1. Massachusetts Institute of Technology

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    1. Mentioned In 406 Articles

    2. Ultrahigh speed endoscopic swept source optical coherence tomography using a VCSEL light source and micromotor catheter

      Explore Conference Proceedings Gastroenterology
      Ultrahigh speed endoscopic swept source optical coherence tomography using a VCSEL light source and micromotor catheter

      We developed an ultrahigh speed endoscopic swept source optical coherence tomography (OCT) system for clinical gastroenterology using a vertical-cavity surface-emitting laser (VCSEL) and micromotor based imaging catheter, which provided an imaging speed of 600 kHz axial scan rate and 8 μm axial resolution in tissue. The micromotor catheter was 3.2 mm in diameter and could be introduced through the 3.7 mm accessory port of an endoscope. Imaging was performed at 400 frames per second with an 8 μm spot size using a pullback to generate volumetric data over 16 mm with a pixel spacing of 5 μm in ...

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      Mentions: Massachusetts Institute of Technology James G. Fujimoto Thorlabs

    3. En Face OCT Imaging of the Eye - Special Interest Group for the 2014 ARVO Annual Meeting May 2014

      Explore Optical Coherence Tomography News Ophthalmology
      En Face OCT Imaging of the Eye - Special Interest Group for the 2014 ARVO Annual Meeting May 2014

      The Association for Research in Vision and Ophthalmology (ARVO)has approved a new Special Interest Group (SIG) for the 2014 ARVO Annual Meeting, May 4-8, 2014, in Orlando, Florida. The SIG is titled: En Face OCT imaging of the Eye – SIG, Session Number: 355. The Organizer is Andre Romano and includes the following speakers: David Huang, James Fujimoto, Philip Rosenfeld. Bruno Lumbroso, Gabriel Coscas, Min Wang, Richard Rosen. More can be found by clicking HERE .

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      Mentions: Philip J. Rosenfeld Massachusetts Institute of Technology James G. Fujimoto

    5. Choroidal Analysis In Healthy Eyes Using Swept Source Optical Coherence Tomography Compared to Spectral Domain Optical Coherence Tomography

      Explore American Journal of Ophthalmology Ophthalmology
      Choroidal Analysis In Healthy Eyes Using Swept Source Optical Coherence Tomography Compared to Spectral Domain Optical Coherence Tomography
      ...ohler Affiliations + Dept of Electrical Engineering and Computer Science, Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts + K. Mohler was visiting from the Ludwig Maxim...
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      Mentions: Massachusetts Institute of Technology James G. Fujimoto Jay S. Duker

    7. 2014 SPIE Startup Challenge Winners Announced - First-place winner Robert McLaughlin of the University of Western Australia for OCT Needle Microscope

      Explore Optical Coherence Tomography News Funding
      2014 SPIE Startup Challenge Winners Announced - First-place winner Robert McLaughlin of the University of Western Australia for OCT Needle Microscope
      ...ief video of the winning pitch is at http://bcove.me/53g2i3wo [11:02].) Second-place winner Nicholas Durr of Massachusetts Institute of Technology received $5,000. The product, PlenOptika’s QuickSee, is an innovative lo...
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      Mentions: Massachusetts Institute of Technology Duke University Adam Wax

    8. Feature Of The Week 2/16/14: En Face Enhanced-Depth Swept-Source Optical Coherence Tomography Features of Chronic Central Serous Chorioretinopath

      Explore Optical Coherence Tomography News Ophthalmology
      Feature Of The Week 2/16/14: En Face Enhanced-Depth Swept-Source Optical Coherence Tomography Features of Chronic Central Serous Chorioretinopath

      We characterized en face features of the retinal pigment epithelium (RPE) and choroid in eyes with chronic central serous chorioretinopathy (CSCR) using a high-speed, enhanced tissue penetration, swept-source optical coherence tomography (SS-OCT) prototype. Fifteen eyes of 13 consecutive patients with the clinical diagnosis of CSCR were prospectively examined with SS-OCT. Three-dimensional 6x6mm macular cube raster scans were obtained with SS-OCT operating at 1050nm wavelength and 100,000 A-lines/sec with 6µm axial resolution. Segmentation of the RPE generated a reference surface; en face SS-OCT images of the RPE and choroid were extracted at varying depths every 3.5 µm ...

