European Conferences on Biomedical Optics (ECBO)


European Conferences on Biomedical Optics (ECBO)

12 - 16 May 2013
Messe Munchen, Munich, Germany

Sponsored by OSA and SPIE, the European Conferences on Biomedical Optics (ECBO) brought together scientists, engineers, and clinicians who work with optics and photonics to solve problems in medicine and biomedicine. Almost 500 attendees from 42 countries viewed presentations covering novel technology and applications in the areas of advanced microscopy, clinical and biomedical spectroscopy, diffuse optical imaging, molecular imaging, optical coherence tomography and other coherence techniques, therapeutic laser applications, laser-tissue interactions, opto-acoustic methods.


OSA Chief Executive Officer Liz Rogan (center) congratulated Messe Munich on the 40th anniversary of LASER World of Photonics.



On 14 May, OSA Vice President Philip Russell and Deutsche Physikalische Gesellschaft (DPG) vice president Wolfgang Sandner honored Prof. H. Jeff Kimble with the 2013 Herbert Walther Award. The presentation was followed by a celebratory lunch sponsored by Messe Munich.



Several ECBO student participants were recognized for their outstanding paper or poster presentations with awards presented by Carl Zeiss and TOPTICA. Wilhelm Kaenders, President of TOPTICA, presents a student award with Juergen Popp, ECBO Co-chair.


New connections were made between attendees from 74 countries. See more photographs of the participants and events.




1. Advanced Microscopy Techniques

This conference will explore the rapidly developing field of multidimensional microscopy, including confocal microscopy, nonlinear optical microscopies, super-resolution microscopies, light sheet-based microscopy and other novel imaging modalities. Consideration will be given to the characteristics of the overall system design, as well as to topics of contrast, image formation, image recording, deconvolution, and digital methods of produc¬ing and displaying the resulting reconstruction. Recent innovations in multi-dimensional microscopy have a serious impact on the biological and medical fields. We hope that the broad range of relevant topics presented at this conference will encourage the interaction among instrumentation engineers, computer image analysts, and researchers in the various fields of biomedical and life science application.

Papers are invited on all areas of development and application of confocal, nonlinear optical, and novel optical microscopies including, but not limited to, the following and related areas:

  • high resolution optical imaging on the nanometer scale (e.g. PALM, STORM, STED)
  • fast imaging of large and complex biological specimens (e.g. SPIM, DSLM
  • multiphoton microscopy, SHG, THG, CARS, SRS, FWM microscopies using exogenous and/or endogenous contrast
  • adaptive optics, spatial and temporal control of the excitation
  • endoscopic microscopy
  • single molecule microscopy and microanalysis
  • phase microscopy, holographic based microscopy, absorption microscopy, polarization microscopy
  • multi-modal spectroscopic analysis in microscopy
  • novel image contrast enhancement approaches such as SER and other near field surface effects
  • FRET-FLIM modalities, Fluorescence Correlation Spectroscopy
  • biomedical instrumentation
  • micro-optics and MEMS based optical systems for the biomedical diagnosis
  • fast image acquisition with time-resolving image acquisition systems• applications to cell biology, developmental biology, animal models
  • clinical applications of optical microscopy

2. Clinical & Biomedical Spectroscopy & Imaging

Spectroscopic methods have become most valuable tools for both clinical diagnostics and biomedical research applied to in vivo tissue monitoring and the investigation on the molecular scale of excised samples. In clinical diagnostics, optical spectroscopy provides detailed structural and functional information on organs, tissues and body liquids. Basic biomedical applications include the detailed investigation of tissues and cells down to the level of single molecules, helping to understand the principles of cellular and sub-cellular processes in the early transformation of normal to diseased tissue, such as when malignant tumours are developed.

The conference provides an interdisciplinary platform for physicians, physicists, biologists, chemists and related researchers in order to strengthen an integrated and holistic approach of understanding normal tissue development and the genesis of diseases in order to be able to ultimately develop new, efficient treatment modalities.

Contributed papers are solicited, but not limited, to the following areas, using optical spectroscopy methods, e.g. fluorescence, autofluorescence, linear and nonlinear Raman, NIR, polarization, back-reflectance, and light scattering spectroscopy, and combined approaches (multimodal imaging):

A. Biomedical and clinical spectroscopic diagnostics

  • in vivo diagnostics (structural and functional spectral imaging of cells, tissues, organs), including endoscopic, noninvasive and minimally invasive methods
  • tissue pathology
  • spectral biomarker analysis
  • spectroscopic micro- and nanosensors
  • Biochip technology for point-of-care diagnostics
  • diagnostics and tissue engineering.

