NEW FastTrac™ retinal tracking system

Scan at the highest resolution at the same location each visit

Cirrus HD

Discover the power

of the CIRRUS Cube

CIRRUS HD-OCT

Certainty at the speed of CIRRUS

Cirrus HD-OCT - Certainty in seconds. Certainty for years.

CIRRUS HD-OCT

All new Models 5000 and 500
Today, there’s a CIRRUS™ that can help your practice manage the challenges you face on a daily basis. The new CIRRUS HD-OCT models 5000 and 500 are specifically designed to deliver a carefully constructed set of sophisticated applications that build upon one another to deliver rapidly-evolving diagnostics for multiple patient populations. CIRRUS HD-OCT 5000 is the clinical powerhouse with FastTrac™ and sophisticated analyses for the busy advanced care practice. CIRRUS HD-OCT 500 is the essential OCT with the technology to power today’s comprehensive practice.

CIRRUS for Retinal Disease
With the new FastTrac retinal tracking system, precise macular thickness analyses, Fovea Finder™, detailed layer maps and more than 100 B-scans at your disposal, CIRRUS provides the framework to comprehensively assess your patient’s retinal condition. CIRRUS data cubes are registered with data from prior visits after the scan is acquired. This enables side-by-side visualization of the same location on the retina for each visit. CIRRUS compares measurements from the current and prior visits to provide a thickness change map that helps you determine next steps for your patient. 3-D cubes and Advanced Visualization™ can be used for pre-operative planning for VRI disorders. For dry AMD, CIRRUS helps you monitor pre-conversion patients today and prepare for tomorrow’s dry AMD therapy.

CIRRUS for Glaucoma
No other company offers a more complete suite of integrated glaucoma diagnostics. CIRRUS is the HFA's perfect companion for glaucoma management. Today's CIRRUS glaucoma applications include RNFL, ONH and angle assessment as well as the new Ganglion Cell Analysis (GCA). When ONH and RNFL status are indeterminate, GCA can sharpen the picture. With CIRRUS angle imaging and central corneal thickness measurements, you have the world’s standard-setting comprehensive tool for glaucoma structural assessment. Guided Progression Analysis™ (GPA) provides a powerful tool for determining change for RNFL and optic nerve head parameters.

Great Images & Dense Data Cubes

Brilliant, detail-rich B-scans plus the power of the CIRRUS cube let you visualize and quantitate pathology without extra scans.

 

Spectacular Images

With world-class ZEISS optics and knowledge from over a decade of experience in OCT, CIRRUS captures spectacular images of both the retina and anterior segment. Visualization and caliper measurements of the deeper layers are also facilitated by Enhanced Depth Imaging (EDI) , now available with the HD Raster scan.

The Power of the Cube

CIRRUS captures a highly dense cube over a 6 x 6 mm region - the data is used for both visualization and analysis. 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.

3D and Advanced Visualization™

Draw insights from perspectives beyond the cross-sectional B-scan. CIRRUS data cubes can be processed and mined with sophisticated 3D and en face visualization tools. Isolate layers of the retina to view en face. Fly through from different angles. The answers are in the cube and CIRRUS provides the tools to find them.

 

Anterior segment images

CIRRUS can image the angle or cornea with raster scans or a data cube. No add-on lens is required.

Scan pattern Capture time
512 x 128 2.4 seconds
200 x 200 1.5 seconds
5-Line Raster / Enhanced HD Raster 0.8 seconds                                       
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Diagnostic analysis you can trust

With Fovea Finder™, AutoCenter™, normative data and the best overall macular segmentation, CIRRUS lets you transform information into insight to support your clinical decision-making.

Zeiss segmentation algorithms

Leveraging over a decade of experience with OCT, Carl Zeiss and its research collaborators strive for excellence in algorithms to segment layers for measurements. CIRRUS macular thickness, RNFL and optic disc measurements have been extensively validated, showing excellent repeatability and accurate segmentation. The optic nerve head algorithm is designed to precisely measure the neuro-retinal rim while accounting for tilted discs, disruptions to the RPE and other challenging pathology.

