Dynamic multicomponent engineered tissue reorganization and matrix deposition measured with an integrated nonlinear optical microscopy–optical coherence microscopy system

Bai, Yuqiang; Lee, Po-Feng; Gibbs, Holly C.; Bayless, Kayla J.; Yeh, Alvin T.

doi:10.1117/1.jbo.19.3.036014

Cited by 11 publications

(16 citation statements)

References 41 publications

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“…In the 2PF-OCM setup, a 5% beamsplitter introduced in the path of the beam of the UPM system described above created a Michelson interferometer in which the sample and reference beams were recombined, coupled into a singlemode fiber, and sent to a home-built spectrometer that has been previously described 47,48 for Fourier domain detection. In the 2PF-OCM setup, a 5% beamsplitter introduced in the path of the beam of the UPM system described above created a Michelson interferometer in which the sample and reference beams were recombined, coupled into a singlemode fiber, and sent to a home-built spectrometer that has been previously described 47,48 for Fourier domain detection.…”

Section: Two-photon Fluorescence-optical Coherence Microscopy Imagingmentioning

confidence: 99%

Combined lineage mapping and gene expression profiling of embryonic brain patterning using ultrashort pulse microscopy and image registration

et al. 2014

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During embryogenesis, presumptive brain compartments are patterned by dynamic networks of gene expression. The spatiotemporal dynamics of these networks, however, have not been characterized with sufficient resolution for us to understand the regulatory logic resulting in morphogenetic cellular behaviors that give the brain its shape. We have developed a new, integrated approach using ultrashort pulse microscopy [a high-resolution, two-photon fluorescence (2PF)-optical coherence microscopy (OCM) platform using 10-fs pulses] and image registration to study brain patterning and morphogenesis in zebrafish embryos. As a demonstration, we used time-lapse 2PF to capture midbrain-hindbrain boundary morphogenesis and a wnt1 lineage map from embryos during brain segmentation. We then performed in situ hybridization to deposit NBT/BCIP, where wnt1 remained actively expressed, and reimaged the embryos with combined 2PF-OCM. When we merged these datasets using morphological landmark registration, we found that the mechanism of boundary formation differs along the dorsoventral axis. Dorsally, boundary sharpening is dominated by changes in gene expression, while ventrally, sharpening may be accomplished by lineage sorting. We conclude that the integrated visualization of lineage reporter and gene expression domains simultaneously with brain morphology will be useful for understanding how changes in gene expression give rise to proper brain compartmentalization and structure.

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Section: Two-photon Fluorescence-optical Coherence Microscopy Imagingmentioning

confidence: 99%

Combined lineage mapping and gene expression profiling of embryonic brain patterning using ultrashort pulse microscopy and image registration

et al. 2014

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“…For example, nonlinear Raman microscopy enables imaging of molecular compositions, especially lipid membranes and proteins, at a subcellular level . Second harmonic generation microscopy, a molecular‐sensitive imaging technique, is widely utilized in imaging the stress fibers in cells or extracellular matrices . Photoacoustic microscopy (PAM) is capable of probing samples' optical absorbability.…”

Section: Introductionmentioning

confidence: 99%

Subcellular measurements of mechanical and chemical properties using dual Raman-Brillouin microspectroscopy

et al. 2015

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Brillouin microspectroscopy is a powerful technique for noninvasive optical imaging. In particular, Brillouin microspectroscopy uniquely allows assessing a sample's mechanical properties with microscopic spatial resolution. Recent advances in background-free Brillouin microspectroscopy make it possible to image scattering samples without substantial degradation of the data quality. However, measurements at the cellular- and subcellular-level have never been performed to date due to the limited signal strength. In this report, by adopting our recently optimized VIPA-based Brillouin spectrometer, we probed the microscopic viscoelasticity of individual red blood cells. These measurements were supplemented by chemically specific measurements using Raman microspectroscopy.

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“…Coherent anti-Stokes Raman scattering (CARS) imaging makes use of molecular vibrations to visualize collagen and elastin fibers and discern them from cellular structures 39 , 40 . Optical coherence tomography (OCT) can make use of polarization to discern highly ordered collagen structures such as those in tendon 41 , and has recently been combined with multiphoton imaging 42 . There is also interest in exploiting collagen, and the structural information it conveys for meso- and macro-scopic imaging approaches using OCT 43 , which is being exploited for intra-operative imaging of collagen structures 44 .…”

Section: Imaging the Extracellular Matrixmentioning

confidence: 99%

Capturing relevant extracellular matrices for investigating cell migration

Keely

Nain

2015

F1000Res

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Much progress in understanding cell migration has been determined by using classic two-dimensional (2D) tissue culture platforms. However, increasingly, it is appreciated that certain properties of cell migration in vivo are not represented by strictly 2D assays. There is much interest in creating relevant three-dimensional (3D) culture environments and engineered platforms to better represent features of the extracellular matrix and stromal microenvironment that are not captured in 2D platforms. Important to this goal is a solid understanding of the features of the extracellular matrix—composition, stiffness, topography, and alignment—in different tissues and disease states and the development of means to capture these features

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Dynamic multicomponent engineered tissue reorganization and matrix deposition measured with an integrated nonlinear optical microscopy–optical coherence microscopy system

Cited by 11 publications

References 41 publications

Combined lineage mapping and gene expression profiling of embryonic brain patterning using ultrashort pulse microscopy and image registration

Combined lineage mapping and gene expression profiling of embryonic brain patterning using ultrashort pulse microscopy and image registration

Subcellular measurements of mechanical and chemical properties using dual Raman-Brillouin microspectroscopy

Capturing relevant extracellular matrices for investigating cell migration

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