OCT employs low-coherence interferometry to create cross-sectional images that reveal sub-surface details of the tissues of interest. In the most common ophthalmic applications OCT systems use near-infrared light to generate high-resolution, volumetric images of tissue microstructures including the cornea, iris, crystalline lens, vitreous and retina.

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The SPECTRALIS HRA+OCT delivers the ultimate in retinal imaging providing physicians the power of Spectral-domain OCT with TruTrack™ active eye tracking, AutoRescan features, posterior pole asymmetry analysis combined with five different confocal scanning laser fundus imaging modes and Ultra-Wide Field imaging capability. Multi-modality imaging offers deep insights into structure, function and metabolic activity of the retina. The SPECTRALIS multi-function platform can greatly improve patient flow, and confocal scanning is more comfortable for patients than flash photography.

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The Department possesses both the Leica Bioptigen and Heidelberg Spectralis instruments to meet your imaging requirements.

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The Department possesses both the Leica Bioptigen and Heidelberg Spectralis instruments to meet your imaging requirements.

Optical Coherence Tomography (OCT) is a non-invasive, non-contact imaging modality used to visualize and monitor changes to the morphology of biological tissue.

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The SPECTRALIS HRA+OCT delivers the ultimate in retinal imaging providing physicians the power of Spectral-domain OCT with TruTrack™ active eye tracking, AutoRescan features, posterior pole asymmetry analysis combined with five different confocal scanning laser fundus imaging modes and Ultra-Wide Field imaging capability.  Multi-modality imaging offers deep insights into structure, function and metabolic activity of the retina.

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The Bioptigen Envisu R2210 system is a non-invasive technique that is used to detect and monitor morphological changes of the ocular tissue This OCT utilizes low-coherence interferometry to create cross-sectional images that reveal sub-surface detail of the tissues. The envisu provides high-resolution, high density, volumetric image capture in real-time of the ocular tissues.

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Optical Coherence Tomography (OCT) is a non-invasive, non-contact imaging modality used to visualize and monitor changes to the morphology of biological tissue. OCT employs low-coherence interferometry to create cross-sectional images that reveal sub-surface details of the tissues of interest. In the most common ophthalmic applications OCT systems use near-infrared light to generate high-resolution, volumetric images of tissue microstructures including the cornea, iris, crystalline lens, vitreous and retina.

Bioptigen’s Envisu(tm) R-class systems are ideally suited to non-invasive ophthalmic imaging of animals ranging from zebrafish to elephants. Using low-power, near-infrared light, Envisu generates real-time, high-resolution, volumetric images of ocular microstructures from the cornea to the retina