Optopol engineering team, designers of the first commercially available Spectral Domain OCT in the World, is proud to present the World’s fastest OCT.
Optopol engineering team, the designers of the firstcommercially available Spectral Domain OCT in the world, are proud to present the latest innovation, the world`s first B-OCT and T-OCT for standard
posterior OCT. Our supreme experience in Spectral Domain OCT allows us to provide the market with a state of the art instrument which comes with new advanced technologies and remarkable simplicity of operation.


New OCT standard – All functionality In One device.

Once again Revo NX goes beyond the limits of standard OCT. With its new scanning speed, our Revo NX 130 enables a full functionality scanning from the retina to the cornea. It brings benefits by combining the potential of several devices. With REVO you can measure, quantify, calculate and track changes from the cornea to the retina over time with just one OCT device.

i Tracking™

iTracking™ technology compensates involuntary eye movements and blinks. When OCT scan is used each anatomical region is acquired twice automatically. The system immediately creates an artifactfree MC examination using the Motion Correction TechnologyTM. The elimination of eye movement and blinking artifacts ensures the highest resolution of Angio OCT images without patient inconvenience. Clear OCTA data set allows easier interpret retina vasculature condition.


Single 3D Retina examination is enough to perform both Retina and Glaucoma analysis based on retinal scans. Software automatically recognize 8  retina layers. Thus allowing a more precise diagnosis and mapping any changes in the patient’s retina condition.

Single                                                                                   Both


Comparison                                                                Progression

OCT Angiography

This optional software module allows visualization of the retinal microvasculature. Angiography SOCT is a non-invasive, dye-free technique providing 3D image of retinal blood circulation.
Software allows to observe, track and compare changes in the microvasculature of the retina in both eyes.

Standard Single View                                                             Detailed Single View

OCT Angiography Standard Single View     OCT Angiography Detailed Single View

Both View
OCT Angiography Both View

Comparison View                                                                Progression View
OCT Angiography Comparison View  OCT Angiography Progression View


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:

  • Vessel Area Density – it is defined as the total area of perfused vasculature per unit area in a region of measurement.
  • Skeleton Area Density – it is defined as the total area of skeletonized vasculature per unit area in a region of measurement.

Quantification is available for a specific layer in Angio OCT exam:

  • Retina: Superficial Plexus and Deep Plexus
  • Disc: RPC – Radial Peripapillary Capillary

Quantification Skeleton Density Map    Quantification Vessel Density Map

Skeleton Density Map              Vessel Density Map


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.

OCT Angiography FAZ – Foveal Avascular Zone     OCT Angiography FAZ – Foveal Avascular Zone

FAZ Area [mm2]
Perimeter [mm]

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.

OCT Angiography VFA – Vascular Flow Area  OCT Angiography VFA – Vascular Flow Area

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.

OCT Angiography NFA  OCT Angiography NFA

Non Flow Area [mm2]


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: 10×6 mm, 12×5 mm, 7×7 mm, 10×10 mm and Manual (up to 12 images).

Mosaic modes: 10×10 mm

 Mosaic modes: 7×7 mm

Mosaic modes: 10×6 mm

 Manual (up to 12 images)

Mosaic modes: 12×5 mm

 Mosaic modes: 12×5 mm – RPC Enface view

Mosaic modes: 12×5 mm –
NFL Thickness map
Mosaic modes: 12×5 mm –
Retina Thickness map

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

GLAUCOMA Advance Retina & ONH  GLAUCOMA 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

GLAUCOMA Ganglion Both    GLAUCOMA 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



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 single view

Closing angle  Anterior single view

* Images courtesy of Prof. Edward Wylęgała MD, PhD

STRUCTURE & FUNCTION – Combined OCT and VF results analysis

Invaluable combination of information about the functional quality of vision with comprehensive data on retinal Ganglion Cells, RNFL and Optic Nerve Head for both eyes on a single report page. The S&F report contains the following:

  • VF sensitivity results (24-2/30-2 or 10-2)
  • Total and Pattern Deviation probability graphs for VF results
  • Reliability and Global indices for VF results
  • Combined map of Structure & Function
  • Ganglion cell analysis (GCL+IPL or NFL+GCL+IPL)
  • ONH and NFL analysis including charts and comparison tables
  • NFL Asymmetry Plot

The S&F report compares in a natural way the anatomical relationship between VF and RNFL/Ganglion maps.
Structure & Function

STRUCTURE & FUNCTION - Combined OCT and VF results analysis


S+F provides a quick and comprehensive single page report for glaucoma management.


For standard examinations no additional lens is required.  Additional adapter provided with the device allows to make wide scans of anterior segment.

Cornea single                                                               Cornea both

ANTERIOR Cornea single     ANTERIOR Cornea both

Cornea Comparison                                                   Cornea Progression

Anterior Cornea Comparison    Anterior Cornea Progression


BIOMETRY OCT is optional software module to purchase

B-OCT™ innovative method of using the  posterior OCT device to measure ocular structure along eye axis .
OCT Biometry provides complete set of Biometry parameters: Axial Length AL, Central Cornea Thickness CCT, Anterior Chamber Depth ACD, Lens Thickness LT.