The new, groundbreaking Advanced RPE Analysis provides insight on dry AMD and pigment epithelial detachments using OCT technology alone. Ganglion Cell Analysis - adds new insights to complement RNFL and optic nerve head analysis.

Measurement centering with FoveaFinder and AutoCenter

On the macula, the unique FoveaFinder technology ensures the ETDRS and ganglion cell plus inner plexiform layer measurement frameworks are centered on the fovea. The 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.

Zeiss segmentation algorithms

Leveraging over a decade of experience with OCT, Carl Zeiss and its research collaborators strive for excellence in algorithms to segment layers for measurements. CIRRUS macular thickness, RNFL and optic disc measurements have been extensively validated, showing excellent repeatability and accurate segmentation. The optic nerve head algorithm is designed to precisely measure the neuro-retinal rim while accounting for tilted discs, disruptions to the RPE and other challenging pathology.

The new, groundbreaking Advanced RPE Analysis provides insight on dry AMD and pigment epithelial detachments using OCT technology alone. Ganglion Cell Analysis adds new insights to complement RNFL and optic nerve head analysis.

Ease of measurement centering with FoveaFinder™ and AutoCenter™

On the macula, the unique FoveaFinder™ technology ensures the ETDRS and ganglion cell plus inner plexiform layer measurement frameworks are centered on the fovea. The 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.

Evaluate the patient against Normative Data

Normative databases are available for macular thickness, RNFL thickness, optic nerve head and ganglion cell plus inner plexiform layer thickness.

Spotting subtle pathology on the macula

In just seconds you can visually check the entire 6 mm x 6 mm region for any unusual or concerning structure. 3D layer maps are shown with the thickness analysis. “Fly through the cube” to view all 128 or 200 B-Scans in just seconds.

Spotting patterns of defects – Deviation Maps


CIRRUS enables you to see beyond the standard circle assessment for RNFL and across the macula for Ganglion Cell plus Inner Plexiform Layer thickness. Since CIRRUS normative data is collected for entire cubes, comparison may made pixel by pixel across the 6mm x 6mm area. Wedge defects and other patterns of RNFL loss can be recognized and monitored.

Central corneal thickness and angle assessment


CIRRUS can image the angle or cornea regions with raster scans or a data cube. No add-on lens is required. Calipers enable measurements including central cornea thickness.

Spotting subtle pathology on the macula

In just seconds you can visually check the entire 6 mm x 6 mm region for any unusual or concerning structure. 3D layer maps are shown with the thickness analysis. “Fly through the cube” to view all 128 or 200 B-Scans in just seconds.

Spotting patterns of defects – Deviation Maps

CIRRUS enables you to see beyond the standard circle assessment for RNFL and across the macula for Ganglion Cell plus Inner Plexiform Layer thickness. Since CIRRUS normative data was collected for entire cubes, comparison can be made pixel by pixel across the 6mm x 6mm area. Wedge defects and other patterns of RNFL loss can be recognized and monitored.x

Central corneal thickness and angle assessment

CIRRUS can image the angle or cornea regions with raster scans or a data cube. No add-on lens is required. Calipers enable measurements including central cornea thickness.x

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Change analysis you can trust

With precise, automatic visit-to-visit registration, you can both visualize and accurately measure change. New and improved GPA now includes optic nerve head parameters.

FastTrac Retinal Tracking to Track to Prior Scan position (CIRRUS HD-OCT 5000)
Place HD Raster scans in the same position as the prior visit. Then, visual comparison can be made, toggling back and forth between the current and prior B-Scans. CIRRUS data cubes also use FastTrac to scan the same location as previous exams.

Post-Acquisition Registration
CIRRUS data cubes are automatically registered to cubes from prior visits after the scan is acquired. Data from the current cube is aligned and rotated as necessary to allow pixel by pixel comparisons to the prior visit.

Precise Macular Change measurements and visualization
Macular Change Analysis provides measurement from two visits and provides a thickness change map . You can compare current and prior B-Scans side-by-side to the B-Scan in that position from the prior visit.

