| Description | The image can then be displayed on a monitor, helping you to educate your patients The HRK can provide peripheral keratometry measurement data which is very useful when fitting contact lenses. The eye can be displayed in full colour mode on a tilting touch screen which enables you to see the patient’s contact lens fitting status, previously only possible using a slit lamp. As the HRK has the world’s first contact lens fitting function in an auto keratometer, you can now see the flourescein liquid with blue illumination along with automatic calculation and recommendation for contact lens fitting. | The Cirrus HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imaging device. It is indicated for in-vivo viewing, axial cross-sectional, and three-dimensional imaging and measurement of 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 for the comparison of retinal nerve fiber layer thickness, macular thickness, ganglion cell plus inner plexiform layer thickness, and optic nerve head measurements to a database of normal subjects. The Cirrus HD-OCT is intended for use as a diagnostic device to aid in the detection and management of ocular diseases including, but not limited to, macular holes, cystoid macular edema, diabetic retinopathy, age-related macular degeneration, and glaucoma. | Experience 6 analyses in 1 device: refraction, keratometry, topography, tonometry, pachymetry and dry eye analysis. | The Nidek RS-330 OCT is a combination of a High-Definition OCT and fundus camera. Optional delivery with FAF (Auto-fluorescence function) | The Auto “Refkeratometer” RC-800 is the latest in economical, user-friendly, highly accurate auto “refkeratometry”. The RC-800 provides simple, easy measurement by the operator at an economical cost, without compromising accuracy or reliability. | CIRRUS HD-OCT 5000 is configured with the highest resolution visualization capabilities and sophisticated clinical applications such as Advanced RPE analysis to track retinal pigment epithelial integrity and Ganglion Cell Analysis to assess glaucomatous loss in the macula that may not be evident in the peripapillary region. The new FastTrac retinal tracking reduces eye motion artifacts without sacrificing patient throughput with a proprietary scan acquisition strategy, high speed 20 Hz LSO camera, and single-pass alignment scanning. This feature enables the highest resolution B-Scans to be captured in identical locations from visit to visit providing precise assessment of change in targeted pathologies. |
| Content | Huvitz HRK-8000A Auto Refractor KeratometerHuvitz Auto Ref – Keratometer HRK-8000A- Touch and tilting 7″ LCD Screen that allows for free and smooth tilting for viewing at any angle.
- Optimized Optical System
- Micro Lens Array
- Aberration Measurement which also can be displayed in a graphical Zernike Refraction Map
- PSF & Image Simulation
- Colour View Mode
- Peripheral Keratometry Measurement
- Ultra High Precision KER Data
- Contact Lens Fitting Assistance Guide
- Contact Lens Prescription Guide
- Auto Tracking
- Animated Guide
- Faster Measurement Speed
- Quiet and speedy auto cutting printer
- More data on aberration measurement
With its extreme precision and accuracy, the HRK8000A uses the most advanced wavefront technology to measure the light reflected from the retina and helps you to diagnose any refractive error. With a micro lens array developed by Huvitz, the HRK creates a number of focal points, the pattern of which can give a valuable insight into the patients ocular system. The HRK not only displays the conventional data such as spherical, cylinder and axis, the high order aberration data is displayed in a graphical Zernike refractive map, giving you a deeper understanding of your patient’s eyes.Optimized Optical System Huvitz HRK-8000A Auto Refractor Keratometer
A wavefront is a physical representation of the optical quality of a light beam. Using various methods, aberrometers map how light rays travel through the eye. The HR-8000A is engineered according to the Hartmann-Shack wavefront measurement technique, which is widely preferred for its speed and repeatability.Touch & Tilting Color Display Screen
