1. Kirill V. Larin

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    1. Mentioned In 99 Articles

    2. Optical coherence tomography guided microinjections in live mouse embryos: high-resolution targeted manipulation for mouse embryonic research

      Explore SPIE | Journal Developmental Biology
      Optical coherence tomography guided microinjections in live mouse embryos: high-resolution targeted manipulation for mouse embryonic research

      The ability to conduct highly localized delivery of contrast agents, viral vectors, therapeutic or pharmacological agents, and signaling molecules or dyes to live mammalian embryos is greatly desired to enable a variety of studies in the field of developmental biology, such as investigating the molecular regulation of cardiovascular morphogenesis. To meet such a demand, we introduce, for the first time, the concept of employing optical coherence tomography (OCT)-guide microinjections in live mouse embryos, which provides precisely targeted manipulation with spatial resolution at the micrometer scale. The feasibility demonstration is performed with experimental studies on cultured live mouse embryos at ...

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      Mentions: Duke University Baylor College of Medicine Kirill V. Larin

    3. Imaging of cardiovascular development in Mammalian embryos using optical coherence tomography (Book Chapter)

      Explore Home - Springer Developmental Biology , Textbooks
      Imaging of cardiovascular development in Mammalian embryos using optical coherence tomography (Book Chapter)

      The cardiovascular system is the first functional organ system to develop within the mammalian embryo. During the early stages of cardiovascular development, the heart and blood vessels undergo rapid growth and remodeling required for embryo viability, proper morphogenesis, and the function of all organ systems. Live imaging of these dynamic events in early mouse embryos is critical to understanding when and how these morphological changes occur during normal development and how mutations and pharmacological agents affect cardiovascular structure and function in vivo. The use of optical coherence tomography (OCT) allows for rapid, three-dimensional structural and functional imaging of mouse embryos ...

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      Mentions: Baylor College of Medicine Kirill V. Larin University of Houston

    7. Measurement of the temperature dependence of Young's modulus of cartilage by phase-sensitive optical coherence elastograph

      Explore IOPscience
      Measurement of the temperature dependence of Young's modulus of cartilage by phase-sensitive optical coherence elastograph

      The development of an effective system to monitor the changes in the elastic properties of cartilage tissue with increasing temperature in laser reconstruction is an urgent practical task. In this paper, the use of phase-sensitive optical coherence elastography for detection of elastic waves in the sample has allowed Young's modulus of cartilage tissue to be measured directly during heating. Young's modulus was calculated from the group velocity of propagation of elastic waves excited by means of a system supplying focused air pulses. The measurement results are in agreement with the results of measurements of the modulus of elasticity ...

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      Mentions: Kirill V. Larin University of Houston Institute of Applied Physics

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

      Explore IOPscience Microscopy , Oncology
      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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      Mentions: Kirill V. Larin University of Houston Saratov State University

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

      Explore opticsinfobase.org Cardiology
      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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      Mentions: Baylor College of Medicine Kirill V. Larin University of Houston
    17. 1-15 of 99 1 2 3 4 5 6 7 »
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  4. 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.

  5. Related Topics

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  6. 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