Guided Progression Analysis (GPA™) for Assessing RNFL and Optic Disc Change
GPA™ 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.

FastTrac Retinal Tracking to Track to Prior Scan position (CIRRUS HD-OCT 5000)
Place HD Raster scans in the same position as the prior visit. Then, visual comparison can be made, toggling back and forth between the current and prior B-Scans. CIRRUS data cubes also use FastTrac to scan the same location as previous exams.

Post-Acquisition Registration
CIRRUS data cubes are automatically registered to cubes from prior visits after the scan is acquired. Data from the current cube is aligned and rotated as necessary to allow pixel by pixel comparisons to the prior visit.

Precise Macular Change measurements and visualization
Macular Change Analysis provides measurement from two visits and provides a thickness change map . You can compare current and prior B-Scans side-by-side to the B-Scan in that position from the prior visit.

Guided Progression Analysis (GPA™) for Assessing RNFL and Optic Disc Change
GPA™ compares RNFL thickness and optic disc measurements over time and determines if statistically significant change has occurred.
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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Superb Practice & Workflow Efficiency

Capture high quality reproducible results with minimal training even on challenging patients. Keep patient exams moving quickly without getting bogged down. Connect to EMR and FORUM with expanded capabilities to share data among instruments and review stations.

FastTrac Retinal Tracking
CIRRUS HD-OCT models 5000 and 4000 can use FastTrac retinal tracking system to avoid motion during acquisition. FastTrac can be turned off when desired.

Just Seconds for Data Cubes or Raster Scans
Using Mouse-Driven Auto Alignment™, positioning the patient and the OCT scan is just a few clicks away. The process is streamlined further for the next visit with Auto Patient Recall™, as the motorized positioning can be reset to the same settings as last time. Acquisition time is extremely short. Live Precision Targeting™ allows operator to move scan box without moving fixation.

Up to the Challenge of Small Pupils and More
To sustain an efficient workflow, an OCT system must be able handle all type of patients including the challenging ones. CIRRUS HD-OCT scans can routinely penetrate pupil sizes of 2 mm. Cirrus also performs optimally on moderate cataracts. Short acquisition time enables extremely quick re-scanning if required.

Efficient Use of Space
CIRRUS has a small footprint and the 90 degree patient to operator orientation enables you to position the product in tight spaces.

Analysis and Review Available Anywhere in your Office
Analyze CIRRUS data in your lane or office away from the instrument using CIRRUS Review Software. Send raw data and reports to the FORUM Data Management system for sharing and viewing away from the instrument. Receive Modality Worklists with patient demographic information from a central system.
Consider further analysis capabilities with the FORUM® Data Management Solution. For example, use FORUM to create an HFA Visual Field and CIRRUS ONH Combined Report.

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Buy from the Leader

CIRRUS is the best-selling spectral domain OCT in the world, from the company that introduced OCT to the market.

The product represents the culmination of decades of patents, prototypes and progress tracing back to the early history of OCT.

As new diagnostic needs emerge and new therapies are developed, innovation continues with CIRRUS. CIRRUS is actively being used in major clinical trials to further define the best practice and clinical applications for OCT diagnostics.

From the moment you join the CIRRUS Community and throughout the years that follow, you have the support of Carl Zeiss' extensive application, installation and customer care teams. Zeiss is committed to delivering the excellence in installation, training and ongoing support you expect from the market leader.

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A multitude of resources to help you take full advantage of your Cirrus.

Cirrus e-Learning

Each training module will systematically walk you through product utilization with helpful hints and answers to frequently asked questions provided along the way. This content is intended to be used in conjunction with user manual especially for consideration of intended use / indications for use, notes, cautions and warnings.
Visit CIRRUS e-Learning


OCT Interpretation handbook

OCT is an essential tool for diagnosing and managing retinal disease and glaucoma. In this handbook, Authors Bruno Lumbroso, MD and Marco Rispoli, MD incorporate detailed schematic illustrations by Mrs. Donata Piccoili as well as OCT scans from CIRRUS HD-OCT and provide a step –by-step guide for interpreting SD-OCT images and data.

