1. Lihong V. Wang

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    1. Mentioned In 40 Articles

    2. Photoacoustic and optical coherence tomography of epilepsy with high temporal and spatial resolution and dual optical contrasts

      Photoacoustic and optical coherence tomography of epilepsy with high temporal and spatial resolution and dual optical contrasts
      ...responding author , * Li Li^a^, ^c^, ^5^, E-mail the corresponding author E-mail the corresponding author , * Lihong V. Wang^a^, Corresponding author contact information Corresponding author contact information ^, E-mail...
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    3. Optical coherence computed tomography

      Optical coherence computed tomography
      A system, method, and device for imaging a sample. In embodiments, a light from a low-coherence source or a wavelength-swept source is used to illuminate the sample. Pathlength-resolved intensity profiles of the light reemitted from the sample are recorded and measurements are taken. A reconstruction algorithm is used to invert the pathlength-resolved measurements to form an image.
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    4. A 2.5-mm diameter probe for photoacoustic and ultrasonic endoscopy

      A 2.5-mm diameter probe for photoacoustic and ultrasonic endoscopy
      We have created a 2.5-mm outer diameter integrated photo-acoustic and ultrasonic mini-probe which can be inserted into a standard video endoscope’s instrument channel. A small-diameter focused ultrasonic transducer made of PMN-PT provides adequate signal sensitivity, and enables miniaturization of the probe. Additionally, this new endoscopic probe utilizes the same scanning mirror and micromotor-based built-in actuator described in our previous reports; however, the length of the rigid distal section ...
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    5. Investigation of Neovascularization in Three-Dimensional Porous Scaffolds In Vivo by a Combination of Multiscale Photoacoustic Microscopy and Optical Coherence Tomography

      Investigation of Neovascularization in Three-Dimensional Porous Scaffolds In Vivo by a Combination of Multiscale Photoacoustic Microscopy and Optical Coherence Tomography
      It is a grand challenge to visualize and assess in vivo neovascularization in a three-dimensional (3D) scaffold non-invasively, together with high spatial resolution and deep penetration depth. Here we used multiscale photoacoustic microscopy (PAM), including acoustic-resolution PAM (AR-PAM) and optical-resolution PAM (OR-PAM), to chronically monitor neovascularization in an inverse opal scaffold implanted in a mouse model up to six weeks by taking advantage of the optical absorption contrast intrinsic to ...
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    6. Optical Coherence Tomography Used $500M of Federally Funded Research Over The Past Decade: How was it Used, What was Accomplished, and What’s to Come?

      Optical Coherence Tomography Used $500M of Federally Funded Research Over The Past Decade: How was it Used, What was Accomplished, and What’s to Come?
      ...bana-Champaign, and Duke University represent the top three recipients with just over $1M each.  David Huang, Lihong Wang, Rohit Varma, Michael Ip, Gary Tearney, Mark Brezinski, John Werner, James Fujimoto, Stephen Boppa...
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  1. Categories

    1. Applications:

      Art, Cardiology, Dentistry, Dermatology, Developmental Biology, Gastroenterology, Gynecology, Microscopy, NDE/NDT, Neurology, Oncology, Ophthalmology, Other Non-Medical, Otolaryngology, Pulmonology, Urology
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  2. About Lihong V. Wang

    Lihong V. Wang

    Lihong V. Wang is a Distinguished Professor in the Department of Biomedical Engineering, in the School of Engineering at the Washington University in St. Louis. Director of Optical Imaging Laboratory. Research in Biophotonics, optical imaging, ultrasound-modulated optical tomography, photoacoustic tomography, hermoacoustic tomography, spectroscopic oblique-incidence reflectometry, polarization-sensitive optical coherence tomography, and modeling of light transport in biological tissue.  Also visit the Optical Imaging Laboratory at Washington University in St. Louis.

  3. Quotes

    1. If light is delivered from both sides of the tissue, ten-centimetre-thick tissue can potentially be imaged.
      In The sound of light: Biomedical technology: A novel scanning technique that combines optics with ultrasound could provide detailed images at greater depths