REVO FC
Spectral-Domain OCT | Color Fundus Camera
OCT made simple.
Take your OCT to the next level
REVO FC
Auto Functions
AccuTrack™
Glaucoma Tool Kit
Comprehensive glaucoma analytical tools for quantification of the Nerve Fiber Layer and Ganglion Cell Layer. The Disc Damage Likelihood Scale enables clinicians to precisely diagnose and monitor glaucoma for Optic Nerve Head analysis.
Full range
Connectivity
Structure&Function (S+F)
Progression Analysis
Custom Scan Protocols
Save time and never miss a scan. Combine any scan type into a pre-set group. Choose a group of scans and set the order, the REVO will do the rest.
Create your dream all-in-one OCT
Full Auto SD-OCT
Color Fundus Camera
OCT-A Angiography*
This non-invasive dye free technique enables the visualization of the microvasculature of the retina.
T-OCT™ Topography*
Detect corneal abnormalities with this pioneering way to capture detailed corneal curvature maps.
B-OCT® Biometry*
Perform automated measurements of the entire ocular structure and combine a biometer into your OCT.
IOL Calculation**
Keep your library up to date by calculating IOL implant parameters using the latest IOL database standard IOLCon.org.
* Available as an optional software module add-on function
** Requires B-OCT® Biometry module
Spectral-Domain OCT
Shaping the Future of OCT.
Since introducing the first Spectral Domain OCT technology in 2005, OPTOPOL has been driving innovation in eye imaging. With years of experience behind us, we’re dedicated to delivering outstanding results for both patients and eye care professionals. Enjoy the perfect balance of ultra-high-quality scans and an intuitive, easy-to-use interface.
- Posterior & Anterior Scans – comprehensive imaging capabilities in one device
- Combine one-touch exams with preset scan combinations for streamlined workflows.
- Progression analysis available for detailed analysis over time.
Add-On Software Modules – boost the efficiency and versatility of your OCT system.
Non-Myd Color Fundus Camera
Integrated fundus and anterior imaging within a single OCT workflow
The REVO FC OCT series integrates a high-resolution 12.3 MP non-mydriatic fundus camera, enabling the capture of true-color retinal images with a 45° field of view (67.5° internal angle), delivering excellent detail and consistency. Fully automated operation — including auto-alignment, auto-focus, auto-flash, and auto-capture — ensures fast and user-independent image acquisition, even with pupil sizes as small as 3.3 mm.
The system also supports anterior segment photography, allowing documentation of corneal and anterior eye structures within the same workflow.
Maximum Intesity Projection
The MIP algorithm
Choose better visualization of angio data for analysis with the Maximum Intensity Projection (MIP) feature. This tool is useful for visualizing OCT-A data as it enables easier identification and tracking of high-intensity structures such as blood vessels.
NEW
NEW
AI Segmentation
AI Retina
This new layer segmentation for the posterior segment is based on artificial intelligence, resulting in more accurate recognition of retinal layer boundaries. The AI system has a direct impact on the accuracy of the clinical assessment and the assessment of the status of areas of pathology in the retina
Cornea and Epithelium
Presentation of the results for both eyes allows quick and precise evaluation of the condition of the patient’s anterior segment. Epithelium and Pachymetry maps are included in the standard package.
NEW
NEW
Widefield Analysis
A single Widefield 3D examination is now sufficient for the rapid assessment of both the retina and the optic nerve head, reducing examination time and eliminating the need for multiple separate scans.
Visualize and assess the thickness of the retina, ganglion cell layer, nerve fiber layer, and optic nerve head in a comprehensive data report when performing widefield mapping up to 15 × 15 mm.
The widefield report presents horizontal and vertical tomograms and includes optic disc topography, supporting efficient evaluation and follow-up of glaucoma patients.
NEW
NEW
Cataract mode
The cataract mode in the REVO series opens up new possibilities for patients with challening cases.
This featureprovides visualisation of structures hidden beneath opaque layers, making it ideal for diagnosing eye conditions thatwere previously difficult or impossible to study in patients with cataract, corneal oedemas or very dense floaters.The cataract mode allows the scanning speed and sensitivity of the OCT to be modified for better visualisation ofpatients with opaque media.
Optional Software Modules
OCT Angiography
This non-invasive dye free technique enables the visualization of the microvasculature of the retina.
OCT Angiography provides an alternative to the traditional fluorescein method. Although OCT-A will not completely replace FA imaging, it is a quick and non-invasive tool. The software allows clinicians to observe, track, and compare changes in the microvasculature of the retina in both eyes.
NEW
NEW
Ultra-Widefield Module
UWF module, available as an optional adapter, provides a new wide perspective of imaging up to approximately 105° with a single scan.
It allows imaging of the macular area along with the far periphery, supporting detection of early-stage pathologies in the posterior segment of the eye.
The module enables 3D imaging for comprehensive analysis, averaging in enhancement mode, and OCT Angiography, allowing visualization of perfusion changes in the peripheral retina.
With the UWF feature in Extended Depth™ software, assessment of high myopia patients becomes more effective when combined with Full Range scanning technology.
For patients with fixation difficulties, the UWF module also provides a Radial scan option, reducing acquisition time and facilitating reliable signal capture.
OCT Biometry
B-OCT® is an excellent tool for any clinician who manages myopia control or performs cataract surgery. Biometry OCT provides a complete set of ocular parameters: Axial Length, Central Cornea Thickness, Anterior Chamber Depth, Lens Thickness, Pupil size, and White to White.
High Myopia
The Myopia Forecast module opens progression of the ocular structure parameters according to trends over population mode. Usage reference based on research from multiple universities along with environmental factors allow the monitoring of changes from childhood to adolescence.
