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EYETOP
TOPOGRAPHERS
CM02/CM-P02 Corneal Topographer
Integrated corneal topographer suitable for:
- Corneal topography
- Corneal aberrometry
- Binocular dynamic infrared pupillometry (CMP/02)
- Contact lens autofit design based on cornea heights
- Ortho-k lens design based on cornea heights
- Contact Lens Posterior surface measurement
- Networkable software
The CM02-CMP02 Corneal Topographer is designed and developed by using the latest technology for corneal topography. The basic features, ergonomic design, superior reliability and ease of use make EyeTop 2005 the first choice in diagnostic and contact lens applications.
The CM02/CMP02 Topographer meets the needs of those who want to use the instrument for contact lens applications and for refractive surgery purposes. The big Placido disk with 24 rings and a 92 mm as working distance, with no contact with patient, warrantsa sterilized and safe examination procedure.
CM02 and CM/P02 topographers are equipped with the new EyeTop2005 software. Among all the software features, this allows to:
- Perform a complete wavefront analysis with Zernike polynomial decomposition
- Analyze the kerato-refractive indices of the cornea
- Show a complete visual quality summary
- Simulate a contact lens application with preferred lens management
- Make a direct link to an excimer laser for customized ablation treatment.
The software can work in network, and it can be integrated with the optional EyeImage software, for Video and pictures acquisition from Slit Lamps, graphic tools and measurements on pictures.
The optional infrared binocular pupillometry module (CMP/02) allow to measure pupil dynamic size, pupil dimension in scotopic, mesopic and fotopic light.
The software can evaluate pupil decentering respect to cornea apex, for each light condition, and the pupil center derive during dilatation. IT’s also possible to apply these measurements to the calculation of Corneal OPD (or WFE) and to show the pupil over the various different topographic maps and contact lens simulations.
The CM02-CMP02 Topographers have both a 24 rings Placido Diskwith a 92 mm working distance, to avoid decenterings to affect acquisitions. They have a High performances CCD 1/3” videocamerawith 320.000 pixels and a FireWire connection with 25fps processed; processed pictures have resolution of 768 x 576 pixels.
EYETOP2005 SOFTWARE SPECIFICATIONS
The software graphic interface has been completely re-designed. By solving the lacks of the previous version EyeTop2005 has now a NEW INTERFACE.
Most of the data are available with a LOOK and with a SINGLE CLICK!
The new EyeTop2005 software has been completely re-designed by using the latest technology.
The new Microsoft .NET Framework platform allows the software to work in a network environment without adding any optional module.This system allows a real network communication: clients are directly connected to the DBMS.
All data are managed into a DataBase Management System (MS SQL Server) to the aim of increasing data security and reducing loosing information chances and making backup and restore operations aesier.
Hardware features:
Big Placido disk (24 rings) with a 92 mm working distance (CM02 and CM/P02) and with 56 mm (Focus and LITE)
The quality of captured images has been improved (768 x 576 pixels). Firewire connection allows, during acquisition, a frame rate of 25 frames/s.
Topography
Improved acquisition procedure with best-focus algorithm, in order to reduce errors and taking very accurate keratoscopy pictures.This increases performance and accuracy in processing low curvatures surfaces and in toric surfaces.
Advanced rings editing tool to the aim of get a perfect rings reconstruction also on particularly bad corneas
Axial and instantaneous maps
Absolute, Normalized or Adjustable scales available
Curvature in millimeters or diopters; asphericity in p, e, Q, SF
Altimetric maps* with reference to
- spherical best-fit surface, whose radius is automatically calculated
- aspherical best-fit surface,whose apical radius and asphericity are automatically calculated
- asphero-torical best-fit surface, whose apical radius, asphericity and toricity are automatically calculated
- mean cornea, whose apical radius and toricity are automatically calculated
- another measured cornea
For all the best-fit surfaces the size of the fitting area is adjustable.
Refractive power map*, which locally represents the power of the corneal surface.
A summary* shows in a single window all the information calculated for the current examination.
Zernike polynomial decomposition for corneal aberration*
Zernike Altimetry*: decomposition into Zernike polynomials of the heights of the cornea referred to the surface vertex.
Maps comparison up to 4 maps, for axial curvatures, instantanous and refractive powers.
Differential maps* with 2 or 3 (NEW) elements for instantaneous, axial and refractive maps.
Several indices available:
Sim-K
Meridians and Emimeridians at 3 mm, 5 mm and 7 mm.
Pupil decentering, pupil radius and pupil diameter
Corneal asphericity at 8 mm and 4.5 mm*
Kerato-refractive indices, evaluated in pupil area*, to evaluate the patient visual quality
Keratokonus screening* for a preventive diagnosis of this pathology
Peripheral degrees*
Corneal wavefront analysis with:
- Corneal wavefront summary with adjustable pupil, including maps of most common aberrations
- Corneal aberrations analysis
- A new visual quality summary with new representations for PSF, Spot Diagram and visus simulation and with the introduction of the MTF*.
Map image export in common graphic formats (.PNG, .BMP, .JPG)
Customized report are available also with add-logo feature.
Pupillometry
An optional infrared pupillometry module is completely integrated with topography. This allows to:
measure pupil dynamic size. Starting with a high light condition (about 400 lux) and switching off the light, pupil dilatation can be observed from the minimum to the maximum extension.
measuring pupil dimension in scotopic light* (0.4 lux) condition to the aim of evaluate the maximum pupil size and its optical zone
measuring pupil dimension in mesopic light* (4 lux)
measuring pupil dimension in fotopic light* (50 lux)
evaluate pupil decentering respect to cornea apex, for each of above depicted light conditions, and the pupil center derive during dilatation.
apply those measurements* to the calculation of Corneal OPD (or WFE) and to show the pupil over the various different topographic maps* and contact lens simulations*.
Contact lenses
Calculus and simulation of rigid contact lenses
Autofit module for the search of the best lens on altimetric basis in a database containing more than 500000 lenses.
Tool for customizing a contact lens on a measured cornea by inserting the geometric parameters of its posterior surface
Tools for moving and tilting the simulated lens on the cornea
Graph of the tears profile
Export of measured data to some external applications for contact lens design
Ortho-k module for designing orthokeratology lenses on real measured heights
Contact lens posterior surface measurement
Other features
Networkable software and shared database with TCI/IP protocol to other CSO softwares
Import and export of patients data and examinations
Topographic data export for laser treatment or for contact lens lathe import
The software can be integrated with CSO EyeImage software for video and pictures acquisition from Digital Slit Lamp.
The symbol “*” means a funcionality not present in LITE version.
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