SCHWIND Diagnostic Devices –Safety through diagnosis
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SCHWIND Diagnostic Systems – Safety through diagnosisSCHWIND Diagnostic Systems provide anextensive array of measuring methods forrefractive and therapeutic corneal surgery.They offer you a multitude of possibilitiesfor individual diagnoses – whether cornealand ocular wavefront data or corneal pachymetry. Furthermore, informationwhich can be used for refractive proce-dures, such as the insertion of intraocu-lar lenses or other phakic lenses, is alsoavailable.
SCHWIND CAM software does not missout a single important detail for the cus-tomised treatment planning, which youcan conduct on the SCHWIND diagnosticsystems or directly on the SCHWINDAMARIS laser systems. SCHWIND diagnos-tic systems combine extreme precisionwith a high level of user-friendliness.
Corneal Wavefront Ocular Wavefront SCHWIND SIRIUS Combi Wavefront Combi WavefrontAnalyzer (CWA) Analyzer (OWA) (Scheimpflug Analyzer (OWA + Analyzer
Analyzer) SCHWIND SIRIUS) (CWA + OWA)
DIAGNOSTIC DEVICES
Scheimpflug � �
Topography � � � �
Corneal Wavefront � � � �
Ocular Wavefront � � �
Comparison of Corneal and Ocular Wavefront � �
Keratoconus Screening � � � �
Pachymetry � �
Pupillometry � � � � �
Corneal Posterior Segment Analysis � �
Keratometry Readings � � � � �
Link to Static Cyclotorsion Control (SCC) � �1 � � �
Accommodation � � �
IOL Function � �
CL Function � � � �
Data Export to SCHWIND AMARIS Laser Systems � � � � �
Print Function via WLAN � � � � �
1 with Registration Camera
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The Corneal Wavefront Analyzer offers you all the possibilities of an innovative topo-graphy system. This includes the analysis of corneal wavefront data and thus a particu-larly precise diagnosis of the symptomatic aberrations of the cornea.
region. Only a slight percentage is foundin the lens and vitreous body. The aber-rations are mathematically described bymeans of Zernike polynomials and con-verted into individual, customised ablationprofiles.
PupillometryPupil diameter can be measured underboth scotopic and photopic lighting con-ditions with the aid of the integratedpupillometry function.
Corneal Wavefront Analyzer
Extreme precisionThe Corneal Wavefront Analyzer fulfils theextremely high requirements of precisionwith resolution of one micrometre. Thesmallest of irregularities is identified withthe aid of more than 80,000 analysis points.The topography system is a perfect tool for the preparation of a broad range ofrefractive treatments with the SCHWINDAMARIS laser systems.
The measuring process does not requireany medical pupil dilation – the eye can bemeasured in its natural shape. The CornealWavefront Analyzer also analyses severalimages from one measurement by com-paring them and assists the planning oftreatment by its selection of the best imagequality. As the system is equipped withtwo measuring cones, you will attain highlyreliable results with deep-set as well assmall eyes.
Corneal wavefront The corneal wavefront analysis bySCHWIND has redefined the measure-ment of corneal topography. Thanks tothe ray tracing method it documents thetype and size of all optical errors existingon the anterior corneal surface and allows a high-precision diagnosis for thesuitable choice of treatment. It also pro-vides all the key topographical informa-tion needed to enhance power calculationand selection of contact lenses. A signifi-cantly high percentage of aberrations in the human eye appear in the corneal
Corneal Wavefront Map
Its one-of-a-kind ability is based on ahigh-resolution Hartmann-Shack sensor.With an excellent resolution of 230 µmand 1024 measuring points, the OcularWavefront Analyzer analyses the wave-front aberrations up to the tenth order inunparalleled highly detailed resolutionand precision. Thanks to the integrationof different diagnostic tools in one device,you can measure the ocular wavefront of the whole eye as well as measuring itsaccommodation, the curvature of thecornea and the pupil diameter. Seriesmeasurements can be conducted in both a time-saving and comfortable manner.
