1. Kirill V. Larin

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    1. Mentioned In 93 Articles

    2. Line-scan Raman microscopy complements optical coherence tomography for tumor boundary detection

      Line-scan Raman microscopy complements optical coherence tomography for tumor boundary detection

      Current technique for tumor resection requires biopsy of the tumor region and histological confirmation before the surgeon can be certain that the entire tumor has been resected. This confirmation process is time consuming both for the surgeon and the patient and also requires sacrifice of healthy tissue, motivating the development of novel technologies which can enable real-time detection of tumor-healthy tissue boundary for faster and more efficient surgeries. In this study, the potential of combining structural information from optical coherence tomography (OCT) and molecular information from line-scan Raman microscopy (LSRM) for such an application is presented. The results show a ...

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    3. Noncontact quantitative biomechanical characterization of cardiac muscle using shear wave imaging optical coherence tomography

      Noncontact quantitative biomechanical characterization of cardiac muscle using shear wave imaging optical coherence tomography
      ...Andrew L. Lopez, III,^2 Yuka Morikawa,^2 Ge Tao,^2 Jiasong Li,^1 Irina V. Larina,^2 James F. Martin,^2,^3 and Kirill V. Larin^1,^2,^* ^1Department of Biomedical Engineering, University of Houston, 3605 Cullen Blvd., Ho...
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    4. Assessing the mechanical properties of tissue-mimicking phantoms at different depths as an approach to measure biomechanical gradient of crystalline lens

      Assessing the mechanical properties of tissue-mimicking phantoms at different depths as an approach to measure biomechanical gradient of crystalline lens
      ...g Wang,^1 Salavat Aglyamov,^2 Andrei Karpiouk,^2 Jiasong Li,^1 Stanislav Emelianov,^2 Fabrice Manns,^3,^4 and Kirill V. Larin^1,^5,^* ^1Department of Biomedical Engineering, University of Houston, 3605 Cullen Boulevard...
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    5. Dynamic optical coherence tomography measurements of elastic wave propagation in tissue-mimicking phantoms and mouse cornea in vivo

      Dynamic optical coherence tomography measurements of elastic wave propagation in tissue-mimicking phantoms and mouse cornea in vivo

      We demonstrate the use of phase-stabilized swept-source optical coherence tomography to assess the propagation of low-amplitude (micron-level) waves induced by a focused air-pulse system in tissue-mimicking phantoms, a contact lens, a silicone eye model, and the mouse cornea in vivo. The results show that the wave velocity can be quantified from the analysis of wave propagation, thereby enabling the estimation of the sample elasticity using the model of surface wave propagation for the tissue-mimicking phantoms. This noninvasive, noncontact measurement technique involves low-force methods of tissue excitation that can be potentially used to assess the biomechanical properties of ocular and other ...

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  2. About Kirill V. Larin

    Kirill V. Larin

    Kirill V. Larin is Assistant Professor of Biomedical Engineering at the University of Houston, Houston, TX. His research interests focuses on development and application of OCT for noninvasive and nondestructive imaging and diagnostics of tissues and cells. Larin has authored more than 40 peer-reviewed journal publications and chapters in two textbooks on Biomedical Optics. He is recipient of Boris Yeltsin Presidential Award, Wallace Coulter Young Investigator Translation Award, Office of Naval Research Young Investigator Award, and Outstanding Young Investigator Award from the Houston Society for Engineers in Medicine and Biology.

  3. Quotes

    1. We are using OCT to image mouse and rat embryos, looking at video taken about seven days after conception, out of a 20-day typical mammalian pregnancy...this way, we are able to capture video of the embryonic heart before it begins beating, and a day later we can see the heart beginning to form in the shape of a tube and see whether or not the chambers are contracting. Then, we begin to see blood distribution and the heart rate.
      In The Embryonic Heart: Imaging Life as it Happens - University of Houston Professor Captures Video of Heart Before it Begins to Beat (Video Snippet)
    2. Our primary objective is to develop noninvasive, early detection methods to diagnose various diseases.
      In U. Houston professor expands Optics research