New Model 60,000 or 80 000 A-scan/seconds
The new REVO model with 60,000 or 80 000 A-scan/sec scanning speed reduce scan time and brings benefits for both clinicians and patients by reducing errors often caused by involuntary eye movements. Higher sensitivity spectrometer allows to visualize finer details.
AI denoise
Improved tomogram quality powered by Artificial Intelligence. Advanced AI algorithms enhance the quality of a single tomogram to the level of an averaged tomogram obtained through multiple scanning.
RAW Tomogram |
AiDenoise Tomogram |
Full range
New Extended DepthTM Retina imaging, based on our Full Range technology, provides scans of increased depth for reliable and convenient observation of challenging cases. With scans presenting plenty of depth, this new imaging mode is perfect for diagnosing even highly myopic patients.
RETINA
Single 3D Retina examination is enough to perform both Retina and Glaucoma analysis based on retinal scans. Software automatically recognizes 8 retina layers allowing a moreprecise diagnosis and mapping of any changes in the patient’s retina condition.
Precise registration
The software can track 3D scans and register them to the OCT baseline exam by recognizing patterns in the shape of blood vessels. Active tracking and post-processing point-to-point registration allows the user to precisely see and track the changes in retina morphology in Comparison and Progression analysis.
COMPARISON
Comparison view allows in easy and convince way to review results from two visits. The view is available for most of the scan programs.
FOLLOW UP
High density of standard 3D scan allows the operator to precisely track the disease progression. The operator can analyze changes in morphology, quantified progression maps and evaluate the progression trends.
Progression Morphology | Progression Quantification |
GLAUCOMA
Comprehensive glaucoma analytical tools for quantification of the Nerve Fiber Layer, Ganglion layer and Optic Head with DDLS allow for the precise diagnosis and monitoring of glaucoma over time.
With the golden standard 14 optic nerve parameters and a new Rim to Disc and Rim Absence the description of ONH condition is quick and precise.
Advanced view which provides combined information from Retina and Disc scan to integrate details of the Ganglion cells, RNFL, ONH in a wide field perspective for comprehensive analysis.
Advance Retina & ONH |
ONH Single |
Asymmetry Analysis of Ganglion layers between hemi-spheres and between eyes allows easier identification and detection of glaucoma in early stages and in non-typical patients.
Ganglion Both |
Ganglion Progression |
Implemented the DDLS - Disc Damage Likelihood Scale which use 3 separate classification for small, average and large discs. It supports the practitioners in a quick and precise evaluation of the patient’s glaucomatous disc damages.
ONH Both |
ONH Progression |
COMPLET YOUR GLAUCOMA REPORT
To eliminate common problem with the understanding of the patient’s IOP pachymetry module provides IOP Correction value. With the implemented Adjusted IOP formula you can quickly and precisely understand the measured IOP value.
As the Pachymetry and Anterior Chamber Angle Verification require no additional attachments, the predefined Glaucoma protocol, which consists of Retina, Disc and Anterior scans, can be done automatically to reduce patient chair time.
Closing angle |
Anterior Radial Single View Cornea |
Full Range Anterior Chamber single view | |
* Images curtesy of Edward Wylęgała, MD, PhD |
Structure & Function |
Full Range Anterior Chamber | Full Range Anterior Chamber with Lens |
Full Range Lens | |
Cornea single |
Cornea both |
Cornea Comparison | Cornea Progression |
REVO 80 000 A-scan/seconds is available now with the Angiography module.
OCT ANGIOGRAPHY is optional software module to purchase
This module allows visualization of the retinal microvasculature. Angiography SOCT is a non-invasive, dye-free technique providing 3D image of retinal blood circulation.
Standard Single View | Detailed Single View |
Both View | |
Comparison View | Progression View |
ANGIO ANALYISIS METHODS
QUANTIFICATION
The quantification tool provides quantification of the vasculature in the whole analyzed area together with values in specific zones and sectors. Thanks to the heat map of the analyzed vasculature the evaluation of vascular structure conditions is much faster. The choice of the quantification method increases the sensitivity of analyses for specific deseases.