B. Investigation of cellular and sub-cellular processes

  • analysis of cell dynamics by single-molecule techniques
  • high spatial resolution microscopy
  • structural analysis of cells and tissue
  • biomarker discovery for spectroscopic techniques.

3. Diffuse Optical Imaging

The study of diffuse light imaging in tissue continues to provide new insight into the structural and functional properties of tissues that are not easily accessed by alternative methods. The research and development of systems that exploit this approach has led to clinical prototype systems that are used in basic science and medical research. Scientific applications range from the study of cerebral physiology to cancer patho-physiology in both animals and humans. Medical applications being explored encompass detection and diagnosis of breast cancer, brain cancer, cognitive neuroscience, stroke, hemorrhages, brain and muscular oxygenation, peripheral vascular diseases and joint diseases as well as establishing novel methods in drug discovery and tracking. Integration of diffuse light imaging into existing clinical instrumentation is a key area of development, and combining diffuse light imaging with new contrast agents or other imaging modalities are also emerging as major growth areas.

Further improvement in these and other application areas relies on continued advancement in the theory of radiation transport through random media, in data analysis and image reconstruction algorithms, and in instrumentation design.

This meeting provides a key interdisciplinary forum for engineers, physicists, mathematicians, biomedical scientists and physicians to report on recent results, improvements, and new approaches and applications for using diffusing light to characterize the structural and functional properties of tissue.

Contributed papers are solicited concerning, but not limited to, the following areas:

  • Diffuse optical tomography and spectroscopy
  • Diffuse fluorescence and bioluminescence imaging
  • Novel molecular contrast agents
  • Hybrid-modality imaging with diffuse light
  • Modeling of light propagation
  • Image reconstruction algorithms
  • Instrumentation and imaging systems
  • Clinical applications
  • Muscle physiology
  • Breast cancer imaging and spectroscopy
  • Brain imaging of cerebral activation, stroke, hemorrhage, etc.
  • Pre-clinical animal studies

4. Opto-Acoustic Methods and Applications

In the last decade optoacoustic (photoacoustic) imaging has grown significantly to a powerful optical imaging platform suitable for basic research, clinical translation, and drug discovery. Advances in the system design, laser and ultrasound detection technology in conjugation with the ability to visualize a large range of anatomical, functional and molecular bio-markers have led to new and exciting ways of visualizing structure and function in biological tissue.

One of the promising aspects of the optoacoustic methodology is its versatility, manifested in the numerous distinct imaging concepts employed in it: multispectral imaging, nonlinear imaging, real-time imaging, tomography, microscopy, endoscopy, etc. Label-free imaging of functional parameters of vasculature including hemoglobin oxygenation and oxygen metabolism can be combined with simultaneous detection of exogenous molecular agents to provide more complete views of pathologies at appropriate scales from optical diffraction-limited microscopy to depths of several centimeters.

Additionally, the ability to detect nanoparticles of interest by means of their optical absorption enables unique in vivo visualization This emerging field of the imaging sciences integrates many scientific disciplines from physics and engineering to chemistry and biotechnology. It is the aim of this conference to bring together those disciplines which make up the optoacoustic field with particular emphasis on development and adaption of optoacoustic technology to enable novel biological and clinical applications. All areas in optoacoustic sensing and imaging are welcomed, from hardware and algorithmic developments, to novel concept, applications and contrast generation mechanisms, including photo-absorbing agents and nanoparticles.

Areas of interest consider, but are not limited to, progress in the following topics:

  • Optoacoustic imaging and tomography
  • Optoacoustic microscopy
  • Multi-spectral approaches
  • Theory and image reconstruction algorithms
  • Small animal and clinical imaging
  • Genetic reporters and cell-labeling for optoacoustic imaging
  • Novel optoacoustic agents and nanoparticles
  • Novel detection technologies for opto-acoustic imaging
  • Novel illumination technologies
  • Nonlinear optoacoustic signal generation
  • Multi-modality imaging

5. Novel Biophotonics Techniques and Applications

Aside from the well-recognised avenues of biomedical optics for diagnostics, therapeutics and analytics/microscopy, a number of novel and highly promising approaches are under development. These new techniques often rely on the confluence of two or more diverse fields, drawing on their complementarity in order to overcome the inherent complexity and heterogeneity of biological tissues. Examples include photoacoustic spectroscopy, use of MRI to constrain optical tomographic reconstructions, PDT sterilization of surgical margins and the emerging role of photodiagnostics in monitoring and guiding therapies in real time (“theragnostics”). These hybrid approaches are driven by task-specific requirements of a particular application. Moreover, a number of new ideas are being investigated based on new methodologies, physical basis, instrument development, integration techniques and data analysis. This conference will present a highly interdisciplinary discussion forum of interest to instrument designers, sensor builders, basic and applied clinical researchers, and other scientists interested in exploring novel directions in biophotonics.

