1. Kirill V. Larin

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    1. Mentioned In 177 Articles

    3. Dynamic optical coherence elastography: Emerging tool for noninvasive quantification of mechanical properties of ocular tissues

      Explore asa.scitation.org Ophthalmology
      Dynamic optical coherence elastography: Emerging tool for noninvasive quantification of mechanical properties of ocular tissues
      Optical coherence elastography (OCE) is an emerging method for noninvasive quantification of tissue viscoelastic properties. The underlying technology is based on Optical Coherence Tomography (OCT) imaging and analysis of external (or internal) force-induced mechanical waves propagating through the tissue. In this presentation, I will overview recent progress made in my lab on quantification of mechanical properties of ocular tissues (such as cornea and the lens of the eye) using OCE ...
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      Mentions: National Institutes of Health Kirill V. Larin University of Houston

    5. Assessing the Acute Effects of Prenatal Synthetic Cannabinoid Exposure on Murine Fetal Brain Vasculature Using Optical Coherence Tomography

      Explore Wiley Online Library Neurology
      Assessing the Acute Effects of Prenatal Synthetic Cannabinoid Exposure on Murine Fetal Brain Vasculature Using Optical Coherence Tomography
      Marijuana is one of the most commonly abused substances during pregnancy. Synthetic cannabinoids (SCBs) are a group of heterogeneous compounds that are 40‐ to 600‐fold more potent than ∆ 9 ‐tetrahydrocannabinol , the major psychoactive component of marijuana. With SCBs being legally available for purchase and the prevalence of unplanned pregnancies, the possibility of prenatal exposure to SCBs is high. However, the effects of prenatal SCB exposure on embryonic brain development ...
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      Mentions: Baylor College of Medicine Kirill V. Larin University of Houston

    6. Optical coherence elastography of cold cataract in porcine lens

      Explore SPIE Digital Library Ophthalmology
      Optical coherence elastography of cold cataract in porcine lens
      Cataract is one of the most prevalent causes of blindness around the world. Understanding the mechanisms of cataract development and progression is important for clinical diagnosis and treatment. Cold cataract has proven to be a robust model for cataract formation that can be easily controlled in the laboratory. There is evidence that the biomechanical properties of the lens can be significantly changed by cataract. Therefore, early detection of cataract, as ...
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      Mentions: Kirill V. Larin University of Houston Manmohan Singh

    7. University of Houston Receives NIH Grant for Optical Coherence Tomography to Study Effects of Poly-Drug Exposure of Fetal Brain Development

      Explore Optical Coherence Tomography News Developmental Biology , Funding
      University of Houston Receives NIH Grant for Optical Coherence Tomography to Study Effects of Poly-Drug Exposure of Fetal Brain Development
      ...e Tomography to Study Effects of Poly-Drug Exposure of Fetal Brain Development. The principal investigator is Kirill Larin. The program began in 2016 and ends in 2020. Below is a summary of the proposed work. The overal...
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      Mentions: National Institutes of Health Kirill V. Larin University of Houston

    8. Assessing the biomechanical properties of the porcine crystalline lens as a function of intraocular pressure with optical coherence elastography

      Explore OSA | OSA Publishing Ophthalmology
      Assessing the biomechanical properties of the porcine crystalline lens as a function of intraocular pressure with optical coherence elastography
      In this study, we investigated the relationship between the biomechanical properties of the crystalline lens and intraocular pressure (IOP) using a confocal acoustic radiation force (ARF) and phase-sensitive optical coherence elastography (OCE) system. ARF induced a small displacement at the apex of porcine lenses in situ at various artificially controlled IOPs. Maximum displacement, relaxation rate, and Youngs modulus were utilized to assess the stiffness of the crystalline lens. The results ...
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      Mentions: Baylor College of Medicine Kirill V. Larin University of Houston

    11. Integrated optical coherence tomography and multielement ultrasound transducer probe for shear wave elasticity imaging of moving tissues

      Explore SPIE Digital Library Probes
      Integrated optical coherence tomography and multielement ultrasound transducer probe for shear wave elasticity imaging of moving tissues
      Accurate measurements of microelastic properties of soft tissues in-vivo using optical coherence elastography can be affected by motion artifacts caused by cardiac and respiratory cycles. This problem can be overcome using a multielement ultrasound transducer probe where each ultrasound transducer is capable of generating acoustic radiation force (ARF) and, therefore, creating shear waves in tissue. These shear waves, produced during the phase of cardiac and respiratory cycles when tissues are ...
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      Mentions: Kirill V. Larin University of Houston Georgia Institute of Technology

    13. Modified wavelength scanning interferometry for simultaneous tomography and topography of the cornea with Fourier domain optical coherence tomography