Guide to Interpreting Spectral Domain Optical Coherence Tomography

Retinal Layers

This reference identifies each of the retinal layers.

View retinal layers
 
Scan Acquisition Quick Referen ce Guide
This document provides a step-by-step guide to scan acquisition on the CIRRUS HD-OCT Model 5000 and CIRRUS Model HD-OCT 500 including basic scanning technique and advanced tips.

Read Scan acquisition quick reference guide for the CIRRUS HD-OCT Model 5000/4000

Read Scan acquisiton quick reference guide for the CIRRUS HD-OCT Model 500

This attractive and educational Wall Poster provides various images of several retinal pathologies as viewed by CIRRUS HD-OCT. This will help your patients understand the value of the CIRRUS test and provide you with a patient education tool to help you describe retinal disease.

Download 8 ½ x 11 Cirrus wall poster

Clinical literature

Retina

Automated Characterization of Pigment Epithelial Detachment by Optical Coherence Tomography
Lee SY, Stetson PF, Ruiz-Garcia H, Heussen FM, Sadda SR.
Invest Ophthalmol Vis Sci. 2012 Jan 20; 53(1):164-70. Print 2012

Natural History of Drusen Morphology in Age-Related Macular Degneration Using Spectral Domain Optical Coherence Tomography
Yehoshua Z, Wang F, Rosenfeld PJ, Penha F, FeuerW, Gregori G
Ophthalmology, 2011 Dec;118(12):2434-41. Epub 2011 Jul 2.

Spectral Domain Optical Coherence Tomography Imaging of Drusen in Nonexudative Age-Related Macular Degeneration
Gregori G, Wang F, Rosenfeld PJ, Yehoshua Z, Gregori N, Lujan B, Puliafito C, Feuer W
Ophthalmology, 2011 Jul; 118(7):1373-9, Epub 2011 Mar 9

Progression of geographic atrophy in age-related macular degeneration imaged with spectral domain optical coherence tomography
Yeoshua Z, Rosenfeld PJ, Gregori G, Feuer WJ, Falcao M, Lujan BJ, Puliafito C
Ophthalmology, 2011 Apr; 118(4):679-86. Epub 2010 Oct 29

Spectral domain optical coherence tomography imaging of dry age-related macular degeneration
Yehoshua Z, Rosenfeld P, Gregori G, Penha F
Ophthalmic Surg Lasers Imaging, 2010 Nov-Dec; 41 Suppl:S6-S14. doi:10.3928/15428877-2110 1031-19

Choroidal Thickness in Normal Eyes Measured Using Cirrus HD Optical Coherence Tomography
Varsha Manjunatha, Mohammad Tahaa, James G. Fujimotob, Jay S. Duker
Am J Ophthalmol 2010 Sep; 150(3):325-329.e1. Epub 2010 Jun 29

Reproducibility of Macular Thickness Measurements Using Cirrus SD-OCT in Neovascular Age-Related Macular Degeneration
Mariacristina Parravano, Francesco Oddone, Barbara Boccassini, Francesca Menchini, Adele Chiaravalloti,
Mauro Schiavone and Monica Varano
Invest Ophthalmol Vis Sci. 2010 Sep; 51(9):4788-91. Epub 2010 Apr 30

Performance of OCT segmentation procedures to assess morphology and extension in geographic Atrophy
Christopher Schütze, Christian Ahlers, Stefan Sacu, Georgios Mylonas, Ramzi Sayegh, Isabelle Golbaz, Gerlinde Matt, Géraldine Stock, Ursula Schmidt-Erfurth
Acta Ophthalmol. 2011 May;89(3):235-40.