A bright, high contrast 7″ VGA color TFT LCD screen provides high resolution video images. A smooth, free tilting function also offers you a comfortable and clear view at any angle.The image can then be displayed on a monitor, helping you to educate your patients The HRK can provide peripheral keratometry measurement data which is very useful when fitting contact lenses. The eye can be displayed in full colour mode on a tilting touch screen which enables you to see the patient’s contact lens fitting status, previously only possible using a slit lamp. As the HRK has the world’s first contact lens fitting function in an auto keratometer, you can now see the flourescein liquid with blue illumination along with automatic calculation and recommendation for contact lens fitting. | Zeiss Cirrus HD-OCT 4000 OCT Spectral Domain OCT HD
Accessories- The ZEISS Certified Factory Direct Cirrus 4000 HD-OCT also includes the full Accessory Kit
- External Fixation Light
- Test Eye
- Mini Keyboard
- Optical Mouse
- Dust Cover
- Metric 5A/250v Fuse
- 14 Ft. CAT 5e Network Cable
- USB Cable
- IEC 320 to NEMA 12 inch Power Cable
- IEC 320 39in. Power Cable
- Install Disc including Roxio Basic
- Symbol Sheet
- OCT Primer Guide
- Quick Start Guide
HD-OCT Imaging- Methodology: Spectral Domain OCT
- Optical Source: superluminescent diode (SLD), 840 nm
- Optical Power: < 725 μW at the cornea
- Scan Speed: 27,000 A-scans per second
- A-Scan depth: 2.0 mm (in tissue), 1024 points
- Axial resolution: 5 μm (in tissue)
- Transverse resolution: 15 μm (in tissue)
Fundus Imaging- Methodology: Line scanning ophthalmoscope
- Live Fundus Image: During alignment and during OCT scan
- Optical Source: Superluminescent diode (SLD), 750 nm
- Optical Power: < 1.5 mW at the cornea
- Field of View: 36 degrees W x 30 degrees H
- Frame rate: >20 Hz
- Transverse resolution: 25 μm (in tissue)
Iris Imaging- Methodology: CCD Camera
- Resolution: 1280 x 1024
- Live iris image: During alignment
Electrical, Physical and Environmental- Weight: 38kg (83 lbs)
- Dimensions: 65L x 44W x 53H (cm)
- Fixation: Internal, external
- Internal fixation focus adjustment: -20D to +20D (diopters)
- Input devices: Keyboard, mouse
- Electrical rating (115V) Single Phase, 100/120V~ systems:50-60Hz, 5A
- Fuse rating (115V) T 5A 250V
- Electrical rating (230V) Single Phase, 220/240V~ systems:50-60 Hz, 2.5A
- Fuse rating (230V) Fuse rating: T 5A 250V
- Convenience Receptacle output ratings 115V~, 0.5 A Max, 50-60 Hz
- Temperature (transport and storage) -40º to +70º C
- Relative humidity (transport and storage) 10% to 100%, including condensation
- Atmospheric pressure (transport and storage): 500 hPa to 1060 hPa
- Temperature (operation) +10º to +35º C
- Relative humidity (operation) 30% to 75%, excluding condensation
- Atmospheric Pressure (operation) 700 hPa to 1060 hPa
Computer Zeiss Cirrus HD-OCT 4000 OCT Spectral Domain OCT HD- • High performance multi-core processor
- • Internal storage: > 80,000 scans
- • CD-RW, DVD-ROM drive
- • Integrated 15″ color flat panel display.
The Cirrus HD-OCT is a non-contact, high resolution tomographic and biomicroscopic imaging device. It is indicated for in-vivo viewing, axial cross-sectional, and three-dimensional imaging and measurement of 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 for the comparison of retinal nerve fiber layer thickness, macular thickness, ganglion cell plus inner plexiform layer thickness, and optic nerve head measurements to a database of normal subjects. The Cirrus HD-OCT is intended for use as a diagnostic device to aid in the detection and management of ocular diseases including, but not limited to, macular holes, cystoid macular edema, diabetic retinopathy, age-related macular degeneration, and glaucoma. | Rodenstock Alino Multifunction Refractometer
Tune-up your businessExperience 6 analyses in 1 device: Rodenstock Alino Multifunction Refractometer
