eoe sub articles

EoE Sub Articles

<figure class='table'><table class='ck-table-resized' style='border-collapse:collapse;font-family:Calibri;font-size:11pt;table-layout:fixed;' cellspacing='0' cellpadding='0' dir='ltr' border='1' data-sheets-root='1' data-sheets-baot='1'><colgroup><col style='width:25%;' width='261'><col style='width:25%;' width='214'><col style='width:25%;' width='152'><col style='width:25%;' width='190'></colgroup><tbody><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Mice</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Opa1delTTAG mouse</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Institute for Neurosciences in Montpellier, INSERM UMR 1051, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Opa1 knock-in mice carrying OPA1 c.2708_2711delTTAG mutation on C57Bl6/J background</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Equipment</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>EnVisu R2200 SD-OCT Imaging System</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Bioptigen, Leica Microsystems, Germany</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Spectral-Domain Optic Coherence Tomography system</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>EnVisu R2200 SD-OCT Imaging System Software</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Bioptigen, Leica Microsystems, Germany</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Software for OCT acquisition and analysis</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>ImageJ 1.48v</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Wayne Rasband, National Institutes of Health, USA</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Software for analysis, requires downloading and installing two hommade macros: http://dev.mri.cnrs.fr/projects/imagej-macros/wiki/Retina_Tool</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Self-regulating heating plate</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Bioseb, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>BIO-062</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Protection against hypothermia</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Supplies</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Gauze pads 3"x3"</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Curad, USA</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>CUR20434ERB</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Protection against hypothermia</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Dual Ended Cotton tip applicator</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Essence of Beauty, CVS Health Corporation, USA</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Gel application</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Cotton Twists</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>CentraVet, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>T.7979C.CS</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Mouse positioning</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Reagents and Drugs</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td><td style='background-color:#ffffff;overflow:hidden;padding:0px 3px;vertical-align:bottom;'>&#160;</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>N&#233;osyn&#233;phrine Faure 10%</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Laboratoires Europhtha, Monaco</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Eye dilatation</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Mydriaticum 0.5%</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Laboratoires Th&#233;a, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>3397908</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Eye dilatation</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Cebesine 0.4%</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Laboratoire Chauvin, Bausch&amp;Lomb, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>3192342</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Local anesthesia</td></tr><tr style='height:20px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Imalgene 1000</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Merial, France/CentraVet, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>IMA004</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>General anesthesia</td></tr><tr style='height:21px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Rompun</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Bayer Healthcare, Germany/CentraVet, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>ROM001</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>General anesthesia, analgesia, muscle relaxation</td></tr><tr style='height:21px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>NaCl 0,9%</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Laboratoire Osalia, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>103697114</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Physiological serum</td></tr><tr style='height:21px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Systene Ultra</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Alcon, Novartis, USA</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Hydration of eyes</td></tr><tr style='height:21px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>GenTeal'</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Alcon, Novartis, USA</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>-</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Ophtalmic gel to minimize light refraction and opacities</td></tr><tr style='height:21px;'><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Aniospray Surf 29</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Laboratoires Anios, France</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>59844</td><td style='background-color:#ffffff;color:#1a202c;font-size:10pt;overflow:hidden;padding:0px 3px;vertical-align:bottom;white-space:normal;word-wrap:break-word;wrap-strategy:4;'>Disinfectant</td></tr></tbody></table></figure>

