Meridia™

Vision Diagnostics
Diagnosing and Examining Eyes
Refractive Surgery
Correcting Vision
Ophthalmic Lasers
Treatment of Eye Diseases
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The medmont meridia Advanced Topographer carries forward a legacy of over twenty years of expertise, experience, reliability, and first in class accuracy coupled with new unmatched images and versatile clinical application choices — all in one platform.
White LED illumination for clear anterior imaging and tear film dynamics.
Blue LED illumination for informative fluorescein images
Infrared LED illumination for precise meibography
Proven and Accurate Placido Technology
The Meridia with the enhanced Medmont Studio software v7 introduces a new level of clarity with high resolution images, increased field of view and is designed to bring additional applications in dry eye and contact lens fitting evaluations to enhance your insights to improve patient care.
In today’s eye health care and there is pressure to implement diagnostic solutions that are cutting edge, without compromising space, workflow efficiencies, diagnosis, and treatment, or patient care. Meridia Advanced Topographer with Studio v7 platform is designed to bring outstanding meaningful insights with clarity that helps you improve quality of patient care, manage healthcare costs, and workflow within your practice — allowing you to deliver versatile personalized superb care to each and every patient.
Dexterity, precision, control and comfort — without them, no hand intensive device is a success, for either the clinical professional using it or for the patient relying on the outcomes. Meridia is an ergonomically driven design that checks all the boxes enabling command at your fingertips for better operation and workflow efficiencies with five quick keys on the instrument.
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NIDEK offers a wide array of equipment designed for the diagnosis and treatment of retinal diseases, glaucoma, and other vision-impairing afflictions.
With a long history of research and development in examining, diagnosing, and treatment of eye disease, NIDEK deliver solutions to your needs at all stages of eye care.
We have an unparalleled devotion to expanding the boundaries of vision science and contribute directly to shaping the future of vision technology, including the daily lives of patients and vision practitioners, as reflected by our ongoing research and development of new technologies optoelectronics and artificial vision.
NIDEK is proud that our quality assurance activities gained the international recognition that these international certifications attest. We will continue to strive to enhance our product quality even further and deliver products that our customers can use with confidence.
If you have seen this balloon in an optical device, then you have used a NIDEK product! You were able to experience an examination by the leading technology used for measuring the refraction of eyes, which can determine reference values for how much corrective power you will need in your glasses or contact lens.
We help eye care professionals around the world not just with better eye care technology, but with a better eye care experience. Our technological advancements provide reliable ophthalmic equipment that focuses on value for doctors and their patients.
With over 48 years of researching and developing cutting-edge technology, NIDEK continues to deliver exceptional value to practitioners throughout the world as a global leader.
All delivery units incorporate the SOLIC optical design that ensures low energy density on the cornea and lens even for large spot sizes.
now available with all nidek photocoagulators
Scan delivery units with Vixi enhance treatment by its ability to treat varying retinal pathologies with 22 preprogrammed scan patterns.
Once photocoagulation is completed in one region, the auto forward function automatically positions the scan pattern to the next region of treatment, allowing the surgeon to concentrate better on adjusting focus.
2v2, 3v3, 4v4, 5v5 – Equal spaces between spots in all direction.
Automated positioning of the scan pattern for photocoagulation
Regions undergo photocoagulation continuously on a pre-programmed path
NIDEK POWERED
An intuitive graphic user interface and easy-to-read touch screen color LCD allows quick and easy setup and verification of the scan pattern and treatment parameters.
Up to 5 contact lens magnifications can be registered. Confirmation of actual spot size on the retinal surface is easily performed by selecting the registered contact lens.
The pop-up window appears once the displayed value, such as 'POWER', 'TIME', and 'INT' is selected. The surgeon can easily make changes to these laser values.
Photocoagulation data can be displayed in one screen for review and output in XML format for saving the treatment.
For flexibility in treating different types of clinical cases, 10 sets of photocoagulation data (power output, emission time, interval time, scan pattern and spacing) can be stored. Each set can be quickly retrieved with one-touch operation.
The YLC-500 Vixi / YLC-500 is a yellow laser using the innovative OPSL (optically pumped semiconductor laser) method to achieve stable and reliable laser delivery for optimal treatment outcomes.
