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Related Concept Videos

Three-Dimensional Microscopy in Microbiology01:28

Three-Dimensional Microscopy in Microbiology

Three-dimensional imaging techniques are essential in cell biology, allowing researchers to visualize intricate cellular structures with high resolution. Two prominent methods, Differential Interference Contrast Microscopy (DIC) and Confocal Scanning Laser Microscopy (CSLM), provide distinct advantages for imaging live and thick specimens, respectively.Differential Interference Contrast MicroscopyDIC microscopy enhances contrast in transparent, unstained samples by converting phase...

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Related Experiment Video

Updated: Jun 22, 2026

Multimodal Volumetric Retinal Imaging by Oblique Scanning Laser Ophthalmoscopy (oSLO) and Optical Coherence Tomography (OCT)
12:22

Multimodal Volumetric Retinal Imaging by Oblique Scanning Laser Ophthalmoscopy (oSLO) and Optical Coherence Tomography (OCT)

Published on: August 4, 2018

Three dimensional optical angiography.

Ruikang K Wang, Steven L Jacques, Zhenhe Ma

    Optics Express
    |June 18, 2009
    PubMed
    Summary
    This summary is machine-generated.

    We developed optical angiography (OAG) to image blood flow in 3D within tissues. This technique overcomes light scattering limitations, enabling visualization of microcirculation in vivo.

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    Generation and 3-Dimensional Quantitation of Arterial Lesions in Mice Using Optical Projection Tomography
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    Generation and 3-Dimensional Quantitation of Arterial Lesions in Mice Using Optical Projection Tomography

    Published on: May 26, 2015

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    Last Updated: Jun 22, 2026

    Multimodal Volumetric Retinal Imaging by Oblique Scanning Laser Ophthalmoscopy (oSLO) and Optical Coherence Tomography (OCT)
    12:22

    Multimodal Volumetric Retinal Imaging by Oblique Scanning Laser Ophthalmoscopy (oSLO) and Optical Coherence Tomography (OCT)

    Published on: August 4, 2018

    Generation and 3-Dimensional Quantitation of Arterial Lesions in Mice Using Optical Projection Tomography
    11:45

    Generation and 3-Dimensional Quantitation of Arterial Lesions in Mice Using Optical Projection Tomography

    Published on: May 26, 2015

    Area of Science:

    • Biomedical optics
    • Medical imaging
    • Vascular biology

    Background:

    • Optical imaging faces limitations in deep tissue due to light scattering and absorption.
    • Accurate 3D mapping of microvascular perfusion is crucial for understanding tissue health and disease.

    Purpose of the Study:

    • To develop a novel optical imaging technique for high-resolution 3D microvascular perfusion mapping.
    • To overcome the limitations of existing optical methods for imaging within scattering tissues.

    Main Methods:

    • Developed optical angiography (OAG) based on Fourier domain optical coherence tomography.
    • Analyzed endogenous optical scattering signals to differentiate moving (blood) and static tissue components.
    • Achieved 3D optical sectioning and high-resolution imaging of blood flow in vivo.

    Main Results:

    • Generated 3D angiograms within millimeter tissue depths.
    • Successfully visualized the cerebral microcirculation of adult living mice through the intact cranium.
    • Demonstrated high-resolution imaging of blood flow at speeds suitable for in vivo perfusion assessment.

    Conclusions:

    • Optical angiography (OAG) is a powerful technique for non-invasive 3D microvascular imaging.
    • OAG overcomes significant challenges posed by light scattering in biological tissues.
    • This method enables previously difficult or impossible in vivo imaging of microcirculation.