Extensive software package The Ocular Wavefront Analyzer's softwareoffers you many analysis options – whetherin tabular form, as a bar diagram or as awavefront map. You can quickly and easilynavigate the menus, obtain detailed infor-mation or a complete overview for theanalysis of individual patient data.
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SCHWIND's Ocular Wavefront Analyzer is the latest generation of multi-functionalaberrometers. It analyses the optical characteristics of the entire eye in a single mea-suring process.
Accommodation measurementThe Ocular Wavefront Analyzer impresseswith its objective methodology for themeasurement of an eye's accommodation.In order to calculate the quality of theretinal image, different accommodationconditions are stimulated and measuredon the basis of the ocular wavefront. Youcan also analyse in-depth presbyopiawith the aid of the measurement resultsand evaluate the accommodation effectof intraocular lenses.
Keratometry functionYet another advantage: The integratedkeratometry function gives you the abilityto measure the curvature of the cornea.The keratometry reading is displayed ineither dioptres or millimetres and is pre-sented in a 3D colour graphic. These areimportant parametres for aberration-freeaspheric treatment.
Ocular Wavefront
Ocular Wavefront Analyzer
Zernike Refraction
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SCHWIND SIRIUS offers the perfect combined solution for refractive and therapeuticcorneal surgery. The highly precise, multi-functional diagnostic device combines a ro-tating Scheimpflug camera and a topography device with a placido disc.
The "2 in 1" system provides you with aquick, three dimensional analysis of theentire cornea and the anterior segment inonly one step. The SCHWIND SIRIUS cap-tures the anterior segment in less thanone second. The extremely high resolutionof only one micrometre and more than100,000 analysis points detect the small-est of irregularities on the anterior cornealsurface and therefore offer an extremelyprecise diagnosis of the aberrations. Thisnon-contact measurement allows you toanalyse the complete corneal wavefront,the topography of the anterior and poste-rior corneal surface (including the tangen-tial and axial curvature) as well as theanterior chamber. In addition, SCHWINDSIRIUS calculates the keratometry read-ings and can be used for power calculationof intraocular and contact lenses.
Corneal WavefrontThe corneal wavefront analysis documentsthe type and size of all existing optical errors on the anterior corneal surface withthe aid of the ray tracing method.
Keratoconus ScreeningSCHWIND SIRIUS aids you with its exten-sive keratoconus screening. The diagnos-tic system offers detailed descriptions of the morphology as well as the classifi-cation of the keratoconus.
Corneal Pachymetry Thanks to the extremely detailed mea-surement results provided by SCHWINDSIRIUS, you have the option to generatean eye's corneal pachymetry map forcorneal transplants. Combined with theablation by the SCHWIND AMARIS lasers,this leads to the best possible results inpachymetry assisted laser keratoplasty(PALK).
PupillometryThe integrated pupillometry captures thepupil diameter either dynamically or statically according to the defined lightingconditions.
Scheimpflug Imaging
SCHWIND SIRIUS
Keratoconus Screening
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Versions of the Combi WavefrontAnalyzer
Ocular Wavefront – Corneal Wavefront = Internal Wavefront
The two versions of the SCHWIND CombiWavefront Analyzer integrate a range ofunique functions and thus contribute tooptimal surgical and diagnostic decision-making.
They combine alternatively the abilities ofthe Ocular Wavefront Analyzer with theabilities of the Corneal Wavefront Analyzeror the SCHWIND SIRIUS diagnostic system.
The extremely high detail resolution pro-vides the foundation for a comprehensiveand particularly precise diagnosis withthe Combi Wavefront Analyzers. More than80,000 analysis points (Corneal Wave-front Analyzer) or 100,000 analysis points(SCHWIND SIRIUS) are taken as the basisfor the corneal wavefront. The Hartmann-Shack sensor in the Ocular WavefrontAnalyzer uses up to 1,024 measuring pointsto analyse ocular wavefront aberrations.