LPM (Low Power Mode) is a form of laser photocoagulation that delivers reduced power to the retina for a therapeutic effect. With LPM, you can treat conditions easily.
In LPM, the standard (yellow) laser treatment power is reduced by a specified ratio. Hence, various conditions such as Macular Edema can be easily treated by Grid Laser Photocoagulation.
As there are no visible signs of photocoagulation during LPM treatments, the following assist functions are included for feedback during laser emission.
In addition to regular mode, LPM includes a scan pattern that prevents treatment in a central circular area within the grid.
In addition to conventional single delivery units, the scan delivery units are added to the wide range of yellow laser delivery systems. Both the scan and single delivery units include attachable models³ for the NIDEK SL-1800, ZEISS SL130, and HAAG 900BQ, which provide the existing slit lamps with a new stage for scan and single laser treatment.
Slit Lamp Single Delivery Unit
Attachable Delivery Unit
Attachable Delivery Unit
BIO Delivery Unit
Scan Slit Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Attachable Delivery Unit
Attachable Delivery Unit
BIO Delivery Unit
Scan Slit Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Slit Lamp Single Delivery Unit
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¹ For equal space patterns, No. v No. indicates the number of spots in horizontal and vertical directions.
² The arcade grid pattern is used for treatment of the periphery of macula in one-sixth units. The inner diameter is fixed and spot sizes range from 100 to 200 μm.
³ The auto forward function is available for the equal space (2v2, 3v3, 4v4) and the square (2×2, 3×3, 4×4) patterns. The number of times auto-forwarding can occur differs depending on the scan pattern, spot size, and spacing.
⁴ Prior confirmation of attachment to an existing slit lamp model is required.
Comparison of Laser Energy Spots²
The YC-200 S plus / YC-200 achieves 1.6 mJ plasma threshold in air¹, delivering accurate and robust treatments with lower energy.
A suite of technologies has been incorporated in these lasers to achieve seamless function and greater precision. Features for targeting pathology, accurate energy delivery, and operative assist functions allow the surgeon to deliver treatments “Right on the Mark”.
SLT Mode
The YC-200 S plus offers an advanced SLT mode. SLT is highly effective for treating open angle glaucoma.
SLT-NAVI
The SLT-NAVI feature presents an intuitive display on the progress of laser treatment, providing the surgeon with important feedback.
With a 5.5° cone angle, the YC-200 S plus is designed to decrease energy density on the cornea for sparing tissue from repeat treatments. The energy density on the cornea is reduced by more than one-third with a 5.5° cone angle compared to a 3.0° cone angle.
Exact Targeting
An improved optical design that optimizes resolution and contrast, and an expanded focal depth provide a clear view of pathology and treatment. A unique illumination system with an LED light source results in a bright, near-natural view that minimizes aberration. The sharp, clear optics provide an enhanced view of the treatment area.
Motorized Rotatable Aiming Beam
The dual aiming beam offers superior targeting with a 360° rotating aiming beam that can avoid corneal opacities and achieve more accurate focusing.
Precise Edge Aiming Beam
Parfocality delivers a clear view for easier focusing of the aiming beam through the contact lens.
The focus shift enables a 500 µm anterior or posterior axial shift of the focal point of the YAG laser. A change in 25 µm increments achieves precise treatments irrespective of the severity of pathology.
The S-switch on the joystick changes treatment settings without shifting gaze from the oculars. The ease of use allows surgeons an increased level of comfort during treatment.
An intuitive graphic user interface and easy-to-read touch screen color LCD allow quick and easy setup and verification of treatment parameters. An SD card starts the unit, enables software upgrades, and saves treatment summaries.
Optimized working distance allows easier manipulation of the contact lens, and the short operating distance decreases surgeon fatigue during treatment. *Operating distance denotes the distance from the microscope eyepiece to the patient’s eye.
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¹ A plasma threshold of 1.6 mJ is achieved in ordinary room conditions (in-house data).
² The same laser delivery parameters were used on both samples of photo paper.
³ Data from theoretical simulations.
⁴ SLT Mode available for YC-200 S plus.
Wavefront aberrometry gives unprecedented assessment of visual acuity and quality of vision in addition to traditional refraction and keratometry. Simulation of retinal contrast sensitivity and visual acuity charts enable objective quantification of visual clarity.
Corneal topography provides intuitive maps and numerical data for the corneal surface.
