Reichert IOPac Standard Bedienungsanleitung PDF herunterladen (Seite 8)

All claims made by manufacturer

FIELD

COMPANY MODEL TYPE OF LASER OF VIEW

Bioptigen, Inc. HHP SDOCT, 840 nm SLD, standard 2° x 2°-60° x 60°

Adult Human or broadband

Bioptigen, Inc. HHP SDOCT, 840 nm SLD, standard 2° x 2°-70° x 70°

Pediatric or broadband

Bioptigen, Inc. HHP SDOCT, 840 nm SLD, standard 0.4° x 0.4°-50° x 50°

Preclinical or broadband

Carl Zeiss Cirrus HD-OCT 840 nm 36º x 30º

Meditec superluminescent

diode

Carl Zeiss GDxPRO 780-798 nm 20º x 20º

Meditec GaAIAs laser

diode

Carl Zeiss Stratus OCT 820 nm 26º vertical

Meditec superluminescent x 20.5º

diode horizontal

Heidelberg HRT3 with Confocal scanning 15° x 15°

Engineering, Glaucoma laser ophthalmoscope;

Inc. Module 670 nm diode laser

Heidelberg HRT3 with Confocal scanning 15° x 15°

Engineering, Retina Module laser ophthalmoscope;

Inc. 670 nm diode laser

Heidelberg HRT3 with Confocal scanning 400

µm x 400 µm

Engineering, Cornea Module laser ophthalmoscope;

Inc. 670 nm diode laser

Heidelberg Spectralis

OCT 488 nm OPS laser; 30º, 20º, 15º

Engineering, 820 nm diode laser;

Inc. 870 nm SLD

Heidelberg Spectralis

OCT

PLUS

488 nm OPS laser; 55°, 35°, 30°, 25°,

Engineering, 820 nm diode laser; 20°, 15°; composite

Inc. 870 nm SLD images up to 120°

Heidelberg Spectralis

HRA 488 nm OPS laser; 55°, 35°, 30°, 25°,

Engineering, 790 nm diode laser; 20°, 15°; composite

Inc. 820 nm diode laser images up to 120°

Heidelberg Spectralis

FA+OCT 488 nm OPS laser; 55°, 35°, 30°, 25°,

Engineering, 820 nm diode laser; 20°, 15°; composite

Inc. 870 nm SLD images up to 120°

Heidelberg Spectralis

488 nm OPS laser; 55°, 35°, 30°, 25°,

Engineering, HRA + OCT 790 nm diode laser; 20°, 15°; composite

Inc. 820 nm diode laser; images up to 120°

870 nm SLD

Opko Spectral OCT/SLO 830 nm variable up to

Instrumentation super luminescent 30 degrees

diode

RETINAL SCANNERS

AREA OF RETINA PRINTOUT

ANALYZED DETAIL ADDITIONAL FEATURES

Full retinal thickness SDOCT image, study information HHP SDOCT provides high-resolution, high-speed SDOCT imaging in a hand-held, robust, and easily transportable

and RNFL; contoured solution that is ideal for clinical, bedside, and operating room imaging. Advanced spectrometer design permits

C-slices of retinal layers; single-shot, falloff-mitigated imaging at 17 frames per second. Standard resolution approaches 4.5 µm in tissue

vessel flow using Doppler and the broadband option affords < 3 µm ultra-high resolution imaging. Fully customizable scan geometry and

density enable pathology-targeted imaging. Registration, averaging, and volume rendering ehance data display.

On-screen calipers provide manual distance measurements. Open access to both raw and processed data.

Optional accessories include the telecentric cornea bore, HHP microscope base, and chin-rest mounted scanner.

Full retinal thickness SDOCT image, study information HHP SDOCT provides high-resolution, high-speed SDOCT imaging in a hand-held, robust, and easily transportable

and RNFL; contoured solution that is uniquely designed for pediatric imaging. Custom imaging bore optics provide unparalleled reso-

C-slices of retinal layers; lution in premies, neonates, infants, toddlers, and children. Advanced spectrometer design permits single-shot,

vessel flow using Doppler falloff-mitigated imaging at 17 frames per second for fast alignment and imaging in uncooperative patients.

