic Chormaic, Okinawa Inst of Science & Technology, Japan, Trapping Particles using Near-field Optics, Invited
Lene Oddershede, The Niels Bohr Institute, Denmark, Using Optically Manipulated Metallic Nanoparticles for Cancer Treatment, Invited
Felix Ritort, Universitat de Barcelona, Spain, Title to be Announced, Invited
Fernando Stefani, Conicet, Title to be Announced, Invited
Gregor Thalhammer, Medical University Innsbruck, Austria, Mapping Acoustic Radiation Forces by Optical Tweezers, Invited
Nickolas Vamivakas, University of Rochester, United States, Title to be Announced, Invited
Qimin Quan, Harvard University, United States, Trapping and detecting single nanoparticles with photonic crystal nanobeam cavities
Steven Neale, University of Glasgow, United Kingdom
Peter Reece, University of New South Wales, Australia
Reuven Gordon, University of Victoria, Canada
Peter Pauzauskie, University of Washington, United States
Giovanni Volpe, Goteborgs Universitet, Sweden
Nancy Forde, Simon Fraser University, Canada
Simon Hanna, University of Bristol, United Kingdom
Brooke Hester, Appalachian State University, United States
Onofrio Marago, CNR-IPCF, Italy
David McGloin, University of Dundee, United Kingdom
Jack Ng, Hong Kong Baptist University, Hong Kong
Lynn Paterson, Heriot-Watt University, United Kingdom
Michelle Povinelli, University of Southern California, United States
Ruben Ramos-Garcia, Inst Nat Astrofisica Optica Electronica, Mexico
Monika Ritsch-Marte, Innsbruck Medical University, Austria
Gregor Thalhammer, Medical University Innsbruck, Austria
Karen Volke-Sepulveda, Univ Nacional Autonoma de Mexico, Mexico
Giorgio Volpe, University College London, United Kingdom
Pavel Zemanek, Institute of Scientific Instruments ASCR, Czech Republic
Student & Early Career Professional Development & Networking Program
Monday, 3 April, 12:00–13:30
Catalina Ballroom, Upper Level/Fourth Floor
Join us for an interactive lunch and learn program focused on professional development within the Bio Photonics field. This program will engage students and early career professionals with the key leaders in the field who will share their professional development journey and provide useful tips to those who attend. The program is complimentary for OSA Members and lunch will be provided.
Monday, 3 April, 18:00–19:30
Welcome Reception with Exhibitors
Fairbanks Ballroom, Lobby Level
Join your fellow attendees for the Congress Reception. Enjoy delectable fare while networking. The reception is open to committee/presenting author/student and full conference attendees. Conference attendees may purchase extra tickets for their guest.
Grant Writing Workshop for Young Investigators
Tuesday, 4 April, 07:00 – 08:30
Catalina Ballroom, Upper Level/Fourth Floor
Join the leaders of the OSA Tissue Imaging and Spectroscopy Technical Group, Paul Campagnola and Kyle Quinn, for a workshop aimed at helping young investigators develop competitive grant proposals. The workshop will cover how to properly construct a specific aims page for National Science Foundation and National Institute of Health grants, with both good and bad examples being provided. Participants are encouraged to bring their own grant proposals to the workshop as assistance in reviewing and improving the proposals will be offered. An RSVP is required for this technical group event as breakfast will be provided. Contact TGactivities@osa.org to register, pending availability.
Strategies for Commercialization and Dissemination of Non-Clinical Optical Technologies
Tuesday, 4 April, 12:15–14:00
Catalina Ballroom, Upper Level/Fourth Floor
This panel discussion and networking luncheon will discuss and debate the best ways to get your latest invention into the hands of other researchers and end-users. Although the path for medical technologies involves complex clinical trials and FDA approval, technologies for research applications such as microscopes and fluorescent proteins can be much more rapidly translated and can provide rapid, high impact for scientific research. There are many approaches: in-lab support, open-source dissemination, start-ups, or licensing, each with their own pros and cons. After an introduction to the topic we will hear viewpoints and experiences from a range of successful translators and industry experts followed by a panel discussion. There will then be an opportunity for small group discussions and networking. Students and post-docs welcome! A free lunch will be provided to the first group of attendees.
Tuesday, 4 April, 15:30 - 17:00
Joint Poster Session
Posters are an integral part of the technical program and offer a unique networking opportunity, where presenters can discuss their results one-to-one with interested parties. Each author is provided with a board on which to display the summary and results of his or her paper.
OSA Optical Trapping and Manipulation in Molecular and Cellular Biology Technical Group Networking Event
Tuesday, 4 April 2017, 18:00–19:00
Catalina Ballroom, Upper Level/Fourth Floor
Join members of the Optical Trapping and Manipulation in Molecular and Cellular Biology Technical Group for a chance to learn more about this group while connecting with your peers and colleagues in the community over refreshments. Steven Neale and Peter Reece, who lead this OSA Technical Group, will be hosting this networking event for members on Tuesday evening. An RSVP is requested for this technical group event; please contact TGactivities@osa.org to register.
Wednesday, 5 April, 08:30–10:00
Bridging Medicine and Biomedical Technology: Enhancing Translation of Fundamental Research to Patient Care Special Session
Bel Aire Ballroom Ballroom, Lobby Level
This special all-congress session will briefly introduce the fundamentals of translational research and highlight, through two examples of important clinical problems, the challenges to overcome by physician scientists in order to identify, develop and bring to clinical practice novel biomedical technologies that provide relevant solutions.