The auto refractometer provides exceptionally accurate refractions for various pupil diameters including refractions under photopic and mesopic conditions, critical for proper assessment of both refractive surgery patients and common refractive problems.
The auto keratometer provides conventional keratometry and novel corneal surface descriptors such as APP (Average Pupil Power) and ECCP (Effective Central Corneal Power) which aid in the calculation of the correct IOL power for postoperative corneas.
Pupillometry measures photopic and mesopic pupil diameters. Pupil images reveal the shape of photopic and mesopic pupils, which can alter refraction and important surgical data. Identification of the first Purkinje Image (corneal light reflex) and pupil center are provided. The distance between these two landmarks is calculated to assist in centration during refractive surgery and to assess IOL centration.
Irregularity helps determine the best strategy for vision correction. Separation into Total Corneal and Internal components allows determination of the source of the optical pathology.
PSF images of OPD, Axial, and Internal OPD map simulate objective retinal visual quality from each component of the eye for easy clinical assessment and patient education.
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The MP-3 measures local retinal sensitivity for functional assessment of the retina. The results can be displayed over a color fundus image, correlating retinal anatomy to retinal function.
Auto tracking and auto alignment functions provide more accurate measurements increasing patient and operator comfort and efficiency. These functions allow easy follow-up and reduce variations between examiners, resulting in well-aligned follow up exams.
The visual rehabilitation mode trains low-vision patients who have lost foveal fixation to relocate their preferred retinal locus (PRL) to a different region, called the trained retinal locus (TRL). The TRL is predetermined by a physician, and fixation rehabilitation allows the patient better functional vision (i.e. reading speed) due to increased fixation stability and visual outcomes.
Active flickering pattern stimulation and cheery music create an effective and pleasant training experience for the patient.
Image courtesy of the National Centre of Services and Research for the Prevention of Blindness and Rehabilitation of Visually Impaired – IAPB Italia Onlus, Rome – Italy
Pre- and Post-Treatment Comparison
Case of anti-VEGF treatment for age-related macular degeneration (AMD)
Pre-Treatment
Circle at 2° Percentage of Fixation Points 66.1%
Circle at 4° Percentage of Fixation Points 92.1%
Mean Sensitivity: 20.4
Post-Treatment
Circle at 2° Percentage of Fixation Points 68.1%
Circle at 4° Percentage of Fixation Points 95.5%
Mean Sensitivity: 20.9
Fixation test with precise tracking system is available in addition to microperimetry test and fundus photography.
Visual sensitivity maps in gray scale are also available for an intuitive assessment.
The MP-3 can measure fixation and determine the preferred retinal locus, simply by having the patient fixate on a target. Any change in fixation can be compared pre- and post-treatment because the patient’s eye is constantly tracked during microperimetry. This test allows evaluation of fixation in patients with central visual field defects and determines whether fixation improved after treatment.
Visual sensitivity maps can be displayed in gray scale, similar to conventional visual field reports. This display allows fo ran intuitive assessment of retinal sensitivity
Factory-Installed Option
Scotopic microperimetry is used to assess the changes in rod sensitivity of degenerative retinal diseases including age-related macular degeneration and some forms of retinitis pigmentosa. The type S provides scotopic microperimetry in addition to the standard functions of the MP-3.
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All delivery units incorporate the SOLIC optical design that ensures low energy density on the cornea and lens even for large spot sizes.
The MC-500 Vixi / MC-500 enables efficient photocoagulation even through opaque media.
In cases of cataract, better penetration is achieved with the yellow wavelength (577 nm) compared to green. In eyes with retinal hemorrhage, better penetration is achieved with the red (647 nm) wavelength.
now available with all nidek photocoagulators
Scan delivery units with Vixi enhance treatment by its ability to treat varying retinal pathologies with 22 preprogrammed scan patterns.
Once photocoagulation is completed in one region, the auto forward function automatically positions the scan pattern to the next region of treatment, allowing the surgeon to concentrate better on adjusting focus.
2v2, 3v3, 4v4, 5v5 – Equal spaces between spots in all direction.
Automated positioning of the scan pattern for photocoagulation
Regions undergo photocoagulation continuously on a pre-programmed path
In addition to conventional single delivery units, the scan delivery units are added to the wide range of multicolor laser delivery systems. Both the scan and single delivery units include attachable models³ for the NIDEK SL-1800, ZEISS SL130, and HAAG 900BQ, which provide the existing slit lamps with a new stage for scan and single laser treatment.