Standard resolution approaches 4.5 µm in tissue and the broadband option affords < 3 µm ultra-high resolution

imaging. Fully customizable scan geometry and density enable pathology-targeted imaging. Open access to both

raw and processed data. Optional accessories include the telecentric cornea bore, HHP microscope base, and

chin-rest mounted scanner.

Contoured C-slices SDOCT image, study information HHP SDOCT provides high-resolution, high-speed SDOCT imaging in a hand-held, robust, and easily transportable

of retinal layers; solution that is uniquely designed for preclinical research, enabling true bench-to-bedside imaging with one

vessel flow using system. Optimized imaging optics are available for mouse (FOV given here, lateral resolution less than 3 µm),

Doppler rat, and macaque. Uniquely designed small-animal imaging mount enables high throughput imaging of mouse

and rat models with rapid, accurate alignment every time. All benefits of the HHP SDOCT Adult Retina system

plus solutions for preclinical research. Optional accessories include mouse or rat bite bars for fine alignement

and motion reduction, telecentric cornea bore, and HHP imaging base.

Macula and retinal Data from single macula cube scan provides: high resolution Designed for efficiency. Easy and fast scan acquisition. Small footprint. Modern integrated design fits in the

layers; segmented cross-hair image; 3D layer map of ILM and RPE; 3D retinal corner of a room. Anterior segment imaging provides visualization of the angle and central corneal thickness

RPE and ILM thickness map; 3D cube image; LSO fundus image; OCT fundus measurement. No add-on lens is required. Auto-center feature aligns peripapillary circle for RNFL analysis.

layers; Optic Nerve image with overlay of thickness map, OCT fundus or slab. RNFL repeatability SD of 1.3 µm in normal subjects and 1.2 µm in patient eyes. Unique Fovea Finder function

Head and RNFL. Comparison to normative data. Optic disc scan provides ensures accurate registration and excellent repeatability of macular thickness measurements. Central Subfield

assessment of RNFL and ONH with cup/disc ratio; disc and rim repeatability SD of 2.2 µm. Enhanced HD Raster Scan uses Selective Pixel Profiling to display finely detailed

area; cup volume; RNFL thickness map and deviation map with images. Cirrus HD-OCT comes with the onboard functionality to connect to FORUM Data Management system.

comparison to normative data; TSNIT graph and OU analysis. FORUM allows real-time viewing of reports or images from supported networked ZEISS and non-ZEISS

GPA analysis shows comparison of RNFL thickness instruments. FORUM supports bi-directional workflow for supported DICOM enabled devices, reducing charting

measurements from the Optic Disc Cube scan over time and errors and increasing patient throughput. Cirrus HD-OCT is now available in two models. Cirrus Model 4000 is

determines if statistically significant change has occurred. the premium model, offering an LSO fundus image and advanced software features. Model 400 provides core

The results show event analysis, trend analysis and a OCT functionality for retina, glaucoma and anterior segment, and the same integrated design. It features Live

quantified rate of change. Enhanced 20x raster scan OCT Fundus

technology for the fundus image and is designed with the smaller budget in mind.

provides exquisite high-definition B-scan images.

nerve fiber layer Deviation map; thickness map; NFI score; TSNIT The simplest way to classify and manage the glaucoma patient is to assess RNFL health with GDxPRO, available

parameters; TSNIT graph; quality score; patient & at a fraction of the cost of OCT technology. Operator independent; has intuitive printout; no dilation required; less

practice information; single & serial analysis formats. sensitive to variations in disc size than other instruments. Ideally suited for those specializing in glaucoma or

building a glaucoma practice. Small footprint. Portable. Live Fundus View and Auto Registration. Touch Screen,

mouse or keyboard navigation. Runs on Windows XP and interfaces with FORUM Data Management system.

GDxPRO comes with the onboard functionality to connect to FORUM. FORUM allows real-time viewing of reports

or images from supported networked ZEISS and non-ZEISS instruments. FORUM supports bi-directional workflow

for supported DICOM enabled devices, reducing charting errors and increasing patient throughput.