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      Mentions: Massachusetts Institute of Technology James G. Fujimoto Jay S. Duker

    10. Analysis of short-term change in subfoveal choroidal thickness in eyes with age-related macular degeneration using optical coherence tomography

      Explore Healio.com Ophthalmology
      Analysis of short-term change in subfoveal choroidal thickness in eyes with age-related macular degeneration using optical coherence tomography
      ...(CVR); and the Department of Electrical Engineering and Computer Science, Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts (JGF). Presented as a scientific poster at th...
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      Mentions: Massachusetts Institute of Technology National Institutes of Health James G. Fujimoto

    12. State of the Industry report on Optical Coherence Tomography

      Explore Home: SPIE.org
      State of the Industry report on Optical Coherence Tomography

      The first commercial optical coherence tomography (OCT) imagers were introduced to ophthalmology by Advanced Ophthalmic Devices (now owned by Zeiss Meditec) in 1992. Since then, the market for OCT systems has grown at an impressive compounded annual rate of about 45%. This segment of the biophotonics marketplace has flourished because OCT enables sub-surface imaging of translucent or opaque materials, such as human tissue, in real time at micron resolution and without the use of ionizing radiation. As a result, last year’s global sales of all OCT systems exceeded $400 million and the market now supports more than 36 OCT ...

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      Mentions: Guillermo J. Tearney Massachusetts Institute of Technology James G. Fujimoto

    13. Agile Imaging System

      Explore patentscope.wipo.int Patents
      Agile Imaging System

      An agile optical imaging system for optical coherence tomography imaging using a tunable source comprising a wavelength tunable VCL laser is disclosed. The tunable source has long coherence length and is capable of high sweep repetition rate, as well as changing the sweep trajectory, sweep speed, sweep repetition rate, sweep linearity, and emission wavelength range on the fly to support multiple modes of OCT imaging. The imaging system also offers new enhanced dynamic range imaging capability for accommodating bright reflections. Multiscale imaging capability allows measurement over orders of magnitude dimensional scales. The imaging system and methods for generating the waveforms ...

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      Mentions: Massachusetts Institute of Technology Thorlabs Alex E. Cable

    16. In Vivo Lamina Cribrosa Micro-Architecture in Healthy and Glaucomatous Eyes as Assessed by Optical Coherence Tomography

      Explore iovs.org Ophthalmology
      In Vivo Lamina Cribrosa Micro-Architecture in Healthy and Glaucomatous Eyes as Assessed by Optical Coherence Tomography
      ...y of Pittsburgh, Pittsburgh, Pennsylvania 4. ^4Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 5. ^5Department of Computer Science, Univ...
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      Mentions: University of Pittsburgh Massachusetts Institute of Technology James G. Fujimoto
    17. 1-15 of 406 1 2 3 4 ... 25 26 27 »
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  4. About Massachusetts Institute of Technology

    Massachusetts Institute of Technology

    Massachusetts Institute of Technology (MIT) is a private, coeducational research university located in Cambridge, Massachusetts. MIT has five schools and one college, containing 32 academic departments, with a strong emphasis in theoretical, applied, and interdisciplinary scientific and technological research.  Laser Medicine and Medical Imaging Group at MIT.  The RLE Laser Medicine and Medical Imaging Group and its close collaborators were the originators of optical coherence tomography (OCT), a diagnostic technology now used in a growing number of medical fields. The group currently works to further understand and exploit the capabilities of OCT technology, with ongoing investigations in topics related to optical coherence microscopy development and optical biopsy using OCT.

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