Slit Lamp Delivery Unit
Attachable Delivery Unit
Scan Slit Lamp Delivery Unit
Scan Attachable Delivery Unit
Get in touch with a sales professional.
All delivery units incorporate the SOLIC optical design that ensures low energy density on the cornea and lens even for large spot sizes.
now available with all nidek photocoagulators
Scan delivery units with Vixi enhance treatment by its ability to treat varying retinal pathologies with 22 preprogrammed scan patterns.
Once photocoagulation is completed in one region, the auto forward function automatically positions the scan pattern to the next region of treatment, allowing the surgeon to concentrate better on adjusting focus.
2v2, 3v3, 4v4, 5v5 – Equal spaces between spots in all direction.
Automated positioning of the scan pattern for photocoagulation
Regions undergo photocoagulation continuously on a pre-programmed path
NIDEK POWERED
An intuitive graphic user interface and easy-to-read touch screen color LCD allows quick and easy setup and verification of the scan pattern and treatment parameters.
Up to 5 contact lens magnifications can be registered. Confirmation of actual spot size on the retinal surface is easily performed by selecting the registered contact lens.
The pop-up window appears once the displayed value, such as 'POWER', 'TIME', and 'INT' is selected. The surgeon can easily make changes to these laser values.
Photocoagulation data can be displayed in one screen for review and output in XML format for saving the treatment.
For flexibility in treating different types of clinical cases, 10 sets of photocoagulation data (power output, emission time, interval time, scan pattern and spacing) can be stored. Each set can be quickly retrieved with one-touch operation.
The GYC-500 Vixi / GYC-500 ensures stable laser output by using a solid state laser.
In addition to conventional single delivery units, the scan delivery units are added to the wide range of green laser delivery systems. Both the scan and single delivery units include attachable models⁴ for the NIDEK SL-1800, ZEISS SL130 and 30SL/M, and HAAG 900BQ, which provide the existing slit lamps with a new stage for scan and single laser treatment.
Attachable Delivery Unit
Attachable Delivery Unit
Attachable Delivery Unit
BIO Delivery Unit
BIO Delivery Unit
YAG Laser combination delivery unit
Scan Slit Lamp Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Attachable Delivery Unit
Attachable Delivery Unit
Attachable Delivery Unit
BIO Delivery Unit
BIO Delivery Unit
YAG Laser combination delivery unit
Scan Slit Lamp Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Scan Attachable Delivery Unit
Get in touch with a sales professional.
¹ For equal space patterns, No. v No. indicates the number of spots in horizontal and vertical directions.
² The arcade grid pattern is used for treatment of the periphery of macula in one-sixth units. The inner diameter is fixed and spot sizes range from 100 to 200 μm.
³ The auto forward function is available for the equal space (2v2, 3v3, 4v4) and the square (2×2, 3×3, 4×4) patterns. The number of times auto-forwarding can occur differs depending on the scan pattern, spot size, and spacing.
⁴ Prior confirmation of attachment to an existing slit lamp model is required.
B-Scan – Available for US-4000 Only
Exclusively for US-4000, the full-color LCD multi-information display allows you to quickly read the data you need to provide high-quality patient care. The results are high quality images, which are essential for accurate analysis. High contrast of resonated signals and the high quality LCD monitor provide the ideal images for the most accurate diagnosis.
Biometry
Using new algorithms, axial length measurements and IOL power calculations are performed twice as rapidly as the conventional model. Measurement accuracy for cataracts and existing opacities is accomplished by pressing the "Dense Cat" switch and "Gate switch".
pachymetry
With the pachymetry feature, the US-4000 is a unique ultrasound instruments able to provide all the US diagnostic solutions in a single unit. The US-4000 / 500 pachymetry mode offers precise measurement of the corneal thickness within a ±5 µm error.
Keratometry values measured by any NIDEK ARK are automatically imported into the US-4000 / 500 for easy IOL power calculation.
B-Scan images are easily printed and may be attached to the patient's medical record sheet.
Data is easily stored through USB memory and LAN.