Are you ready for something that is all-in-one, timesaving, space-saving and suits your business perfectly?Have a look at how powerful ALINO can be.6 in 1 solution01 RefractionHaving a good starting value for subjective refraction is essential. The QUICK REF MODE supports this even for uncooperative patients.02 KeratometryKAI (Kerato-asymmetry index) & KRI (Kerato-regularity index) give the first hint of possible irregularities on the cornea. This supports evaluation of the best vision correction or best-fitting contact lens.03 TonometryThe very gentle air puff created by a new generation of air-flow technology means that patients more readily accept the need for regular check-ups of the IOP measurement.04 PachymetryCorrecting the IOP by measuring the central corneal thickness is essential in interpreting the intraocular pressure.05 TopographyVarious topographic maps support you in carrying out vision screenings, contact lens fittings and in patient education.06 Dry EyeObserve the customers’ eye health and evaluate the long-term tolerability of contact lenses.Take advantage of the combination of tests:Additional servicesTonometry + PachymetryContact lens fitting andtolerance controlKeratometry + Topography + Dry EyeEye healthcareTopography + Tonometry + Pachymetry + Dry EyeSpecifications Rodenstock Alino Multifunction Refractometer
REFRACTIVE POWER MEASUREMENTSpherical refractive power (S) -30.00 D to + 25.00 D (at VD = 12.0 mm)Cylindrical power (C) 0.00 D to ± 12.50 D (at VD = 12.0 mm)Astigmatic axis (A) 0° to 180°KERATOMETRY MEASUREMENTCorneal curvature radius 5.00 mm to 13.00 mmCorneal astigmatic axis 0° to 180°INTRAOCULAR PRESSURE MEASUREMENTMeasurement range 1 mmHg to 60 mmHG (1 hPa to 80 hPa)PACHYMETRY MEASUREMENTMeasurement range 300 μm to 800 μmTOPOGRAPHY MEASUREMENTCorneal curvature radius 5.50 mm to 10.00 mmCorneal astigmatic axis 0° to 180°AUXILIARY FUNCTIONInterpupillary distance Measurement range: 20 mm to 85 mmCorneal diameter and pupil diameter Measurement range: 1.00 mm to 14.00 mmDry eye observation Blinking Analysis, Tear Meniscus height, Hyperemia, Meibomian glandsDATA MANAGEMENTInternal Database Integrated SD CardPrinter Integrated thermal printerData Output Type 3x USB 2.0, 1x LAN, 1x SD Card-slot, 1x WLANExport Format CSV, XML, JPG, PDFDIMENSIONS & ELECTRIC REQUIREMENTSDimensions WDH 312 × 491 × 450 mmWeight Approx. 23 kgVoltage 100 VAC to 240 VACFrequency 50/60 HzPower consumption 110 VA | Nidek RS-330 Retina Scan Duo 2 with FAFThe Retina Scan Duo 2 is a combined OCT and fundus camera system that incorporates new features enhancing screening and clinical efficiency in addition to user-friendly features that were incorporated from the previous model. FEATURES : Nidek RS-330 Retina Scan Duo 2 with FAF- Fundus image acquisition with macula and disc capture in one image on OCT
- Combined diagnosis of macular and disc pathologies
- Wide area scan (12 x 9 mm)
Wide area normative database (macula: 9 x 9 mm, disc: 6 x 6 mm): A 12 x 9 mm wide area image can be acquired. The retina map captures both the macula and disc in a single shot. The normative database provides a wide area color-coded map comparing the patient’s macular thickness to a population of normal eyes.
- Denoising technique with deep learning: A new image enhancement technique using deep learning automatically displays a denoised image once B-scan acquisition is complete. With deep learning of a large data set of images averaged from 120 images, this denoising technique provides high definition images comparable to a multiple-image-averaging technique. The denoising function generates high definition images from a single frame while decreasing image acquisition time and increasing patient comfort.
- Quick acquisition of high definition B-scan images from a single-frame image
- Fundus autofluorescence (FAF): The FAF function is an advanced screening feature that allows non-invasive evaluation of the RPE without contrast dye.
*Available for the FAF model
Nidek RS-330 Retina Scan Duo 2– Easy operation with 3-D auto tracking, auto shot, and user friendly interface
– High definition images
– Wide area scan (12 x 9 mm) / Wide area normative database (9 x 9 mm)
– Multiple OCT scan patterns
– Value added features
– Various reports
OCT images are captured at scan speeds of 70,000
A-scans/s which is 32% faster than acquisition with the
Retina Scan Duo™ using Regular OCT sensitivity* Wide area scan (12 x 9 mm)
Wide area normative database (macula: 9 x 9 mm, disc: 6 x 6 mm)
A 12 x 9 mm wide area image can be acquired. The retina
map captures both the macula and disc in a single shot.