Artifacts in Automatic Retinal Segmentation Using Different Optical Coherence Tomography Instruments
Giani, Andrea MD; Cigada, Mario MD; Esmaili, Daniel D. MD; Salvetti, Paola MD; Luccarelli, Saverio MD; Marziani, Ermengarda MD; Luiselli, Cristiano MD; Sabella, Pierfilippo MD; Cereda, Matteo MD; Eandi,Chiara MD; Staurenghi, Giovanni MD
Retina. 2010 Apr;30(4):607-16

Accuracy of retinal thickness measurements obtained with Cirrus optical coherence tomography
Keane PA, Mand PS, Liakopoulos S, Walsh AC, Sadda SR.
Br J Ophthalmol. 2009 Nov; 93(11):1461-7. Epub 2009 Jul 1

Comparison Of Retinal Thickness Measurements and segmentation performance of four different spectral and time domain OCT devices in neovascular age-related macular degeneration
G Mylonas, C Ahlers, P Malamos, I Golbaz, G Deak, C Schutze, S Sacu, U Schmidt-Erfurth
Br J Ophthalmol. 2009 Nov;93(11):1453-60. Epub 2009 Jun 10.

Spectral domain optical coherence tomographic imaging of geographic atrophy
Lujan BJ, Rosenfeld PJ, Gregori G, Wang F, Knighton RW, Feuer WJ, Puliafito CA
Ophthalmic Surg Lasers Imaging, 2009 Mar-Apr; 40(2):96-101

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Choroidal Thickness in Normal Eyes Measured Using Cirrus HD Optical Coherence Tomography
Varsha Manjunatha, Mohammad Tahaa, James G. Fujimotob, Jay S. Duker
Am J Ophthalmol. 2010 Sep;150(3):325-329.e1. Epub 2010 Jun 29.

Spectral domain optical coherence tomographic imaging of geographic atrophy.
Lujan BJ, Rosenfeld PJ, Gregori G, Wang F, Knighton RW, Feuer WJ,
Puliafito CA. Ophthalmic Surg Lasers Imaging. 2009 Mar-Apr;40(2):96-101.

Accuracy of retinal thickness measurements obtained with Cirrus optical coherence tomography.
Keane PA, Mand PS, Liakopoulos S, Walsh AC, Sadda SR. Br J Ophthalmol. 2009 Nov;93(11):1461-7. Epub 2009 Jul 1.

Assessment of artifacts and reproducibility across spectral- and time-domain optical coherence tomography devices.
Ho J, Sull AC, Vuong LN, Chen Y, Liu J, Fujimoto JG, Schuman JS, Duker JS.
Ophthalmology. 2009 Oct;116(10):1960-70. Epub 2009 Jul 9.

Quality of the Threshold Algorithm in Age-Related Macular Degeneration: Stratus versus Cirrus OCT
Ilse Krebs, Christiane Falkner-Radler, Stefan Hagen, Paulina Haas, Werner Brannath, Shilla Lie, Siamak Ansari-Shahrezaei and Susanne Binder
Invest. Ophthalmol. Vis. Sci. March 2009 vol. 50 no. 3 995-1000

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Glaucoma

Glaucoma diagnostic accuracy of ganglion cell-inner plexiform layer thickness: comparison with nerve fiber layer and optic nerve head
Mwanza JC, Durbin MK, Budenz DL, Sayyad FE, Chang RT, Neelakantan A, Godfrey DG, Carter R, Crandall AS
Ophthalmology. 2012 Jun; 119(6):1151-8. Epub 2012 Feb 23

Measurement of Optic Disc Size and Rim Area with Spectral-Domain OCT and Scanning Laser Ophthalmoscopy
Moghimi S, Hosseini H, Riddle J, Lee GY, Bitrian E, Giaconi J, Caprioli J, Nouri-Mahdavi K.Invest Ophthalmol Vis Sci. 2012 Jul 9;53(8):4519-30.

Glaucoma diagnostic ability of quadrant and clock-hour neuroretinal rim assessment using cirrus HD optical coherence tomography
Young Hoon Hwang, Yong Yeon Kim
Invest Ophthalmol Vis Sci. 2012 Apr 24;53(4):2226-34. Print 2012 Apr

Progression detection capability of macular thickness in advanced glaucomatous eyes
Sung KR, Sun JH, Na JH, Lee JY, Lee Y.
Ophthalmology. 2012 Feb;119(2):308-13. Epub 2011 Dec 17.