Topics for contributions are thus broadly open and include:

  • photoacoustic/optoacoustic imaging and diagnostics
  • photothermal imaging and diagnostics
  • acousto-optic imaging
  • speckle-based techniques
  • polarized light diagnostics
  • holography and micro-holography
  • nanoprobes for imaging and diagnostics
  • MRI/optical image fusion
  • ultrasound/optical image fusion
  • new approaches for photon discrimination in turbid media
  • novel endoscopic technologies
  • integration of diagnostic and therapeutic photomedicine
  • hybrid approaches in photomedicine
  • image-guided therapeutics.

6. Optical Coherence Tomography and Coherence Techniques

Optical coherence tomography (OCT) and optical methods based on coherent light interactions with tissue are emerging medical diagnostic imaging techniques which can perform cross-sectional, three-dimensional, functional and real-time visualization of biological microstructure in situ. This conference provides an interdisciplinary
forum for topics in research and development on a physical and theoretical basis of coherent imaging including novel low- coherence interferometry and tomography techniques, extension techniques of OCT such as polarization-sensitive, Doppler, phase contrast, spectroscopic OCT, coherence microscopy, and combinations of coherent imaging with nonlinear optics or other tomography modalities. In addition, this conference will focus on the development of new light sources, new probes, new detection schemes and new signal processing algorithms for coherent imaging. Applications of coherent optical techniques for morphological as well as functional assessment in different living tissues and phantoms in various medical fields are also covered. Contributed papers are solicited concerning, but not limited to, the following areas:

  • Optical coherence tomography (OCT) technology and systems
  • Coherent imaging system, theory and signal processing
  • Clinical applications of OCT
  • Functional OCT, such as spectroscopic, Doppler, polarization-sensitive or second-harmonic OCT
  • Contrast enhancement techniques for OCT
  • Novel light sources and MEMS probes for OCT
  • Optical coherent techniques for tissue spectroscopy and imaging
  • Fourier optics in tissue imaging
  • Coherent light microscopy
  • Speckle analysis and methods for speckle reduction
  • Adaptive coherent optical systems
  • Multi-modal imaging platforms including OCT

7. Medical Laser Applications and Laser-Tissue Interactions

Medical laser application is a broad area for research and development with the vision of improving clinical therapeutic procedures or to extend into new fields for lasers in medical use. Novel biomedical laser applications are emerging due to the advent of new types of lasers that widen the possible spectrum of laser-tissue interactions to improve the target-oriented precise application of laser radiation in clinical practice. Laser light applications include the whole range of non-thermal to thermal reactions up to ionization effects either on the macro-scale, e.g. soft tissue smoothing without ablation, or on the micro scale, e.g. selective retina therapy, to the nano-scale for surgery within cells, as well as short-pulsed laser applications to treat soft and hard tissue in patients. In addition to that new laser light application techniques as well as innovative medical keyhole techniques such as laser assisted NOTES (Natural Orifice Transluminal Endoscopic Surgery) are under investigation.

Highly sophisticated targeting strategies including endogenous or applied chromophores as well as conjugation of chromophores or nanoparticles with antibodies pave the way for new treatment modalities. Furthermore combination therapies such as the synergetic use of photodynamic therapy and immunomodulatory or antiseptics are encouraging new fields for research and clinical studies.

Improved understanding of biological reactions triggered by laser radiation interacting with natural absorbing sites, targeting molecules, photosensitizers, or nanoparticles will lead to progress in the creation of minimally-invasive clinical laser light applications or assist in elucidating particular immunological responses from the tissue.

Theoretical considerations and modeling of laser light distribution in tissue with subsequent energy transfer and tissue interactions constitute a solid basis for therapy planning in patients, particular if combined by improved light delivery and monitoring techniques.

This conference will provide an interdisciplinary forum for scientists, engineers, technicians, and medical doctors using laser assisted treatment modalities to discuss the progress in all these topics. The forum joins presentations from in-vitro investigations up to clinical studies of new laser light irradiance in the range of 10-3 – 1018 Wcm-2 to lead to actual clinical and medical questions where laser assisted techniques can play an important role in future.