The corneal and ocular wavefront data of a patient can be compared in both com-binations of diagnostic devices. The directcomparison provides information onwhether there is an optical error on thecorneal surface or in the interior of theeye. You can thus identify and evaluate in-ternal aberrations. In addition, the CombiWavefront Analyzer version with SCHWINDSIRIUS provides detailed information onthe entire anterior segment of the eye andall necessary information for a pachymetryassisted laser keratoplasty (PALK) thanksto the Scheimpflug camera.
You simply manage complete data inputand data analysis on one Panel PC. Theresult: a perfect treatment plan tailoredto the needs of the patient and an easy to use, efficient and convenient procedurefor you.
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At a glance
Device type Placido-based Videokeratoscope (Optikon Keratron Scout)
Camera High Resolution Camera
Measuring Heads Small cone Far cone for deep-set eyes
Analysed Area max. Ø 11 mm
Placido Rings 28
Analysed Points > 80,000
Measured Points 7,168
Measuring Range 1 to 120 D
Resolution ± 0.01 D, 1 µm
Analysis Diameter (Keratometry Readings) 3, 5 and 7 mm
Pupillometry staticscotopic, photopic
Data export to SCHWIND AMARIS laser systems Corneal Wavefront
Static Cyclotorsion Control (SCC) optional
Weight approx. 8.6 kg
Voltage/Power Consumption 230/120 VAC, max 2.4 A
Dimensions (L x W x H) 30 x 16 x 41 cm
Compliance CE conformity in accordance with Medical Device Directive (MDD) 93/42/EEC
At a glance
Device type Aberrometer ( irx3, Imagine Eyes)
Sensor Type Hartmann-Shack
Analysed Area max. Ø 7.2 mm
Measured Points 1,024
Measuring Range +20 to -15 D Sphere±10 D Cylinder
Resolution 0.003 D, 230 µm
Analysis Diameter (Keratometry Readings) 3 mm
Pupillometry static
Data export to SCHWIND AMARIS laser systems Ocular Wavefront
Static Cyclotorsion Control (SCC) optional1
Weight 16.2 kg
Voltage/Power Consumption 230/120 VAC, max 2.4 A
Dimensions (L x W x H) 54 x 33 x 50 cm
Compliance CE conformity in accordance with Medical Device Directive (MDD) 93/42/EEC
¹ With Registration Camera
SCHWIND eye-tech-solutions GmbH & Co. KG · Mainparkstrasse 6–10 · D-63801 Kleinostheim, Germanyfon: +49 (0) 60 27/ 5 08-0 · fax: +49 (0) 60 27/ 5 08-208 · email: [email protected] · www.eye-tech-solutions.com
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8 DIAGNOSTIC DEVICES
At a glance
Device type Placido-based Videokeratoscope combined with Scheimpflug camera
Camera 2 monochromatic VGA CCD cameras1 central, 1 rotating (Scheimpflug)
Analysed Area max. Ø 12 mm
Placido Rings 22
Analysed Points >100,000
Measured Points 21,632 (Corneal Anterior Surface)16,000 (Corneal Posterior Surface)
Measuring Range 1 to 100 D
Resolution ± 0.005 D
Measuring Time < 1 second
Analysis Diameter (Keratometry Readings) variable
Pupillometry static and dynamicscotopic (0.04 Lux), mesopic (4 Lux), photopic (40 Lux)
Data export to SCHWIND AMARIS laser systems Corneal Wavefront, Pachymetric Data
Static Cyclotorsion Control (SCC) optional
Weight 14.2 kg
Voltage/Power Consumption 230/120 VAC, max 2.4 A
Dimensions (L x W x H) 32 x 25 x 51 cm
Compliance CE conformity in accordance with Medical Device Directive (MDD) 93/42/EEC
All technical specifications are subject to change without notice.
Optimum functionality, reliability and compliance with all legal regulations can only be assured through the use of products suppliedby SCHWIND – whether as single items or as a combined system.