Macular Ganglion Cell – Inner Plexiform Layer: Automated Detection and Thickness Reproducibility with Spectral Domain-Optical Coherence Tomography
Mwanza JC, Oakley JD, Budenz DL, Chang RT, Knight OJ, Feuer WJ
Invest Ophthalmol Vis Sci. 2011 Oct 21; 52(11):8323-9. Print 2011

Profile and Predictors of Normal Ganglion Ceill-Inner Plexiform Layer Thickness Measured with Frequency-Domain Optical Coherence Tomography
Mwanza JC, Durbin MK, Budenz DL, Girkin CA, Leung CK, Liebmann JM, Peace JH, Werner JS, Wollstein G; Cirrus OCT Normative Database Study Group
Invest Ophthalmol Vis Sci. 2011 Oct 4; 52(11):7872-9. Print 2011 Oct

Repeatability of optic nerve head parameters measured by spectral-domain OCT in healthy eyes
Savini G, Carbonelli M, Parisi V, Barboni P
Ophthalmic Surg Lasers Imaging. 2011 May-Jun;42(3):209-15. doi: 10.3928/15428877-20110224-02. Epub 2011 Mar 3

Ability of cirrus HD-OCT optic nerve head parameters to discriminate normal from glaucomatous eyes
Mwanza JC, Oakley JD, Budenz DL, Anderson DR; Cirrus Optical Coherence Tomography Normative Database Study Group
Ophthalmology. 2011 Feb; 118(2):241-8.e1. Epub 2010 Oct 28

Retinal Nerve Fiber Layer Imaging with Spectral-Domain Optical Coherence Tomography Pattern of RNFL Defects in Glaucoma
Leung CK, Choi N, Weinreb RN, Liu S, Ye C, Liu L, Lai GW, Lau J, Lam DS
Ophthalmology, 2010 Dec;117(12):2337-44. Epub 2010 Aug 3.

Reproducibility of peripapillary retinal nerve fiber layer thickness and optic nerve head parameters measured with cirrus HD-OCT in glaucomatous eyes
Mwanza JC, Chang RT, Budenz DL, Durbin MK, Gendy MG, Shi W, Feuer WJ
Invest Ophthalmol Vis Sci. 2010 Nov; 51(11):5724-30. Epub 2010 Jun 23

Ability of Cirrus HD-OCT Optic Nerve Head Parameters to Discriminate Normal from Glaucomatous Eyes
Jean-Claude Mwanza, MD, PhD, Jonathan D. Oakley, PhD, Donald L. Budenz, MD, MPH, Douglas R. Anderson, MD, Cirrus Optical Coherence Tomography Normative Database Study Group
Ophthalmology, 2011 Feb;118(2):241-8.e1. Epub 2010 Oct 28.

Retinal nerve fiber layer imaging with spectral-domain optical coherence tomography: analysis of the retinal nerve fiber layer map for glaucoma detection
Leung CK, Lam S, Weinreb RN, Liu S, Ye C, Liu L, He J, Lai GW, Li T, Lam DS
Ophthalmology, 2010 Sep; 117(9):1684-91. Epub 2010 Jul 21

Reproducibility of Peripapillary Retinal Nerve Fiber Layer Thickness and Optic Nerve Head Parameters Measured with CirrusTM HD-OCT in Glaucomatous Eyes
Jean C Mwanza, Robert T Chang, Donald L Budenz, Mary K Durbin, Mohamed G Gendy, Wei Shi and William J Feuer
IOVS, 2010 Nov;51(11):5724-30. Epub 2010 Jun 23.

Retinal Nerve Fiber Layer Imaging with Spectral-Domain Optical Coherence Tomography: A Variability and Diagnostic Performance Study
Christopher Kai-shun Leung, MD, MBChB, Carol Yim-lui Cheung, PhD, Robert N. Weinreb, MD,Quanliang Qiu, BM,Shu Liu, MSc, Haitao Li, PhD, Guihua Xu, BM, Ning Fan, BM, Lina Huang, MD, Chi-Pui Pang, DPhil, Dennis Shun Chiu Lam, MD, FRCOphth
Ophthalmology 2009 Jul;116(7):1257-63, 1263.e1-2. Epub 2009 May 22.