Macula and retinal Objective RNFL & retinal thickness; normative Provides direct cross-sectional images & retinal measurements; images & analyzes macular thickness, retinal

layers, RNFL and data comparison for RNFL & macula thickness; optic nerve nerve fiber layer & optic disc; normative data for RNFL & macula provide age-matched

optic nerve head. head analysis w/disc, cup & rim measurements & reference values for comparison w/normal population. Now GPA Advanced Serial Analysis identifies statistically

ratios. GPA Advanced Serial Analysis for RNFL. significant change and rate of change to RNFL. Stratus OCT comes with the onboard functionality to connect to

FORUM Data Management system. FORUM allows real-time viewing of reports or images from supported

networked ZEISS and non-ZEISS instruments. FORUM supports bi-directional workflow for supported DICOM

enabled devices, reducing charting errors and increasing patient throughput.

optic nerve head; Comprehensive optic nerve reports: OU w/cup, rim, RNFL & The HRT Glaucoma Module with TruTrack

™

Image Alignment Technology provides clinicians with a powerful

RNFL asymmetry analysis option for management of the glaucoma patient. Use in combination with other HRT modules for retina and

cornea applications.

macula & peripheral Retina reports: Graphic & statistical analysis Proprietary TruTrack

™

Image Alignment Technology enables repeat scanning and alignment of images essential

retina of retina with 2D & 3D topography; thickness for tracking change with retinopathies, such as DME, CME, AMD. Network applications and viewing licenses

and reflectance maps and trend analysis. available.

anterior segment & In-vivo histology & semi-automatic endothelial cell The Rostock Cornea Module adds confocal laser microscopy to the HRT system, enabling capture and review

corneal layers; epithelium count analysis; live movie capture of finely detailed images of the cornea’s cellular structure, from epithelium to endothelium.

to endothelium

retinal layers, RNFL, Displays infrared, fundus autofluorescence, At 40 kHz, Spectralis

OCT scans 100 times faster than time-domain OCT. Proprietary TruTrack

™

Active Eye

posterior pole OCT, posterior pole & RNFL analysis. Tracking enables precise repeat scanning and noise reduction.

retinal layers, RNFL, Displays infrared, fundus autofluorescence, At 40 kHz, Spectralis

OCT

PLUS

scans 100 times faster than time-domain OCT. Proprietary TruTrack

™

Active Eye

posterior pole & wide- OCT, posterior pole & RNFL analysis. Tracking enables precise repeat scanning, noise reduction and widefield imaging. Upgradable to FA+OCT and

angle fundus images HRA+OCT models.

posterior pole & wide- Displays infrared, red-free, fundus TruTrack

™

Image Alignment Technology enables precise tracking over time, noise reduction, and stunning

angle fundus images autofluorescence, FA, ICGA images widefield pan-retinal images in real time. It produces fundus images of the retina and choroid unseen in digital

or film photography.

retinal layers, RNFL, Displays infrared, red-free, fundus At 40 kHz, Spectralis

FA+OCT scans 100 times faster than time-domain OCT. Proprietary TruTrack

™

Active Eye

posterior pole & wide autofluorescence, FA, OCT, posterior Tracking enables precise repeat scanning, noise reduction and widefield imaging. Upgradable to HRA+OCT

angle fundus images pole & RNFL analysis model.

retinal layers, RNFL, Displays infrared, red-free, fundus autofluorescence, Spectralis

HRA+OCT is the ultimate combination platform. It combines the best of cSLO fundus imaging and

posterior pole & FA, ICGA, OCT, posterior pole & RNFL analysis. angiography with SD-OCT. It is the only SD-OCT with TruTrack

™

Active Eye Tracking

which enables precise

wide-angle fundus repeat scanning, noise reduction and widefield imaging.

images

fovea, retina, Combined OCT B-Scan and confocal SLO images with exact Fully automated Auto-focusing and Auto Coherence for quick and easy operation; 27,000 A-scan/sec,

inner/outer location/orientation of the OCT image on the SLO Fundus “RETEST” feature automatically ensures repeated location of the OCT scans and microperimetry testing.

retinal layers, RPE, image, Combined topography thickness report with up to Optional - microperimetry retinal function with real-time SLO tracking. Optional cornea/anterior segment

posterior pole, optic 6 high resolution radial B-Scan OCT images, “Auto-Compare” OCT imaging and analysis of cornea and anterior segment.

nerve, RNFL report of multiple topography maps (progression/regression

plot) including location of retinal thickness changes overlaid

on the SLO Fundus image. High resolution raster OCT scan

and macula scan. Optic nerve head & RNFL analysis including

(over time) “Auto-Compare” regression map of multiple

scans. User selected “customize reports.”

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