in vivo imaging of the mouse retina using optical coherence tomography

Source:&#160;<a style='text-decoration:none;' href='https://appjove.unicartagenaproxy.elogim.com/v/55865/optical-coherence-tomography-imaging-mouse-retinal-ganglion-cells-in-vivo'><span style='-webkit-text-decoration-skip:none;font-family:Arial,sans-serif;font-size:12pt;font-style:normal;font-variant:normal;font-weight:400;text-decoration-skip-ink:none;vertical-align:baseline;white-space:pre-wrap;'>Jagodzinska, J.,&#160;et. al.<span style='-webkit-text-decoration-skip:none;font-family:Arial,sans-serif;font-size:12pt;font-style:normal;font-variant:normal;font-weight:400;text-decoration-skip-ink:none;vertical-align:baseline;white-space:pre-wrap;'>,&#160; Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells&#160;In Vivo<span style='-webkit-text-decoration-skip:none;font-family:Arial,sans-serif;font-size:12pt;font-style:normal;font-variant:normal;font-weight:400;text-decoration-skip-ink:none;vertical-align:baseline;white-space:pre-wrap;'>.&#160;J. Vis. Exp.&#160;<span style='-webkit-text-decoration-skip:none;font-family:Arial,sans-serif;font-size:12pt;font-style:normal;font-variant:normal;font-weight:400;text-decoration-skip-ink:none;vertical-align:baseline;white-space:pre-wrap;'>(2017)</a>&#160; &#160;In this video, we demonstrate the use of spectral-domain optical coherence tomography (SD-OCT) to image retinal layers and assess structural changes in a genetically modified mouse model with optic neuropathy.

In Vivo Imaging of the Mouse Retina Using Optical Coherence Tomography

Source:&#160;Jagodzinska, J.,&#160;et. al.,&#160; Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells&#160;In Vivo.&#160;J. Vis. ...

Take an anesthetized genetically modified mouse exhibiting optic atrophy.&#160;The pupils are dilated for enhanced light penetration.Administer anesthetic to immobilize the eyes. Apply drops for corneal hydration. Then, wrap the mouse in gauze to maintain body warmth.&#160;Apply gel to minimize light refraction. Secure the mouse in the spectral-domain optical coherence tomography system cassette, ensuring proper head positioning.&#160;Align the optical axes of the right eye and the imaging lens. Use alignment controls to center the optic nerve head in the imaging field, ensuring proper retinal alignment.Low-coherence light directed into the retina reflects off layers with varying refractive indices. The reflected light combines with a reference beam to generate interference patterns, creating a high-resolution cross-sectional image of the retina.After imaging, allow the mouse to recover.The OCT image analysis reveals the thickening of the ganglion cell complex layer, a hallmark of optic atrophy.

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Live Imaging & In Vivo Tracking

20 Views. Source: Jagodzinska, J., et. al.,  Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells In Vivo. J. Vis. Exp. (2017)   In this video, we demonstrate the use of spectral-domain optical coherence tomography (SD-OCT) to image retinal layers and assess structural changes in a genetically modified mouse model with optic neuropathy. 

Video: In Vivo Imaging of the Mouse Retina Using Optical Coherence Tomography - Concept

Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells In Vivo

Structural changes in the retina are common manifestations of ophthalmic diseases. Optical coherence tomography (OCT) enables their identification in vivo&#8212;rapidly, repetitively, and at a high resolution. This protocol describes OCT imaging in the mouse retina as a powerful tool to study optic neuropathies (OPN). The OCT system is an interferometry-based, non-invasive alternative to common post mortem histological assays. It provides a fast and accurate assessment of retinal thickness, allowing the possibility to track changes, such as retinal thinning or thickening. We present the imaging process and analysis with the example of the Opa1delTTAG mouse line. Three types of scans are proposed, with two quantification methods: standard and homemade calipers. The latter is best for use on the peripapillary retina during radial scans; being more precise, is preferable for analyzing thinner structures. All approaches described here are designed for retinal ganglion cells (RGC) but are easily adaptable to other cell populations. In conclusion, OCT is efficient in mouse model phenotyping and has the potential to be used for the reliable evaluation of therapeutic interventions.

Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells In Vivo

This manuscript describes a protocol for the in vivo imaging of the mouse retina with high-resolution spectral domain optical coherence tomography (SD-OCT). It focuses on retinal ganglion cells (RGC) in the peripapillary region, with several scanning and quantifying approaches described.