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Comparison of Retinal Nerve Fiber Layer Measurements Using Time Domain and Spectral Domain Optical Coherent Tomography
O'Rese J. Knight, BS, Robert T. Chang, MD, William J. Feuer, MS, and Donald L. Budenz, MD, MPH
Ophthalmology. 2009 July ; 116(7): 1271–1277. doi:10.1016/j.ophtha.2008.12.032. Epub 2009 Apr 22.

Retinal Nerve Fiber Layer Imaging with Spectral-Domain Optical Coherence Tomograph: A Variability and Diagnostic Performance Study
Christopher Kai-shun Leung, MD, MBChB, Carol Yim-lui Cheung, PhD, Robert N. Weinreb, MD,Quanliang Qiu, BM,Shu Liu, MSc, Haitao Li, PhD, Guihua Xu, BM, Ning Fan, BM, Lina Huang, MD, Chi-Pui Pang, DPhil, Dennis Shun Chiu Lam, MD, FRCOphth
Ophthalmology 2009;116:1257–1263. Epub 2009 May 22.

Agreement between spectral-domain and time-domain OCT for measuring RNFL thickness
Vizzeri G, Weinreb RN, Gonzalez-Garcia AO, Bowd C, Medeiros F, Sample PA, Zangwill LM:
Br. J. Ophthalmol., 2009; 93:775-781.

Comparison of retinal nerve fiber layer thickness measured by Cirrus HD and Stratus optical coherence tomography.
Sung KR, Kim DY, Park SB, Kook MS.
Ophthalmology. 2009 Jul;116(7):1264-70, 1270.e1. Epub 2009 May 8.

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NOW Available – OCT Data and Fundus Image Review Package!

Just released, CIRRUS HD-OCT Software version 7.0, brings the power of the entire CIRRUS™ family analysis to the exam lane.

Convenient Diagnosis
Allows detailed analysis of data in your office, patient exam lane or research center

Facilitates patient education by bringing clinical displays into a convenient location

Enables data access on multiple review stations

Ganglion cell Analysis

Ganglion cell Analysis

Combined Analysis
Supports combined analysis of your CIRRUS HD-OCT and CIRRUS photo data for workflow flexibility with change and progression analysis, such as Ganglion cell Analysis and Advanced RPE


System requirements

OCT + Fundus Images At-a-glance

OCT + Fundus Images At-a-glance

OCT + Fundus Images At-a-glance

Featuring a modular design, CIRRUS photo lets you individually choose the diagnostic modalities and clinical insights best suited for your practice needs – whether OCT, color and red-free fundus imaging, fundus autofluorescence, fluorescein angiography, ICG angiography, and anterior segment.

Enhance your clinical analysis options with the ZEISS FORUM® Eye Care Data Management

The FORUM Archive & Viewer eye care data management system streamlines practice workflow by providing access to all patient examinations – both locally and remotely. It facilitates assessments with case-specific clinical applications.

Take, for example, the new FORUM Glaucoma Workplace, which automatically prepares relevant information from the HFA™ II-i. With FORUM, data from the HFA and CIRRUS HD-OCT are presented in one combined report – both structure and function data.

Learn more

Product and Software News

Product and Software News

Now available - CIRRUS HD-OCT software 7.0!

Bring the power of CIRRUS Review to your exam lane. View OCT and fundus images from your CIRRUS OCT and CIRRUS photo simultaneously for expanded insight into your data.

click here to learn more - Goes to Datasheet

Third Party Software and Hardware

The following hardware and software is compatible with the CIRRUS™ HD-OCT.

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Virus Scanning

The CIRRUS Version 6.x Software has been tested with Microsoft® Security Essentials, but anti-virus software does not come pre-installed. When installing your anti-virus software per the manufacturer's recommendations, configure it so it does not scan automatically, as this may interrupt the operation of the CIRRUS instrument or your review station.