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Provides easy alignment with greater accuracy and precision, using the advanced technology of the Torsion Error Detection (TED), 200Hz Eye tracking system and Motorized Magnification Control of the Quest.
Built-In Advanced 200Hz Eye Tracking System (ETS) utilizes high-speed digital image processing technology to follow the patient’s eye, ensuring accurate and precise laser alignment and delivery during the procedure.
The Torsion Error Detection (TED) allows for the transfer of the OPD Anterior Segment image, from the patients sitting position during the OPD exam, to the Quest to allow for accurate alignment. This reduces induced cylinder errors caused by cyclo-rotation when the patient is aligned immediately prior to surgical treatment.
Sampling Rates: 100msec
Advanced Energy Delivery Systems - Flex Scan - creates a unique slit scanning ablation profile that improves accuracy of the refractive correction. The scanning slit beam smoothly sweeps the cornea, quickly ablating tissue with cool, overlapping ultraviolet energy.
MultiPoint™ Ablation system can correct certain high-order aberrations. MultiPoint™ Customized Ablation module divides the rectangular-shaped laser beam into six equal gaussian spots of 1.0 mm in diameter, which can be individually or simultaneously projected onto the cornea for a highly precise ablation of small area irregularities.
The NIDEK Excimer creates a uniform ablated surface and the optimized custom ablation with the highest precision, using an innovative scanning technology including Flex Scan and MultiPoint™ Ablation systems of the Quest.
Advanced Energy Delivery Systems – Flex Scan – creates a unique slit scanning ablation profile that improves accuracy of the refractive correction. The scanning slit beam smoothly sweeps the cornea, quickly ablating tissue with cool, overlapping ultraviolet energy.
MultiPoint™ Ablation system can correct certain high-order aberrations. MultiPoint™ Customized Ablation module divides the rectangular-shaped laser beam into six equal gaussian spots of 1.0 mm in diameter, which can be individually or simultaneously projected onto the cornea for a highly precise ablation of small area irregularities.
Offers optimum refractive treatments with greater precision, using intelligent diagnostic technologies of the OPD-Scan III and Final Fit software.
The Final Fit™ software uses OPD-Scan III data, and performs a simulation of postoperative corneal shape, and generates Excimer laser shot data. This is a comprehensive surgical treatment planning tool that provides a variety of options to maximize treatment outcomes.
The Final Fit™ software evaluates and converts the OPD-Scan III’s refractive and topographic data to produce the precise customized ablation parameters for the Excimer laser system. These unique algorithms control the MultiPoint™ ablation module to enable multiple, simultaneous localized ablations to correct higher order aberrations, corneal irregularities and decentered ablations.
All necessary operations before laser ablation, such as TED alignment, magnification change, focus, illumination, eye tracking are controllable at hand on the optimally congregated remote controller.
The LCD Monitor displays information and laser parameters for easier operation - these include eye tracking image, TED image, laser operation time and split screen for OPD photo/laser axis matching prior to tracking activation.
The system has an integrated automated mirror protection window to keep the optical mirrors clean. The special window opens when the "Laser Ready" button is pressed and closes when the operation is completed.
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Auto focus and auto shot mode can be performed with a single button for easy operation. If necessary, you can switch to manual mode for capture.
Weighing only 445 g / 0.98 lbs, this handheld medical scope is easily portable with continuous operation up to 3 hours and high adaptable features, enhancing patient's convenience.
The 5-megapixel clear-color camera with 45° horizontal angle of view (40° vertical) provides high quality digital imaging.
Data Transfer and Management
Captured data with the VersaCam™ α can be saved on a SD memory card, and transferred to and managed by the NAVIS-EX, image filing software for NIDEK devices.
The 7 internal fixation lamps for peripheral imaging provide stable fixation during measurement.
Fundus images and data on VersaCam™ α can be easily reviewed on its 3.5-inch color LCD touch screen.
The VersaCam™ α can also be attached to a slit lamp with its optional slit lamp attachment, which allows easier operation.
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Paracentral Mode
The combination of central, paracentral (8 points), and peripheral (6 points) imaging provides a broader, overall view that can be used for detailed morphological and quantitative evaluation of the endothelial layer and individual cells.
Two Second Auto Analysis
Rapid analysis increases the efficiency of the practice. Once the image is selected, complete analysis is automatically performed in two seconds with the CEM-530.