Contributed papers are solicited concerning, but not limited to, the following topics:

  • photo-biological and photo-chemical reactions
  • photo-thermal and photo-mechanical tissue reactions
  • modelling of laser-tissue interactions
  • cellular micro- and nano-effects of laser radiatio
  • nanoparticlaes for targeted phototherapies
  • laser-induced microdissection and catapulting of cells
  • tissue ablation and cutting with short and ultra-short laser pulse
  • hard tissue ablation, benign tissue destruction
  • photodynamic therapy (PDT) of tumors, neoplasia, and other pathologic conditions
  • antimicrobial PDT, PDT mediated immunology
  • cellular mechanisms of low power laser therapy
  • minimally invasive laser surgery
  • laser applications in NOTES
  • progress in therapeutic laser applications
  • in-vitro, ex-vivo, preclinical and clinical studies
  • experiences in clinical laser application.

8. Neurophotonics

Understanding the brain, its circuitry and its ability to process information, remains one of the grand challenges in biomedical research. The use of light has revolutionized this quest by providing efficient methods to image the brain, from individual neurons to its vascular networks and blood flow. Light combined with recent advances in biochemistry and genetic engineering has allowed neurophotonics to harness ever more powerful methods that manipulate and probe processes in neurons and their behaviour in a network. These include novel ways to provide high-speed, multi-modal and high-resolution 3D brain imaging and multi-site photostimulation of neurons via photolysis, infra-red stimulation or optogenetics. Laser axotomy/dendrotomy operation, furthermore, is opening new frontiers in understanding repair mechanisms: in this case, dendrite or axon cutting, as well as spine ablation, is an interesting approach to study neuroplasticity also in transgenic knock out mouse model or under some pharmacological treatment. Further areas of neurophotonics include monitoring brain function in human adults and infants using near infrared spectroscopy and tomography approaches, as well as the use of light for photodynamic therapy. Finally, multimodal imaging represents another frontier, allowing different features of the functioning brain to be assessed by in parallel.

This conference will provide a forum for physicists, optical engineers and neuroscientists to report current developments and discuss further ventures on the use of light to study the brain.

Contributed papers are solicited concerning, but not limited to, the following areas:

  • In-vivo microscopy of brain structure and function
  • Functional calcium imaging
  • Voltage sensitive dye imaging
  • Photolysis and infra-red stimulation; instrumentation, reagents and applications
  • Optogenetics; instrumentation, reagents and applications
  • New transgenic and transfection tools for neurophotonics
  • New contrast agents and reporters of brain structure and function
  • Optical intrinsic signal imaging of brain function
  • Near infrared spectroscopy (NIRS) and diffuse optical tomography of brain function
  • Diffuse correlation spectroscopy of brain function
  • Optical metabolic and oximetric imaging and microscopy in the brain
  • Photo-acoustic imaging in the brain
  • Molecular imaging in brain
  • Multimodal brain imaging (e.g. fMRI / optical / EEG/)
  • Laser surgery in the brain and spine
  • Fluorescence-guided brain surgery
  • Photodynamic therapy in the brain
  • Ultramicroscopy / light sheet imaging of optically cleared brain
  • Dendrotomy and axometry/connectomics
  • Correlative electron-light microscopy
  • Image tools for neurophotonics (neuronal tracing, spine detection, correlative tools)
  • Superresolution microscopy in neuroscience
  • Fast volumetric imaging approaches for neuromicroscopy
  • Adaptive optics techniques in neuroscience

9. Head and Neck Optical Diagnostics

The Head & Neck Optical Diagnostic Society (HNODS) was founded in 2008 in order to improve the early diagnosis and treatment of patients suffering from head & neck malignancies by promoting and encouraging the study and practice of optical diagnostics techniques, by facilitating communications between clinicians, scientists, physicists, engineers, technicians, radiologists and pathologists (particularly those with interest in the pathology of the head and neck) and by building close relations with laser, optical and surgical associations, societies, research groups, industry and patient‘s organizations.

For the 5th HNODS meeting which is held in conjunction with the ECBO in May 2013 in Munich, Germany, our declared focus lies on the improvement of the scientist / clinician interface. In addition, we will run mini sessions on "the global perspective of optical diagnostics in the upper aerodigestive tract" and on "Photodynamic Therapy in the head & neck area". We are anticipating to have some highly acclaimed experts in the field of head & neck optical diagnostics giving invited lectures, and are encouraging the submission of papers (free lectures and posters) of both young and experienced clinicians and researchers.