Virus scans and virus definition updates must be lauched manually or scheduled to run when patient data acquisitions are not actively being performed on the CIRRUS instrument.

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Operating Systems

The CIRRUS Review Software is compatible with Windows® XP, Windows 7, SP1 (32 and 64-bit).

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Compatible Printers
  • EPSON WorkForce 60
  • HP 6980
  • Brother HL-2700CN
  • HP 6988
  • HP 6000

Restrictions (see notes): 4, 5, 6, 7 & 8.

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Network Switches

Generic

  • Interface speed: 10/100/1000 Mb/s
  • Interface connectors: RJ-45
  • Cable detection: MDI/MDI-X (automatic straight-through or crossover cable detection)
  • Supported standards: IEEE 802.3, 802.3u, 802.3ab, and 802.3x
    Restrictions (see notes): 1, 2, 4, 5, 6 & 7

 

Network Attached Storage

  • NAS Drive
    Restrictions (see notes): 1, 2, 4, 5, 6 & 7.


Other External Devices

  • External DVD-RAM Drive
    Restrictions (see notes): 1, 2, 4, 5 & 7
  • USB Hub
    Restrictions (see notes): 1, 2 & 3.
  • USB (Key Type) Storage Device
    Restrictions (see notes): 1, 2 & 3.

Restriction notes

  1. Device must be CE-Marked for use in EU.
  2. Device must have Nationally Recognized Testing Laboratory (NRTL) and FCC approvals for use in US.
  3. Device must be powered from USB port only.
  4. Device must be outside the patient environment (at least 1.5 meters away), unless used with an isolation transformer. Note: The power provided by the CIRRUS is provided through an isolation transformer satisfying this requirement
  5. Do not use with an extension cord or power strip.
  6. Use unshielded network cables (UTP) only.
  7. Do not share the same wall outlet with the CIRRUS HD-OCT.
  8. Contact Carl Zeiss Meditec for compatible printer driver version(s).

Ancillary Products & Services

Pfeil

CIRRUS Review Software Launcher Guide

Have you ever wanted to access CIRRUS Review Software directly from your Electronic Medical Record (EMR) software or Image Management System? Now you can when your third-party software vendor implements the CIRRUS Review Software Launcher API (Application Programming Interface) described in this guide. Once implemented, you can launch CIRRUS Review Software with patient context directly from your third-party application.

CIRRUS Review Software Launcher Guide


Note: The CIRRUS Review Software Launcher Guide is intended for third-party software designers and implementers who are knowledgeable in implementing command line interface utilities. Limited support may be provided by Carl Zeiss Meditec.


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CIRRUS HD-OCT 5000 with FastTrac

Type of file: mp4
Filesize: 12.9 MB


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Meet the New CIRRUS family

Type of file: mp4
Filesize: 18.7 MB


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21st Century Glaucoma Management

Type of file: mp4
Filesize: 12.4 MB

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CIRRUS HD-OCT

Certainty at the speed of CIRRUS

Page(s): 14
File size: 2,981 kB
Revision

CIRRUS™ HD-OCT 5000 and 500

Technical Specifications

Page(s): 2
File size: 866 kB
Revision

CIRRUS HD-OCT Software Version 6.5

New CIRRUS software puts your practice into the fast lane

Page(s): 2
File size: 864 kB
Revision

CIRRUS HD-OCT

Bring The Power of CIRRUS to Your Practice
Review Software

Page(s): 1
File size: 4,413 kB
Revision

CIRRUS HD-OCT

How to read the Cirrus reports

Page(s): 1
File size: 1,946 kB
Revision

CIRRUS HD-OCT Scan Acquisition

Quick Reference Guide Models 4000 and 5000

Page(s): 2
File size: 10,814 kB
Revision

CIRRUS HD-OCT Scan Acquisition

Quick Reference Guide Model 500

Page(s): 2
File size: 15,183 kB
Revision

CIRRUS HD-OCT

Interpretation of retinal layers

Page(s): 1
File size: 259 kB
Revision

Exploring the Eye With CIRRUS HD-OCT

Wall poster

Page(s): 1
File size: 801 kB
Revision