Structural changes in the retina are common manifestations of ophthalmic diseases. Optical coherence tomography (OCT) enables their identification in ...

JoVE Journal

Using Optical Coherence Tomography and Optokinetic Response As Structural and Functional Visual System Readouts in Mice and Rats

Optical coherence tomography (OCT) is a fast, non-invasive, interferometric technique allowing high-resolution retinal imaging. It is an ideal tool for the investigation of processes of neurodegeneration, neuroprotection and neuro-repair involving the visual system, as these often correlate well with retinal changes. As a functional readout, visually evoked compensatory eye and head movements are commonly used in experimental models involving the visual function. Combining both techniques allows a quantitative in vivo investigation of structure and function, which can be used to investigate the pathological conditions or to evaluate the potential of novel therapeutics. A great benefit of the presented techniques is the possibility to perform longitudinal analyses allowing the investigation of dynamic processes, reducing variability and cuts down the number of animals needed for the experiments. The protocol described aims to provide a manual for acquisition and analysis of high quality retinal scans of mice and rats using a low cost customized holder with an option to deliver inhalational anesthesia. Additionally, the proposed guide is intended as an instructional manual for researchers using optokinetic response (OKR) analysis in rodents, which can be adapted to their specific needs and interests.

A detailed protocol for the assessment of structural and visual readouts in rodents by optical coherence tomography and optokinetic response is presented. The results provide valuable insights for ophthalmologic as well as neurologic research.

Optical coherence tomography (OCT) is a fast, non-invasive, interferometric technique allowing high-resolution retinal imaging. It is an ideal tool for ...

Retinal Vascular Reactivity as Assessed by Optical Coherence Tomography Angiography

The vascular supply to the retina has been shown to dynamically adapt through vasoconstriction and vasodilation to accommodate the metabolic demands of the retina. This process, referred to as retinal vascular reactivity (RVR), is mediated by neurovascular coupling, which is impaired very early in retinal vascular diseases such as diabetic retinopathy. Therefore, a clinically feasible method of assessing vascular function may be of significant interest in both research and clinical settings. Recently, in vivo imaging of the retinal vasculature at the capillary level has been made possible by the FDA approval of optical coherence tomography angiography (OCTA), a noninvasive, minimal risk and dyeless angiography method with capillary level resolution. Concurrently, physiological and pathological changes in RVR have been shown by several investigators. The method shown in this manuscript is designed to investigate RVR using OCTA with no need for alterations to the clinical imaging procedures or device. It demonstrates real time imaging of the retina and retinal vasculature during exposure to hypercapnic or hyperoxic conditions. The exam is easily performed with two personnel in under 30 min with minimal subject discomfort or risk. This method is adaptable to other ophthalmic imaging devices and the applications may vary based on the composition of the gas mixture and patient population. A strength of this method is that it allows for an investigation of retinal vascular function at the capillary level in human subjects in vivo. Limitations of this method are largely those of OCTA and other retinal imaging methods including imaging artifacts and a restricted dynamic range. The results obtained from the method are OCT and OCTA images of the retina. These images are amenable to any analysis that is possible on commercially available OCT or OCTA devices. The general method, however, can be adapted to any form of ophthalmic imaging.

This article describes a method for measuring retinal vasculature reactivity in vivo with human subjects using a gas breathing provocation technique to deliver vasoactive stimuli while acquiring retinal images.

The vascular supply to the retina has been shown to dynamically adapt through vasoconstriction and vasodilation to accommodate the metabolic demands of ...

In Vivo Imaging of the Mouse Retina Using Optical Coherence Tomography

Transcript

In Vivo Imaging of the Mouse Retina Using Optical Coherence Tomography

Optical Coherence Tomography: Imaging Mouse Retinal Ganglion Cells In Vivo

Using Optical Coherence Tomography and Optokinetic Response As Structural and Functional Visual System Readouts in Mice and Rats

Retinal Vascular Reactivity as Assessed by Optical Coherence Tomography Angiography