The methods that should have been applied in contributing papers include (but are not limited to):

  • Fluorescence Imaging (intensity and lifetime)
  • Spectroscopic methods
  • Optical Coherence Tomography / Microscopy
  • Photo-acoustic imaging
  • Probe-based Confocal Laser Endomicroscopy
  • Photodynamic Therapy
  • Photochemical Internalization
 

Plenary Speakers

Optical Imaging of Radiation Dose In Vivo, Brian Pogue, Dartmouth College, USA

Fluorescence Lifetime Imaging and Metrology for Cell Biology, High Content Analysis and Clinical Diagnosis, Paul French, Imperial College London, UK
 

Invited Speakers

Fully Quantitative Intrinsic Fluorescence Measurements in Turbid Media Using A Single Fiber, Arjen Amelink; Erasmus MC, Netherlands

Optical Detection Of Cancer And Precancerous Lesions of the Upper Aerodigestive Tract – Methods For Assessment Of Horizontal Extensions, Christoph Arens; University Hospital of Magdeburg, Germany

Oligonucleotide Switches And Nanomaterials For Intracellular Mrna Sensing, Francesco Baldini; IFAC-CNR, Italy

In-vivo Optical Spectroscopy In the Time-domain Beyond 1100 Nm, Ilaria Bargigia; Politecnico di Milano, Italy

Polarization Sensitive Optical Coherence Tomography For Quantitative Assessment Of Tissue Properties

In the Rat Eye In Vivo
, Bernhard Baumann; Medical University of Vienna, Austria

Three-dimensional in Vivo Blood Flow Mapping in Tumors Using Optical Frequency Domain Imaging, David Blauvelt; Harvard Medical School & Massachusetts Institute of Technology, Massachusetts General Hospital, USA

Improved Precision in Optical Tweezers Via Squeezed Light, Warwick Bowen; The University of Queensland, Australia

Towards High-throughput Fluorescence Microscopy And Quantitative Pathology for Intra-operative
Identification of Residual Disease nn Cancer Surgery,
J. Quincy Brown; Tulane University, USA

Angio-OCT as a Noninvasive Tool for Three-dimensional Vascular Network Visualization in Retinal Diseases, Danuta Bukowska; Nicolaus Copernicus University, Poland

Focusing Light in Scattering Media by Photoacoustic-guided Wavefront Shaping, Thomas Chaigne; Institut Langevin, France

Narrowband Polarisation Endoscopy with LED Illumination, Neil Clancy; Imperial College London, Imperial College London, UK

Self-interference Fluorescence Microscopy: Three Dimensional Fluorescence Imaging Without Depth Scanning, Mattijs De Groot; VU University Amsterdam, Netherlands

Following the Brain Wires Using Electrons, Winfried Denk; Max-Planck-Institut f. med. Forschung, Germany

Multispectral Optoacoustic Tomography (msot) Imaging of Heterogeneity Within the Tumor Microenvironment, Wouter Driessen; iThera Medical, Helmholtz Zentrum München, USA

Monitoring Cell Differentiation And Infection Using Digital Holographic Microscopy, Andrew Ekpenyong; University of Cambridge, Technische Universität Dresden, UK

Optical Imaging Systems for Oral Cancer Detection and Diagnosis: A Global Perspective, Ann Gillenwater; University of Texas, USA

Quantitative Phase Contrast Optical Coherence Microscopy for Imaging Live Cell Dynamics, Branislav Grajciar; Medical University of Vienna, Austria

Monitoring Hemodynamics and Oxygenation of the Kidney in Rats Using Near-infrared Spectroscopy, Dirk Grosenick; Physikalisch-Technische Bundesanstalt, Germany

Photoacoustic Imaging of Breast Tumor Vascularization: A Comparison with MRI and Histopathology, Michelle Heijblom; University of Twente, Medisch Spectrum Twente, Netherlands

Photodynamic Therapy and Photochemical Internalization in Head and Neck Cancer Management: An Overview, Colin Hopper; UCL Eastman, UK

Real-time Acousto-optic and Ultrasound Measurement for Bimodal Imaging of Small Animals, Jean-Pierre Huignard; Independent Consultant

Hyperspectral Microscopy for Chemical Mapping of Single Erythrocytes Infected by Malaria Parasites, Jeeseong Hwang; National Institute of Standards and Technology, USA

The use of Photoacoustic Tomography in Vascular Targeted Therapy to Determine Vessel Regrowth Following Treatment, Sean  Johnson; University College London, USA

Optical Resolution Imaging in the Diffusive Regime with Time-reversal Of Variance-encoded Light (trove), Benjamin Judkewitz; California Institute of Technology, USA

Gold Nanoparticle Mediated Laser Transfection for High-throughput Antisense Applications, Stefan Kalies; Laser Zentrum Hannover e.V., Germany

Combination of Optical Micromanipulation with Raman Spectroscopy for Cell Sorting, Christoph Krafft; Institute of Photonic Technology, Germany

Optical Detection of Cancer and Precancerous Lesions of the Upper Aerodigestive Tract – Methods for Assessment of Vertical Extensions, Marcel Kraft; Kantonsspital Baselland, USA

Dual Modality Breast Imaging Combining Near Infrared Spectral Tomography and Digital X-ray Tomosynthesis, Venkataramanan Krishnaswamy; Dartmouth College, USA