One example in dermatology features the development of novel diagnostics for cellulitis. Cellulitis is a common and costly bacterial infection of the skin. Currently there are no objective diagnostics and therefore diagnosis depends on clinical exam alone. However, due to the many clinical mimics of cellulitis, misdiagnosis of cellulitis occurs in over one-third of patients. The misdiagnosis of cellulitis leads to unnecessary hospitalization, overuse of antibiotics, and over half a billion dollars in spending per year. Strategic approaches to develop novel diagnostics include non-invasive optical techniques and minimally invasive skin sampling, however significant technical challenges remain.
The other example in ophthalmology presents a new surgical procedure to prevent the development of high myopia. Briefly, the mechanism behind high myopia is an over-elongation of the eye during its growth period. This elongation can be halted by modulating the biomechanical properties of the growing sclera - in particular, by inducing crosslinks in the extracellular matrix. Several approaches have been made to induce those scleral crosslinks, all with certain difficulties.
The panel discussion that will conclude the session will give an opportunity for audience to ask questions and engage the dialogue with other participants and the speakers.
Stanford University, USA
New Probes and Approaches to Optical, Electron Microscopy and Future Applications
We will discuss our development of rare earth and diamond nanoparticle probes to visualize the molecular organization of multiple proteins in cells and tissue. With SEM/cathodoluminescence imaging, we want to identify interacting proteins with cellular ultrastructure such as cellular membranes, organelles, synapses and vesicles.
Bio: Steven Chu is the William R. Kenan, Jr., Professor of Physics and Professor of Molecular & Cellular Physiology in the Medical School at Stanford University. His has published over 275 papers in atomic and polymer physics, biophysics, biology, batteries, and holds 11 patents. Currently, he is developing new optical nanoparticle probes for applications in biology and biomedicine, exploring new approaches to lithium ion batteries, PM2.5 air filtration and other applications of nanotechnology.
Dr. Chu was the 12th U.S. Secretary of Energy from January 2009 until the end of April 2013. As the first scientist to hold a Cabinet position and the longest serving Energy Secretary, he recruited outstanding scientists and engineers into the Department of Energy. He began several initiatives including ARPA-E (Advanced Research Projects Agency – Energy), the Energy Innovation Hubs, the U.S. – China Clean Energy Research Centers (CERC), and was personally tasked by President Obama to assist BP in stopping the Deepwater Horizon oil leak.
Prior to his cabinet post, he was director of the Lawrence Berkeley National Laboratory and Professor of Physics and Molecular and Cell Biology at UC Berkeley. Previously he was the Theodore and Francis Geballe Professor of Physics and Applied Physics at Stanford University. He helped launch Bio-X at Stanford University, a multi-disciplinary institute combining the physical and biological sciences with medicine and engineering, and the Kavli Institute for Particle Astrophysics and Cosmology. Previously he was head of the Quantum Electronics Research Department at AT&T Bell Laboratories.
Dr. Chu has dozens of awards including the 1997 Nobel Prize in Physics contributions to laser cooling and atom trapping. He has 29 honorary degrees and is a member of the National Academy of Sciences, the American Philosophical Society, the American Academy of Arts and Sciences, the Academia Sinica, and is a foreign member of the Royal Society, the Royal Academy of Engineering, the Chinese Academy of Sciences, and the Korean Academy of Sciences and Technology.
Carnegie Mellon University, USA
Cell Biophysics and Human Diseases
This presentation will examine how properties of biological cells influence human diseases, and vice versa, from the perspectives of biophysics and bioengineering. Experimental and computational results will be presented along with specific examples in the context of infectious diseases, hereditary blood disorders, and human cancers.
Bio: Subra Suresh is the President of Carnegie Mellon University where he holds faculty appoints in the College of Engineering, Heinz College of Public Policy and Management, and the School of Computer Science. A former Director of the National Science Foundation and recipient of 11 honorary doctorate degrees, Suresh is an elected member of the U.S. National Academies of Sciences, Engineering and Medicine along with the American Academy of Arts and Sciences and the National Academy of Inventors. Suresh is the author/coauthor of over 250 journal articles and co-inventor in 25 patent applications involving research at the intersections of engineering, science and medicine, particularly into the mechanical behavior of engineered materials and the effects of cell properties on human diseases.
University of California Berkeley, USA
Computational Microscopy for High-Throughput Science
Computational microscopy involves joint design of imaging system hardware and software, optimizing across the entire pipeline from acquisition to reconstruction. This talk will describe methods for fast acquisition and Gigapixel-scale image reconstruction with simple and inexpensive optics.
Bio: Laura Waller is the Ted Van Duzer Endowed Associate Professor of Electrical Engineering and Computer Sciences (EECS) at UC Berkeley, a Senior Fellow at the Berkeley Institute of Data Science, and affiliate in Bioengineering and Applied Sciences & Technology. She was a Postdoctoral Researcher and Lecturer of Physics at Princeton University from 2010-2012 and received B.S., M.Eng. and Ph.D. degrees in EECS from the Massachusetts Institute of Technology (MIT) in 2004, 2005 and 2010, respectively. She is recipient of the Moore Foundation Data-Driven Investigator Award, Bakar Fellowship, Carol D. Soc Distinguished Graduate Mentoring Award, Agilent Early Career Profeessor Award Finalist, NSF CAREER Award and Packard Fellowship for Science and Engineering.