      Explore OSA | OSA Publishing Ophthalmology
      Modified wavelength scanning interferometry for simultaneous tomography and topography of the cornea with Fourier domain optical coherence tomography
      Visual acuity is dependent on corneal shape and size. A minor variation in surface geometry can cause a deformation of corneal geometry, which affects its optical performance. In this work we demonstrate an algorithm for the simultaneous measurement of corneal tomography and topography with a traditional point-scanning Fourier domain optical coherence tomography (FD-OCT) system. A modified wavelength scanning interferometry (mWSI) algorithm enabled topographical evaluation of the surface with nanometer-scale resolution ...
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      Mentions: Baylor College of Medicine Kirill V. Larin University of Alabama

    14. Quantifying the effects of hydration on corneal stiffness with noncontact optical coherence elastography

      Explore ScienceDirect Ophthalmology
      Quantifying the effects of hydration on corneal stiffness with noncontact optical coherence elastography
      Purpose To quantify the effects of the hydration state on the Young's modulus of the cornea . Setting Biomedical Optics Laboratory, University of Houston, Houston, Texas, USA. Design Experimental study. Methods Noncontact, dynamic optical coherence elastography (OCE) measurements were taken of in situ rabbit corneas in the whole eyeglobe configuration (n = 10) and at an artificially controlled intraocular pressure of 15 mm Hg. Baseline OCE measurements were taken by topically ...
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      Mentions: Kirill V. Larin University of Alabama University of Houston

    15. Effects of Thickness on Corneal Biomechanical Properties Using Optical Coherence Elastography

      Explore LWW Online Ophthalmology
      Effects of Thickness on Corneal Biomechanical Properties Using Optical Coherence Elastography
      SIGNIFICANCE Measured corneal biomechanical properties are driven by intraocular pressure, tissue thickness, and inherent material properties. We demonstrate tissue thickness as an important factor in the measurement of corneal biomechanics that can confound short-term effects due to UV riboflavin cross-linking (CXL) treatment. PURPOSE We isolate the effects of tissue thickness on the measured corneal biomechanical properties using optical coherence elastography by experimentally altering the tissue hydration state and stiffness. METHODS ...
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      Mentions: Kirill V. Larin University of Houston Salavat Aglyamov

    16. Quantifying changes in lens biomechanical properties due to cold cataract with optical coherence elastography

      Explore SPIE Digital Library Ophthalmology
      Quantifying changes in lens biomechanical properties due to cold cataract with optical coherence elastography
      Cataract is the most prevalent cause of visual impairment worldwide. Cataracts can be formed due to trauma, radiation, drug abuse, or low temperatures. Thus, early detection of cataract can be immensely helpful for preserving visual acuity by ensuring that the appropriate therapeutic procedures are performed at earlier stages of disease onset and progression. In this work, we utilized a phase-sensitive optical coherence elastography (OCE) system to quantify changes in biomechanical ...
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      Mentions: Kirill V. Larin University of Houston Manmohan Singh
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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.

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  6. Quotes

    1. When the heart develops, it becomes stiffer as required for ability to contract and pump blood...So the question is - does it become stiff because it's contracting, or is it stiff to begin with because it is genetically predefined?
      In Understanding congenital heart defects to prevent them
    2. When the heart develops, it becomes stiffer as required for ability to contract and pump blood...So the question is - does it become stiff because it’s contracting, or is it stiff to begin with because it is genetically predefined?
      In Understanding Congenital Heart Defects To Prevent Them
    3. We will create this hybrid microscope putting these two powerful technologies together. OCT will image the development of the neural tube while at the same time, Brillouin spectroscopy will probe its mechanical properties. We will be imaging and sensing at the same time...If we find out what causes the tube to close, what is exactly happening, we can develop new drug treatments for at-risk embryos...It's still one of the great mysteries of life, no one on earth knows how this happens and that is really exciting to us, because we will be the ones to find out.
      In Watching an embryo's neural tube close
    4. Today about one million people suffer heart attacks every year, and there is currently no cure for the resulting cardiac tissue scarring...We are working to develop ways to regenerate heart tissue and our research works to measure the mechanical properties to determine if the heart is healing in response to therapies.
      In Biomechanical mapping method aids development of therapies for damaged heart tissue
    5. Experiments have shown that tissue from newborn mammalian hearts can completely regenerate, but with age this regeneration capability diminishes...Martin's group is working on ways to manipulate these molecular pathways in a way that stimulates the adult heart tissue to repair itself.
      In Biomechanical mapping method aids development of therapies for damaged heart tissue
    6. 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)
    7. Our primary objective is to develop noninvasive, early detection methods to diagnose various diseases.
      In U. Houston professor expands Optics research