Structural Characterization of Human Cornea Using Polarization-resolved Shg Microscopy, Gaël Latour; Ecole Polytechnique, CNRS, INSERM U696, Univsersité Paris Sud, CNRS, France

Assessment of Brain Perfusion in Post-traumatic Brain Injury Patients by Time-resolved Optical Monitoring of Icg Inflow, Adam Liebert; Nalecz Institute of Biocybernetics and Biomedical Engineering, Poland

Towards Point-of-care Pathology for Brain Tumor Resection, Jonathan Liu; SUNY Stony Brook, USA

Sers-coded Nanoparticles for Multiplexed Molecular Endoscopy of the Esophagus, Jonathan Liu; SUNY Stony Brook, USA

Multicolor Two-photon Imaging Using Wavelength Mixing, Pierre Mahou; Laboratory for Optics and Biosciences, USA

A Non-contact Time-domain Scanning Brain Imaging System: First In-vivo Results, Mikhail Mazurenka; Physikalisch Technische Bundesanstalt, Germany

The Use of Circularly Polarized Light and its Helicity for Tissue Diagnostics, Igor Meglinski; University of Otago, New Zealand

Ultrafast Force-clamp Spectroscopy to Probe Laci-dna Interactions, Carina Monico; LENS, European Laboratory for Nonlinear Spectroscopy, USA

3D Static Elastography and Shear Wave Imaging Using Full Field OCT, Amir Nahas; Langevin Institute, LLtech, France

In Living Motion:  Imaging Cellular Dynamics And Function Inside Live Three-dimensional Tissues, David Nolte; Purdue University, USA

Image-scanning Focal Modulation Microscopy for Rapid Imaging of Thick Biological Tissues, Shilpa Pant; National University of Singapore, Singapore

Real Time Quantitative Phase Imaging for Blood Screening Applications, Gabriel Popescu; Univ of Illinois at Urbana-Champaign, USA

Inverse Scattering Using Slim, Gabriel Popescu; Univ of Illinois at Urbana-Champaign, USA

Towards In Vivo Acousto-optic Measurement Using Speckle Contrast AO., Steffen Resink; University of Twente, USA

Visualizing a Cytostatic Drug and Probing Apoptosis of Cancer Cells, Herbert Schneckenburger; Hochschule Aalen, Germany

Optical Identification of Subjects at High Risk For Developing Breast Cancer, Paola Taroni; Politecnico di Milano, Italy

Physics of Temporal Pulse-to-pulse Interaction and its Consecution to Future Generation Ophthalmic Laser Systems, Nadine Tinne; Laser Zentrum Hannover e.V., Germany

Sensitivity Improvement of an All-fibre Computerized Optical Fluorescence Setup Using Dual Fibre Probes, Frederique Vanholsbeeck; University of Auckland, New Zealand

Characterization of the Bruise Healing Process  Using Pulsed Photothermal Radiometry, Luka Vidovic; Jozef Stefan Institute, USA

Characterization of Coronary Plaques with Polarization Sensitive Optical Frequency Domain Imaging, Martin Villiger; Harvard Medical School and Massachusetts General Hospital, USA

In Vivo Quantification of Hepatic Microvascular Flow Characteristics Using Laser Speckle Contrast Imaging, Jie Yan; Singapore-MIT Alliance for Research and Technology, Yong Loo Lin School of Medicine, National University of Singapore, USA

General Chairs

Irene Georgakoudi, Tufts Univ., USA
Peter Andersen, Technical Univ of Denmark, Denmark

Program Chairs

Jürgen Popp, Friedrich-Schiller University Jena, Germany
Andreas Hielscher, Columbia University, USA

Program Committee

1. Advanced Microscopy Techniques

Emmanuel Beaurepaire, Ecole Polytechnique, France, Chair
Peter T. C.  So, MIT, USA, Chair
Claude Boccara, ESPCI, Paris, France
Paul J. Campagnola, University of Wisconsin-Madison, USA
Kishan Dholakia, Univ. of St. Andrews, UK
Chen Dong, National Taiwan University, Taiwan
Paul French, Imperial College London, UK
Irene Georgakoudi, Tufts University, USA
Rainer Heintzmann, Inst of Physical Chemeistry, Jena, Germany
Jan Huisken, Max Planck Institute of Mol Cell Biol and Genetics, Germany
Jerome Mertz, Boston Univ., USA
Francesco Pavone, European Lab for Nonlinear Spectroscopy, Italy
Charles Lin, Massachusetts General Hospital, USA
Yaron Silberberg, Weizmann Inst of Science, Rehovot, Israel
Ernst Stelzer, EMBL Heidelberg, Germany
Vinod Subramaniam, Univ. of Twente, Netherlands

