HRT Glaucoma Module

A Powerful Predictor of Change

• Validated by OHTS to predict structural change
• Progression analysis validated with 10 year’s of patient data
• Optic disc analysis outperforms expert interpretation
• Large, ethnic-selectable databases
• Asymmetry analysis
• Upgradeable platform
• Network ready

The Heidelberg Retina Tomograph (HRT) is a proven, essential tool for detecting and managing glaucoma, especially for assisting in the identification of pre-perimetric disease and tracking progression. The Ancillary Study to the Ocular Hypertension Treatment Study (OHTS) demonstrated that optic disc analysis detected glaucoma conversion in 55% of cases, before any detectable loss of visual function. The HRT has proved to be a robust predictor of glaucoma. OHTS also concluded that the HRT recognized temporal superior defects which later developed into confirmed glaucoma in 40% of cases - looking only at baseline measurements - then confirmed the diagnosis with an average of 5 years of follow-up. Equally impressive was that 93% of all HRT cases flagged as within normal limits at baseline remained within normal limits during the same time period.

                             Figure A

The Ancillary Study to the Ocular Hypertension Treatment Study (OHTS) demonstrated that the HRT could outperform visual fields and expert opinion in predicting structural change in glaucoma.

                                                     Figure B

The Moorfields Regression Analysis (MRA) has remained a robust indicator of structural change over 15 years and more than 400 clinical papers.

24 ms Scanning and TruTrack™ Image Alignment

The recent discovery of hidden artifacts within time-domain OCT scans may explain why time-domain OCT performed so poorly in a separate, but similar study, where baseline predictive values for corneal thickness outperformed OCT with an average of 5 years of follow-up.

One explanation for the difference in glaucoma predictive power is the HRT’s incredible scan speed. Single tomographic slices are captured in just 24 milliseconds (compared to the fastest time-domain OCT slices captured at 368 milliseconds). Since constant involuntary eye movements occur within 30 - 50 milliseconds, and larger movements due to fixation problems can be 150 milliseconds or greater, time-domain OCT may be highly susceptible to motion artifact.

HRT combines the advantage of speed with the power of Heidelberg Engineering’s TruTrack™ image alignment software to deliver unmatched performance and clinical utility. TruTrack™ works in the background, tracking over 500 points on each image, enabling follow-up scans to be precisely aligned to baseline for detecting small changes reliably.

                             Figure C

The first long-term results using time-domain OCT showed that pachymetry may be a better predictor of glaucoma. Stereo fundus photos had a higher predictive value than either OCT or corneal thickness.

Time-domain OCT cannot track location due to slow scan time and the impact of motion artifact.

HRT Retina Module

Front Line Evaluation of Macular Health

• Simple, early detection of subtle edema
• Retinal thickness mapping in 3-D
• Precise detection of change with TruTrack™ image alignment
• No interpolated data, less chance of missing pathology
• “Show and tell” for patient education
• Modular platform to add more capabilities later
• Network ready

The aging population and rise in obesity are driving increased incidents of both age-related macular degeneration and diabetic retinopathy. The HRT Retina Module enables a fast, simple method of evaluating macular health without interpolating the data.

Retinal Edema Index

The Edema Index is a fast, easy method of detecting suspicious retinal areas that may not be readily apparent to the clinician even under careful contact lens examination. The HRT is designed to image retinal changes caused by minor accumulations of fluid. These changes often do not meet the definition of clinically significant macular edema, but may signal future problems. This information can be used to determine if patients should be followed more frequently. Edema Index Images

Age-related Macular Degeneration (AMD)	Diabetic Macular Degeneration (DME)	Cystoid Macular Edema (CME)	Macular Hole

Retinal Thickness

The retinal thickness measurements of the HRT Retina Module create a complete map of the scanned area without interpolating data. Compared to the Edema Index, Retinal Thickness maps may be more useful for tracking disease changes as therapy continues. The 3-D maps are helpful for showing and explaining retinal abnormalities to the patient. Retina Thickness 3-D Map Images

Age-related Macular Degeneration (AMD)	Diabetic Macular Degeneration (DME)	Cystoid Macular Edema (CME)	Macular Hole

Reflectance Map

The reflectance image is an additional tool on the HRT which helps to reveal retinal abnormalities. The reflectance image captures differences in the surface appearance of the retina and enables interpretation of both the Edema Index and the Retinal Thickness maps. Reflectance Map Images

Age-related Macular Degeneration (AMD)	Diabetic Macular Degeneration (DME)	Cystoid Macular Edema (CME)	Macular Hole