Available quantification methods:
Quantification is available for a specific layer in Angio OCT exam:
Skeleton Density Map | Vessel Density Map |
ANGIO-ANALYTICAL TOOLS
FAZ – Foveal Avascular Zone measurements enable the quantification and monitoring of changes in Superficial and Deep vascular layers. The FAZ tool is also available for narrow and wide scans.
FAZ Area [mm2] Perimeter [mm] Circularity |
VFA – Vascular Flow Area allows the user to examine the pathologically affected area and to precisely measure the area covered by vascularization.
The simple and easy area measurement can be performed on a predefined or user-selected vascular layer.
Area [mm2] Flow Area [mm2] |
NFA – Non Flow Area measurement tool makes it possible to quantify the Non Flow Area on the OCT Angio examination. It provides the sum of all marked areas.
Non Flow Area [mm2] |
ANGIO MOSAIC
The Angiography mosaic delivers high-detailed images over large field of the retina. Advanced tab provides: view of any vascular layers, enface view of vascular layers, depth coded and thickness map.
Mosaic modes: 10x6 mm
Manual (up to 12 images)
Result review |
Analysis window |
Normal | Astigmatysm | Keratoconus |
Single | Both |
Comparison | Progression |
Technology |
Spectral Domain OCT
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Scanning speed | 60000 or 80 000 measurements per second | |
Light Source |
SLED, Wavelength 850 nm
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Bandwidth |
50 nm half bandwidth
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Axial resolution |
2.6 μm digital, 5 μm in tissue
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Transverse Resolution |
12 μm, typical 18 μm
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Overall scan depth |
2.8 mm / ~6 mm in Full Range mode
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Scan range |
Posterior 5 mm to 15 mm, Angio 3 mm to 6 mm, Anterior 3 mm to 18 mm
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Scan program | 3D, Angio, Full Range Radial, Full Range B-scan, Radial, B-scan, Raster, Cross, TOPO, AL, ACD | |
Fundus image |
Live Fundus Reconstruction
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Alignment method |
Fully automatic, Automatic, Manual
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Retina analysis |
Retina thickness, Inner Retinal thickness, Outer Retinal thickness, RNFL+GCL+IPL thickness, GCL+IPL thickness, RNFL thickness, RPE deformation, MZ/EZ-RPE thickness
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Angiography OCT available only for SOCT Copernicus REVO with 80 000 and 60 000 measurements per second Angiography mosaic |
Vitreous, Retina, Choroid, Superficial Plexus, RPCP, Deep Plexus, Outer Retina, Choriocapilaries, Depth Coded, SVC, DVC, ICP, DCP, Custom, Enface, FAZ, VFA, NFA, Quantification: Vessel Area Density, Skeleton Area Density, Thickness map Acquistion method: Auto, Manual Mosaic modes: 10x6 mm, manual up to 12 images |
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Glaucoma analysis |
RNFL, ONH morphology, DDLS, OU and Hemisphere asymmetry, Ganglion analysis as RNFL+GCL+IP and GCL+IPL,
Structure + Functionvia connection with PTS software version 3.4 or higher |
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Anterior |
Pachymetry, Epithelium map, Stroma map, AIOP, Angle Assessment, AOD 500/750, TISA 500/750
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Anterior (no lens/adapter required) |
Anterior Chamber Radial, Anterior Chamber B-scan, Angle to Angle view
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Biometry OCT an optional software module to purchase |
AL, CCT, ACD, LT, P, WTW IOL Formulas: Hoffer Q, Holladay I, Haigis, Theoretical T, Regression II |
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Corneal Topography Map an optional software module to purchase for SOCT Copernicus REVO with 80 000 and 60 000 measurements per second |
Axial [Anterior, Posterior], Refractive Power [Kerato, Anterior, Posterior, Total], Net Map, Axial True Net, Equivalent Keratometer, Elevation [Anterior, Posterior], Height, KPI (Keratoconus Prediction Index) | |
Connectivity | DICOM Storage SCU, DICOM MWL SCU, CMDL, Networking | |
Minimum pupil size
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2.4 mm | |
Focus adjustment range |
-25 D to +25 D
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Dimensions (W×D×H)
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Weight |
29 kg
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Fixation target |
OLED display (The target shape and position can be changed),
External fixation arm |
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Power supply |
100–240 V, 60/50 Hz
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Power consumption |
90–110 VA
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