2. Clinical and Biomedical Spectroscopy & Imaging

Volker Deckert, IPHT, Germany, Chair
Nirmala Ramanujam, Duke Univ., USA, Chair
Yu Chen, University of Maryland, USA
Darren Roblyer, Boston University, USA
Kristin Maitland, Texas A&M University, USA
Melissa Skala, Vanderbilt University, USA
Quan Liu, Nanyang Technological University, Singapore
J. Quincy Brown, Tulane University, USA
Niels Bendsoe, Lund University Medical Laser Centre, Sweden
Thomas Mayerhöfer, IPHT Jena, Germany
Lise Randeberg, Norwegian University of Science and Technology, Norway
Kishan Dholakia, University of St Andrews, UK
Alastair J.M. Watson, University of Liverpool, UK
Francesco Pavone, European Laboratory for Non Linear Spectroscopy, Italy
Urs Utzinger, University of Arizona, USA
James Tunnell, University of Texas Austin, USA

3. Diffuse Optical Imaging

Prof. Paola Taroni, Politecnico di Milano, Italy, Chair
Hamid Dehghani, The Univ. of Birmingham, UK, Chair
Joseph P Culver, Washington Univ. School of Medicine, USA
Anabela Da Silva, CNRS-Institut Fresnel, France
Scott C Davis, Dartmouth College, USA
Turgut Durduran, ICFO - Institut de Ciències Fotòniques, Spain
Alwin Kienle, Institut für Lasertechnologien in der Medizin und Meßtechnik an der Universität (ILM), Germany
Eiji Okada, Keio University, Japan
Jens Steinbrink, Charité - Universitätsmedizin, Germany
Dick Sterenborg, Erasmus Medical Center, The Netherlands

4. Opto-Acoustic Methods and Applications

Vasilis Ntziachristos, Technical Univ. of Munich, Germany, Chair
Charles P. Lin, Harvard Univ, USA, Chair
Fabian Kiessling, University Aachen (RWTH), Germany
Jan Grimm, Memorial Sloan-Kettering Cancer Ctr., USA
Alexander A. Oraevsky, TomoWave Labs., Inc., USA
Srirang Manohar, University of Twente, The Netherlands
Stanislav Emelianov, Univ. of Texas at Austin, USA
Matthew O'Donnell, Univ. of Washington, USA
Lihong Wang, Washington University in St. Louis, USA
Michael Kolios, Ryerson University, Canada
Valdimir Zharov, UAMS, USA
Amir Rosenthal, Helmholtz Zentrum München GmbH, Germany

5. Novel Biophotonics Techniques and Applications (NBTA)

Prof. Alex Vitkin, Ontario Cancer Inst., Canada, Chair
Arjen Amelink, Erasmus MC, The Netherlands, Chair
Vanderlei Salvador Bagnato, Univ. de São Paulo, Brazil
Paul C. Beard, Univ. College London, United Kingdom
Daniel Cote, Ctr. de Recherche de l'Univ. Laval Robert-Giffard, Canada
Stanislav Y. Emelianov, The Univ. of Texas at Austin, USA
Venkataramanan Krishnaswamy, Dartmouth College, USA
Igor Meglinski, Univ. of Otago, New Zealand
Seemantini K. Nadkarni, Harvard Medical School, USA
Günther Paltauf, Karl-Franzens-Univ. Graz, Austria
Gijs van Soest, Erasmus MC, Netherlands
Chris Xu, Cornell Univ., USA
Dirk J. Faber, Univ. van Amsterdam, Netherlands
Steen J. Madsen, Univ. of Nevada, Las Vegas, USA

6. Optical Coherence Tomography and Coherence Techniques

Brett E. Bouma, Harvard Univ., USA, Chair
Rainer A. Leitgeb, Medical University Vienna, Austria, Chair
Jennifer K. Barton, The Univ. of Arizona, USA
Stephen A. Boppart, Univ. of Illinois at Urbana-Champaign, USA
Adrien Desjardins, University College London, UK
James G. Fujimoto, MIT, USA
Valentin Gelikonov, Institute of Applied Physics, Russian Federation
Robert A. Huber, Ludwig-Maximilians-Univ. München, Germany
Martin Leahy, Univ. of Galway, Ireland
Wang-Yuhl Oh, KAIST, Korea
Michael Pircher, Medizinische Univ. Wien, Austria
Adrian G. Podoleanu, Univ. of Kent, United Kingdom
Andrew M. Rollins, Case Western Reserve Univ., USA
David D. Sampson, The Univ. of Western Australia, Australia
Gijs van Soest, Erasmus MC, Netherlands
Maciej Wojtkowski, Nicolaus Copernicus Univ., Poland
Yoshiaki Yasuno,  Univ. of Tsukuba, Japan