Result review                                                                    Analysis window


Visually verify your measurement
All measurement calipers are shown on the all boundaries OCT image provided by REVO. Now, you can visually verify and correct what structure of the eye has been measured.

TOPOGRAPHY OCT is optional software module to purchase

T-OCT™ is a pioneering way to provide detailed corneal Curvature maps by using posterior dedicated OCT. Ante-rior, Posterior  surface and Corneal Thickness allow to provide the  True Net Curvature information. With Net power, the precise understading of the patient’s corneal condition comes easily and is free of errors associated with modelling of posterior surface of the cornea.  SOCT T-OCT module provides Axial maps, Tangential maps, Total Power map, Height maps, Epithelium and Corneal thickness maps.
Corneal topography module clearly shows the changes in the cornea on the difference map view. Customize your
Topography module provides:

  • Full featured Corneal mapping of Anterior, Posterior and Real
  • Precise Astigmatism Display Option (SimK: Anterior, Posterior, Real,  Meridian and Emi-Meridian ø 3, 5, 7 mm zones

Easly detect and classified keratoconus with Keratoconus classifier. Classification based on KPI, SAI, DSI, OSI and CSI. In the early stages of kera-toconus the results can be complemented by Epithelium and Pachymatery maps.

Normal Astigmatysm Keratoconus



Comprehensive software features  a range of selectable views: Single, Both. See details on standard Singe view and easly see corneal asymmetry on the Both view.
The follow-up feature in to the T-OCT™ module, allows fully compare the changes in the corneal topography over time for:

  • LASIK undergone patients
  • Keratoconus patients
  • The contact lens wearers

Single                                                                Both


Comparisonc                                              Progression



High density of standard 3D scan allows to precisely track the disease progress. Operator can analyze changes is morphology,  quantified progression maps or evaluate the progression trends.
Progression Morphology                                      Progression Quantification

FOLLOW UP Progression Morphology   FOLLOW UP Progression Quantification


Comparison view allows in easy and convince way to review results from two visits. The view is available for most of the scan programs.


A proficient networking solution increases productivity and an enhanced patient experience. It allows you to view and manipulate multiple examinations from review stations in your practice. Effortlessly helping to facilitate patient education by allowing you to interactively show examination results to patients. Every practice will have differing requirements which we can provide by tailoring a bespoke service. There is no additional charge for the server module.


Store, exchange, and transmit results through DICOM gateway to the hospital network.



ENHANCE TOMOGRAMS – 2 µm Ultra High (Digital) Resolution






Wide cornea scan, Descemet’s membrane detachment (DMD) and iridocorneal adhesions

Wide cornea scan, Descemet’s membrane detachment (DMD) and iridocorneal adhesions
* Images courtesy of Prof. Edward Wylęgała MD, PhD


Anterior scan, Cornea Guttata with corneal scaring
Anterior scan, Cornea Guttata with corneal scaring




PDR,  Angio Mosaic mode: 10×10 mm
PDR, Angio Mosaic mode 10x10 mm
*Images courtesy of Bartosz L. Sikorski MD, PhD


Angle to Angle scan, narrow angles
Angle to Angle scan, narrow angles
*Image courtesy of Bartosz L. Sikorski MD, PhD


Technical Specification

Technology Spectral Domain OCT
Scanning speed 130 000 A-scan/sec
Light Source SLED, Wavelength 830nm
Bandwidth 50 nm half bandwidth
Axial resolution ~2,6 μm digital, 5 μm in tissue
Transverse Resolution 12 μm, typical 18 μm
Overall scan depth 2.4 mm
Scan range Posterior 5 mm to 12 mm, Angio 3 mm to 9 mm, Anterior 3 mm to 16 mm
Scan types 3D, Angio, Radial (HD), B-scan (HD), Raster (HD), Cross (HD), TOPO, AL, ACD
Fundus image Live Fundus Reconstruction
Alignment method Fully automatic, Automatic, Manual
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
Angiography OCT
an optional software module to purchase                                                                                                                                                                                  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: 7×7 mm, 10×6 mm, 10×10 mm, 12×5 mm, manual up to 12 images

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
Anterior Pachymetry, Epithelium map, Stroma map, AIOP, Angle Assessment, AOD 500/750, TISA 500/750
Biometry OCT
an optional software module to purchase
Corneal Topography Map
an optional software module to purchase
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
Anterior Wide Scan Angle to Angle view (Adapter required), Wide Cornea
Min.  pupil size 3 mm
Focus adjustment range -25D to +25D
Dimensions (WxDxH) 382 x 556 × 469 mm
Weight 23 kg
Fixation target OLED display (The target shape and position can be changed),
External fixation arm
Power supply 110-230 V,  60/50 Hz
Power consumption 115 – 140 VA


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