The Humphrey Field Analyzer is an automated perimeter intended to identify visua
The Humphrey Field Analyzer is an automated perimeter intended to identify visual field defects for the purposes of screening, monitoring and assisting in the diagnosis of ocular and neurological disorders including glaucoma.
The Humphrey Field Analyzer is an automated perimeter intended to identify visua
The Humphrey Field Analyzer is an automated perimeter intended to identify visual field defects for the purposes of screening, monitoring and assisting in the diagnosis of ocular and neurological disorders including glaucoma.
The Humphrey Field Analyzer is an automated perimeter intended to identify visua
The Humphrey Field Analyzer is an automated perimeter intended to identify visual field defects for the purposes of screening, monitoring and assisting in the diagnosis of ocular and neurological disorders including glaucoma.
The CIRRUS HD-OCT is a non-contact, high resolution tomographic and biomicroscop
The CIRRUS HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imagining device intended for in-vivo viewing, axial cross-sectional, and three-dimensional imagining of anterior and posterior ocular structures.
The Humphrey Field Analyzer is an automated perimeter intended to identify visua
The Humphrey Field Analyzer is an automated perimeter intended to identify visual field defects for the purposes of screening, monitoring and assisting in the diagnosis of ocular and neurological disorders including glaucoma.
The ZEISS ATLAS Corneal Topography System is intended to measure and analyze the
The ZEISS ATLAS Corneal Topography System is intended to measure and analyze thecorneal curvature of the eye.
The CLARUS is an active, non-contact, software controlled, high resolution imagi
The CLARUS is an active, non-contact, software controlled, high resolution imaging device for in-vivo imaging of the human eye. The CLARUS ophthalmic camera is indicated to capture, display, annotate and store images to aid in the diagnosis and monitoring of diseases and disorders occurring in the retina, ocular surface and visible adnexa. It provides true color and autofluorescence imaging modes for stereo, widefield, ultra-widefield, and montage fields of view. The CLARUS Review Software can be installed on a separate review station (PC or laptop) for data review and analysis.
The CLARUS 700 is an active, non-contact, software controlled, high resolution i
The CLARUS 700 is an active, non-contact, software controlled, high resolution imaging device for in-vivo imaging of the human eye.The CLARUS 700 ophthalmic camera is indicated to capture, display, annotate and store images to aid in the diagnosis and monitoring of diseases and disorders occurring in the retina, ocular surface and visible adnexa. It provides true color and autofluorescence imaging modes for stereo, widefield, ultra-widefield, and montage fields of view.The CLARUS 700 angiography is indicated as an aid in the visualization of vascular structures of the retina and the choroid.
The CLARUS 500 is an active, non-contact, software controlled, high resolution i
The CLARUS 500 is an active, non-contact, software controlled, high resolution imaging device for in-vivo imaging of the human eye. The CLARUS 500 ophthalmic camera is indicated to capture, display, annotate and store images to aid in the diagnosis and monitoring of diseases and disorders occurring in the retina, ocular surface and visible adnexa. It provides true color and autofluorescence imaging modes for stereo, widefield, ultra-widefield, and montage fields of view.
The CIRRUS™ HD-OCT is a non-contact, high resolution tomographic and biomicrosco
The CIRRUS™ HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imaging device intended for in-vivo viewing, axial cross-sectional, and three-dimensional imaging of anterior and posterior ocular structures. The device is indicated for visualizing and measuring anterior and posterior ocular structures, including cornea, retina, retinal nerve fiber layer, ganglion cell plus inner plexiform layer, macula, and optic nerve head. The CIRRUS normative databases are quantitative tools indicated for the comparison of retinal nerve fiber layer thickness, macular thickness, ganglion cell plus inner plexiformlayer thickness, and optic nerve head measurements to a database of normal subjects. The CIRRUS OCT Angiography is indicated as an aid in the visualization of vascular structures ofthe retina and choroid. The CIRRUS HD-OCT is indicated as a diagnostic device to aid in thedetection and management of ocular diseases including, but not limited to, macular holes,cystoid macular edema, diabetic retinopathy, age-related macular degeneration, and glaucoma.
The CIRRUS™ HD-OCT is a non-contact, high resolution tomographic and biomicrosco
The CIRRUS™ HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imaging device intended for in-vivo viewing, axial cross-sectional, and three-dimensional imaging of anterior and posterior ocular structures.
The CIRRUS HD-OCT is a non-contact, high resolution tomographic and biomicroscop
The CIRRUS HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imagining device intended for in-vivo viewing, axial cross-sectional, and three-dimensional imagining of anterior and posterior ocular structures.
The Humphrey Field Analyzer is an automated perimeter intended to identify visua
The Humphrey Field Analyzer is an automated perimeter intended to identify visual field defects for the purposes of screening, monitoring and assisting in the diagnosis of ocular and neurological disorders including glaucoma.
Humphrey Matrix is an AC-powered device intended to determine the extent of the
Humphrey Matrix is an AC-powered device intended to determine the extent of the peripheral visual field of a patient. The device is intended to determine the amount of visual field loss in a patient, which can then be used to diagnose/track the progression of glaucoma and other eye diseases.
Humphrey FDT is an AC-powered device intended to determine the extent of the per
Humphrey FDT is an AC-powered device intended to determine the extent of the peripheralvisual field of a patient. The device is intended to determine the amount of visual field lossin a patient, which can then be used to diagnose/track the progression of glaucoma andother eye diseases.
It is intended for use as a diagnostic device to aid in the check and management
It is intended for use as a diagnostic device to aid in the check and management of ocular diseases such as macular holes, cystoid macular edema, diabetic retinopathy, aged related macular degeneration, and so on
It is intended for use as a diagnostic device to aid in the check and management
It is intended for use as a diagnostic device to aid in the check and management of ocular diseases such as macular holes, cystoid macular edema, diabetic retinopathy, aged related macular degeneration, and so on
A desktop retinal imaging device that can perform ultra-widefield scanning laser
A desktop retinal imaging device that can perform ultra-widefield scanning laser ophthalmoscopy and targeted navigated optical coherence tomography.
The NAVIS-EX image filing software is software that acquires data from the follo
The NAVIS-EX image filing software is software that acquires data from the following NIDEK fundus photography devices and files it for easy transfer to external systems. NAVIS-EX is equipped with functions for image acquiring, image display, image drawing, image processing, image measurement, panorama image creation, stereo image observation, composite image creation, and Follow-Up. (According to the image, available functions are limited.) Image data can be transferred by network or e-mail. NAVIS-EX can construct a network among multiple terminals and refers to and edits data from the clientPC.
The NIDEK Optical Coherence Tomography RS-3000 Advance is an ophthalmic camera t
The NIDEK Optical Coherence Tomography RS-3000 Advance is an ophthalmic camera that allows non-invasive and non-contact observation of the shape of the fundus or retina. Fundus surface images (hereafter referred to as SLO image) are captured with the confocal laser scanning using a near-infrared light source with a wavelength of 785 nm. Cross-sectional images of the retina (hereafter referred to as OCT image) are captured with the optical interferometer using an infrared light source with a wavelength of 880 nm. With the images captured using the RS-3000 Advance, the shape and structure of the fundus or retina can be observed, and diseases can be observed. This system is comprised of the main body for capturing images, a computer (hereafter called PC) for storing and analyzing captured images, PC monitor, and an isolation transformer.In addition, the image filing software NAVIS-EX (hereafter referred to as NAVIS-EX) offers the following features:• Image analysis functions such as 3D/map color display or retinal thickness analysis• Networking for data review or analysis on PCs in separate locations