7. Medical Laser Applications and Laser-Tissue Interactions

Prof. Lothar D. Lilge, PMH/Ontario Cancer Inst., Canada, Chair
Dr. Ronald Sroka, Ludwig-Maximillians-Universität Munchen, Germany, Chair
Stefan Andersson-Engels, Lund University, Sweden
Wolfgang Bäumler, University of Regensburg, Germany
Ralf Brinkmann, University of Luebeck, Germany
Natalia Bulgakova, General Physics Institute, Russia
Santiago Camacho, CICESE, Mexico
Frank Chuang, University of California Davis, USA
Martin Frenz, University of Bern, Switzerland
Mike Hamblin, Harvard University, USA
Raimund Hibst, University of Ulm, Germany
Serge Mordon, INSERM, France
Carsten Philipp, Elisabeth Klinik, Germany
Natalia Shakhova, Institute of Applied Physics, Russia
Herbert Stepp, University of Munich, Germany
Henricus J.C.M. Sterenborg, Erasmus University Medical Center, The Netherlands
Ruud Verdaasdonk, VU University Medical Center, The Netherlands
Alfred Vogel, University of Luebeck, Germany
Xiuli Wang, Shanghai Skin Diseases and STD Hospital, China
Gang Zheng, University of Toronto, Canada

8. Neurophotonics

Francesco Pavone, European Lab for Non-Linear Spectroscopy, Italy, Chair
Elizabeth Hillman, Columbia University, USA, Chair
Vincent Daria, Australian National University, Australia, Chair
Serge Charpak, INSERM, France, Chair
George Augustine, Duke--National Univ. of Singapore, Singapore
David Boas, Harvard Medical School, USA
Ed Boyden, Massachusetts Inst. of Tech, USA
Turgut Durduran, Inst. of Photonic Sciences, Spain
Valentina Emiliani, Université Paris, Descartes, France
Fritjof Helmchen, Univ. of Zurich, Switzerland
Thomas Knopfel, Riken Brain Science Inst., Japan
Arthur Konnerth, Tech Univ. Munich, Germany
Kazuto Masamoto, Univ. of Electro-communications, Japan
Brian Wilson, Ontario Cancer Inst., Canada
Michael Hausser, UCL, UK

Partnered Meetings

HNODS (Head & Neck Optical Diagnostics Society)

Christian Betz, Univ. of Munich, Germany, Chair
Brian JF Wong, Univ. of California Irvine, USA, Chair
Tahwinder Upile, Univ. College London, UK
Kristian Berg, The Norwegian Radium Hospital, Norway
Colin Hopper, Univ. College London, UK
Waseem Jerjes, Univ. College London Medical School, UK
Herbert Stepp, Univ. Clinic Munich, Germany

Poster Sessions
Monday 13 May, 12:30-14:30 and Tuesday 14 May, 12:00-14:00
Poster sessions will be held Monday (12:30-14:30) and Tuesday (12:00-14:00) on the ground and first level of the ICM. Each session will represent a different set of posters.  In addition to the poster sessions, several poster presenters from selected conferences will give an oral preview of their posters. Poster previews will consist of brief oral presentations accompanied by one slide (Monday 13 May, 11:00-12:45 in Room 11, first Floor ICM and Tuesday 14 May, 10:30-12:00 in Exhibition Hall B1, 1st Floor, Room Hertz).

Opening of Hall Ceremony and Get-Together Reception
Monday 13 May, 18:00-19:30
Join all Congress participants at this reception to initiate the opening of the Exhibition Hall.  The Get-Together Reception is sponsored by OSA.

Hot Topics ECBO Postdeadline Session
Tuesday 14 May, 18:00-19:30
The ECBO 2013 Technical Program Committee accepted a limited number of postdeadline papers for presentation.  The purpose of the postdeadline sessions is to give participants the opportunity to hear new and significant material in rapidly advancing areas. Only those papers judged to be truly excellent and compelling in their timeliness were accepted.  Light snacks will be served.

Herbert Walther Award Presentation and Lecture
Award Presentation (during CLEO/Europoe-IQEC Plenary Session)
Tuesday 14 May, 10:30-12:30
 
Award Lecture
Tuesday 14 May, 16:00-16:30

ECBO Reception
Wednesday 15 May, 18:30-20:00
All ECBO registrants are invited to participate in this reception at the Koniglicher Hirschgarten in Munich. 

OSA - The Optical Society

  
  

Partnered Meeting:


Head and Neck Optical
Diagnostics (HNODS)