The normative database provides a wide area color-coded
map comparing the patient’s macular thickness to a
population of normal eyes. Denoising using deep learning
A new image enhancement technique using deep learning automatically displays a denoised image once
B-scan acquisition is complete. With deep learning of a large data set of images averaged from 120 images,
this denoising technique provides high definition images comparable to a multiple-image-averaging
technique. The denoising function generates high definition images from a single frame while decreasing
image acquisition time and increasing patient comfort | Tomey RC-800 Auto Refractor Keratometer
Refractometry: Simple handling of the fine adjustment and measurement by yourself. Fogging is applied automatically for each measurement for more accurate results.Keratometry: Short consecutive measurements and time provide reliable data. Measurements at φ3.0mm (R = 8.0mm) give you enough information for contact lens fitting.Diameter Measurement of Cornea and Pupil: Easy measurement by moving the two cursors on the display to the boundaries of Cornea or Pupil.Language Selection: RC-800 has a Multi-language function. You can select your required language from “English”, “Japanese”, “German”, “Chinese”, “Spanish”, “Spanish Latin America”, “Italian”, “Portuguese”, “French” and “Russian”.Features:• Highly Accurate
• Simple to Use
• Diameter Measurement of Cornea and Pupil
• High Speed Printer
• Auto Shot
• Color Touch Screen
• USB connection
• Large Patient Database
• Easy Database Operation
• Multi-Language Operation
• Fourier Refractive Analysis
• Quick Data Reference
• Built-in LCD Alignment
• Keratoconus Screening & Other ApplicationsMeasurement Ranges:Refraction:• Sphere: -25.00D to +22.00D (VD=12.0mm)
• Cylinder: 0D to ±10.00D (VD=12.0mm)
• Axis: 0° to 180°
• Minimum Pupil Dia: Ø2.0mm
• Measurement time: 0.2 second/single eye (data taking time)Keratometry:• Range: 5.00mm to 11.00mm
• Corneal Refraction: 30.68D to 67.50D (n=1.3375)
• Corneal Astigmatism: 0D to 10D (n=1.3375)
• Axis: 0° to 180°
• Measurement area: Ø3mm (at 8.00mm corneal curvature)
• Measurement time: 0.1 second/single eye (data taking time)Other features:Tomey RC-800 Auto Refractor Keratometer• PD Measurement range 50 to 86mm
• Corneal diameter measurement
• Measurement range: 10.0 to 14.0mm
• Display unit: 0.1mm
• Pupil diameter measurement
• Measurement range: 1.0 to 10.0 mm
• Display unit: 0.1mm
• Built-in Printer Thermal printer
• Data output type RS232C / USB-D
• Display 5.7 inch color liquid crystal display
• Dimensions and weight 297(W)x 500(D) x 448(H)mm
• Approx. 17kg
• Power Requirements AC 100V to 240V, 50 / 60 Hz, 80VA to 100VAThe Auto “Refkeratometer” RC-800 is the latest in economical, user-friendly, highly accurate auto “refkeratometry”. The RC-800 provides simple, easy measurement by the operator at an economical cost, without compromising accuracy or reliability. | Carl Zeiss Cirrus HD-OCT 5000 Smart Advanced Topography HDAdvancing Smart OCTfor Anterior Segment, Glaucoma and Retina- Anterior Segment Premier Module
- PanoMap Wide-Field Display
- Smart HD Scans
- En face report
Visualization at the speed of CIRRUSAnalyzing a single pathology from multiple views provides comprehensive insight and analysis of the clinical situation. How this helps you: - Spot small areas of pathology. Tightly spaced B-scans, (either 30 or 47 μm apart), in the cube ensure that small areas of pathology are imaged. For reference, a human hair is about 40-120 μm in diameter.
- Visualize the fovea. Scans that are spaced further apart than in the CIRRUS cube may miss the central fovea.
- Fuel for analysis. Millions of data points from the cube are fed into the Zeiss proprietary algorithms for accurate segmentation, reproducible measurements and registration for change analysis.
- Take the pressure off the operator. As long as the scan is placed in the vicinity of the fovea or optic nerve, the software automatically centers the measurements after the capture.
- See the tissue from different perspectives. View the cube data from all angles, with 3D rendering, OCT fundus images and Advanced Visualization™.
- Future ready. Previously captured CIRRUS cubes can be analyzed using new analyses.
Tracking at the speed of CIRRUSFastTrac™ reduces eye motion artifacts without sacrificing patient throughput with a proprietary scan acquisition strategy, high speed 20 Hz LSO camera, and single-pass alignment scanning
With FastTrac, scan at the highest resolution at the same location at each visit. Assessment at the speed of CIRRUSMeasurement centering with FoveaFinder and AutoCenterOn the macula, the unique FoveaFinder technology ensures the ETDRS and ganglion cell plus inner plexiform layer measurement frameworks are centered on the fovea.AutoCenter™ function automatically centers the 3.4 mm diameter peripapillary RNFL calculation circle around the disc for precise placement and repeatable registration. The placement of the circle is not operator dependent. Accuracy, registration and reproducibility are assured. Manage at the speed of CIRRUS Carl Zeiss Cirrus HD-OCT 5000 Smart Advanced Topography HDGuided Progression Analysis (GPA™) for Assessing RNFL and Optic Disc ChangeGPA™ compares RNFL thickness and optic disc measurements over time and determines if statistically significant change has occurred.Focal Progression Analysis – Up to 6 progression maps are compared to two baselines. Areas of statistically significant change are color-coded yellow when first noted and then red when the change is sustained over consecutive visits.
Trend Analysis with Rate of Change – RNFL thickness values are plotted over time. Trends are calculated and confidence intervals are shaded when rate of change is statistically significant. |
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