The REVO offers an exclusive selection of reference data based on different studies over different time frames and demographics. Reference data can be selected from the NICER San Diez or Tideman studies.
IOL Calculator
IOL formulas allow the user to calculate IOL implant parameters. Our systems now support the latest IOL data base standard IOLCon.org so that you can always keep your library up-to-date.
IOL Formulas*:
- Hoffer® Q,
- Holladay I,
- Haigis,
- Theoretical T,
- Regression II.
OCT Topography
OCT Topography provides detailed corneal mapping based on high-resolution OCT data, enabling precise evaluation of corneal thickness distribution and structural profile.
The updated Topography algorithm (T2) enhances corneal surface reconstruction through improved modeling, increasing resistance to noise and improving the reliability of computed parameters. A higher number of B-scans supports more accurate data acquisition and analysis.
T-OCT™ is excellent when paired with the B-OCT® module for IOL surgery.
Comprehensive Scan Programs
All essential OCT scan programs included in the standard system configuration.
Retina
- 3D
- Radial (HD)
- Raster (HD)
- Retina Cross Scan
- B-scan (HD)
Disc
- 3D
- Radial (HD)
- B-scan (HD)
Wide Field
- 3D
- Raster (HD)
- Full Range B-scan
Anterior
- 3D
- Radial (HD)
- Raster (HD)
- Anterior Cross Scan
- Anterior Line Scan
- Anterior Chamber Full
- Full Range Radial
- Anterior Chamber Full
- Full Range B-scan
Technical Specifications
| FUNDUS CAMERA | |
| Type | Non-mydriatic fundus camera |
| Photography type | Color |
| Angle of view | 45° ± 5% |
| Min. pupil size for fundus | 3.3 mm |
| Camera | 12.3 Megapixel |
| Photography | Fundus (Retina, Central, Disc, Manual fixation), Anterior |
| Flash adjustment, Gain, Exposure | Auto, Manual |
| Intensity levels | High, Normal, Low |
| OPTICAL COHERENCE TOMOGRAPHY | |
| Technology | Spectral Domain OCT |
| Light source | SLED Wavelength 850 nm |
| Bandwidth | 50 nm half bandwidth |
| Scanning speed | 80 000 A-scans per second |
| Axial resolution | 2.8 μm digital, 5 μm in tissue |
| Transverse resolution | 12 μm, typical 18 μm |
| Overall scan depth | 2.8 mm / ~6 mm in Full Range mode |
| Min. pupil size for OCT | 1.7 mm |
| Focus adjustment range | -25 D to +25 D |
| Scan range | Posterior 5–15 mm, Angio 3–9 mm, Anterior 3–18 mm |
| Scan types | 3D, Angio², Full Range Radial, Full Range B-scan, Radial (HD), B-scan (HD), Raster (HD), Raster 21 (HD), Cross (HD), TOPO², Biometry AL² |
| Fundus alignment | IR, pSLO (Live Fundus Reconstruction) |
| Alignment method | Fully automatic, Automatic, Manual |
| Fundus tracking | Real-time active, iTracking |
| Retina analysis | Retina thickness, Inner/Outer Retinal thickness, RNFL+GCL+IPL thickness, GCL+IPL thickness, RNFL thickness, RPE deformation, MZ/EZ-RPE thickness |
| Angiography OCT² | Vitreous, Retina, Choroid, Superficial Plexus, RPCP, Deep Plexus, Outer Retina, Choriocapillaries, Depth Coded, SVC, DVC, ICP, DCP, Custom, Enface, FAZ, VFA, NFA, Quantification: Vessel Area Density, Skeleton Area Density, Thickness map |
| Glaucoma analysis | RNFL, ONH morphology, DDLS, OU/Hemisphere asymmetry, Ganglion analysis (RNFL+GCL+IPL, GCL+IPL), Structure + Function¹ |
| Angiography mosaic | Acquisition method: Auto, Manual Mosaic modes: 10 mm x 6 mm, Manual up to 12 images |
| Biometry OCT² | AL, CCT, ACD, LT, P, WTW |
| IOL Calculator³ | Hoffer Q, Holladay I, Haigis, Theoretical T, Regression II |
| Corneal Topography Map¹,² | Axial [Anterior, Posterior], Refractive Power [Kerato, Anterior, Posterior, Total], Net Map, Axial True Net, Equivalent Keratometer, Elevation [Anterior, Posterior], Height, KPI (Keratoconus Prediction Index) |
| Anterior (no lens/adapter required) | Anterior Chamber Radial, Anterior Chamber B-scan, Pachymetry, Epithelium map, Stroma map, Angle Assessment, AIOP, AOD 500/750, TISA 500/750, Angle to Angle view |
| Connectivity | DICOM Storage SCU, DICOM MWL SCU, CMDL, Networking |
| Fixation target | OLED display (adjustable shape and position), External fixation arm |
| Dimensions (L×W×H) / Weight | 479 × 367 × 493 mm / 30 kg |
| Power supply / Consumption | 100–240 V, 50/60 Hz / 90–110 VA |
| UWF LENS ⁴ | |
| Scan angle | ~105° ⁵ |
| Working distance | 15 mm |
| Scan types | 3D, Radial, Line, Angio¹, Full Range Radial, Full Range Line |
| Fundus tracking | iTracking |
| Overall scan depth | 2.6 mm / 5.4 mm in Full Range mode |
| ¹ Via connection with PTS software version 3.4 or higher ² An optional software module ³ The Biometry module and a separate license for the IOL Calculator are required ⁴ Ultra-Wide Field imaging is available with the optional UWF lens ⁵ Measured from the center of the eye | |