The analysis screen allows visualization of the endothelial cells in four modes, trace, photo, area, and apex, which helps the clinician to verify analysis values with the correspondent cell images.
Auto Analysis with 4 Modes for Viewing Endothelial Cells
In Shape (Pleomorphism) and Size (Polymegathism)¹
The CEM-530 provides comprehensive analysis including two histograms of variation in shape (pleomorphism) and size (polymegathism). For detailed analysis, the range of analysis can be changed and the cells to be excluded can be selected at the user’s discretion.
Unlimited NAVIS-EX database is available for review on the CEM Viewer. The basic functions of the CEM-530 such as endothelial cell count are available on the CEM Viewer.
The images and analyses of the paracentral and peripheral areas are displayed providing a comprehensive image of endothelial cells.
Optional
CEM Viewer is software used for viewing and working with CEM-530 data via NAVIS-EX. This function enhances the capability of the CEM-530 with additional features and increases the efficiency of any clinic.
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NIDEK's solution is the state of art optical biometer – the AL-Scan. In 10 seconds, six values for cataract surgery are measured:
Rapid measurements are essential for clinical efficiency and patient comfort.
3D Auto Tracking and Auto Shot
The AL-Scan incorporates NIDEK’s much acclaimed 3D auto tracking and auto shot, which provides the operator with the most ease, comfort, and accuracy on all measurements.
The 3D auto tracking tracks eye movements on the X-Y-Z planes to ensure accurate alignment of the eye. Once correct alignment is completed, the auto shot immediately captures the image and data.
Quickly calculate IOL power with AL-Scan's 9 embedded IOL calculation formulas¹, improve postoperative accuracy with IOL Constants Optimization.
Sectional Lens Image (Scheimpflug Image)
Pupil Image
Reflected Image of Double Mire Rings
Easily diagnose with AL-Scan's imaging of lens, pupil, and double mire rings. Observe anterior segments with sectional lens image, pupil image, and reflected image of double mire rings projected onto the cornea.
Optional
Measure virtually any cataractous eye without having to move the patient in cases where the optical biometer cannot measure an eye with a cataract.
What's even better? The AL-Scan requires no connection with an external ultrasound unit.
The large storage capacity of the NAVIS-EX database is available for review on the AL-Scan Viewer. The basic functions of the AL-Scan can also be performed with the AL-Scan Viewer including IOL power calculations and optimization of IOL constants.
Acquisition of multiple toric lens assist images allows selection of the optimal image for digitally marking the astigmatic axis. These images allow better surgical planning for accurate toric IOL alignment.
The AL-Scan Viewer allows recalculation of modified axial length, white-to-white, and pupil size data for accurate calculations.
Optional
AL-Scan Viewer is software used for viewing and working with AL-Scan data via NAVIS-EX. This function enhances the capability of the AL-Scan with additional features and increases the efficiency of any clinic.
The large storage capacity of the NAVIS-EX database is available for review on the AL-Scan Viewer. The basic functions of the AL-Scan can also be performed with the AL-Scan Viewer including IOL power calculations and optimization of IOL constants.
Acquisition of multiple toric lens assist images allows selection of the optimal image for digitally marking the astigmatic axis. These images allow better surgical planning for accurate toric IOL alignment.
The AL-Scan Viewer allows recalculation of modified axial length, white-to-white, and pupil size data for accurate calculations.
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The anterior eye monitor allows an operator to constantly verify alignment.
The focus split indicator shows the amount of focus deviation in the fundus observation screen.
The anterior eye monitor allows an operator to constantly verify alignment. The focus split indicator shows the amount of focus deviation in the fundus observation screen.
The anterior eye monitor allows an operator to constantly verify alignment.
The focus split indicator shows the amount of focus deviation in the fundus observation screen.
The AFC-330 navigates stereo and panorama photography with target marks displayed on observation screen¹.
Auto Stereo Pairing allows for separation and focal adjustments without user intervention.
Auto Panoramic Imaging provides seven fields, performed with automatic fixation adjustments.
Auto Stereo Pairing allows for separation and focal adjustments without user intervention.
Auto Panoramic Imaging provides seven fields, performed with automatic fixation adjustments.
The AFC-330 reduces flash intensity by 40% and sound of the shutter by 50% compared to its predecessor, the AFC-230 / 210.
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