Use of sequential Heidelberg retina tomograph images to identify changes at the optic disc in ocular hypertensive patients at risk of developing glaucoma

AIM To determine if global and segmental changes in optic disc parameters of sequential Heidelberg retina tomograph (HRT) images develop in individual ocular hypertensive (OHT) patients without white on white visual field defects. METHODS Patients and normal controls were recruited from a prospective ocular hypertension treatment trial. The subject groups consisted of 21 OHT patients who had converted to early glaucoma on the basis of visual field criteria (24-2 program on the Humphrey perimeter), 164 OHT subjects with normal visual fields, and 21 normal controls. Sequential HRT images 16–21 months apart were obtained for each subject and segmental optic disc parameters were measured to determine if any change had occurred. From the analysis of sequential HRT images of the 21 normal eyes we established normal limits of interimage variation. Individual discs in each group showing changes above the 95% limit of normal variability were then sought. RESULTS Several segmental and global optic disc parameters were found to show significant change in the converter group before confirmed visual field change, confirming our previously published results. Individual optic disc analysis using the 95% limit of normal variability data demonstrated glaucomatous change in 13 out of 21 converter eyes. 47 of the 164 OHT eyes with normal visual fields showed change in global and segmental parameters in a “glaucomatous” direction above the level expected for normal variability. The parameters which changed most frequently in the OHT eyes were: global cup volume (6.7% of discs), inferonasal cup volume (11%), inferotemporal cup volume (8.5%), and superotemporal cup area (7.3%). CONCLUSIONS We have identified change in a subset of ocular hypertensive patients which could predate the development of glaucomatous visual field loss. The HRT could be of value in the sequential follow up of those suspected of having glaucoma by identifying eyes at risk of developing glaucoma. However, further refinement of the technique is required to eliminate some of the inherent variability of the analysis method described, and to increase the ability to detect at risk individuals.

[1]  W. Green,et al.  Optic nerve damage in human glaucoma. III. Quantitative correlation of nerve fiber loss and visual field defect in glaucoma, ischemic neuropathy, papilledema, and toxic neuropathy. , 1982, Archives of ophthalmology.

[2]  A. Sommer,et al.  Reliability of visual field results over repeated testing. , 1991, Ophthalmology.

[3]  C. Johnson,et al.  A prospective three-year study of response properties of normal subjects and patients during automated perimetry. , 1993, Ophthalmology.

[4]  B C Chauhan,et al.  Test-retest variability of topographic measurements with confocal scanning laser tomography in patients with glaucoma and control subjects. , 1994, American journal of ophthalmology.

[5]  J. Caprioli Correlation of visual function with optic nerve and nerve fiber layer structure in glaucoma. , 1989, Survey of ophthalmology.

[6]  J Caprioli,et al.  Long-term fluctuation of the visual field in glaucoma. , 1992, American journal of ophthalmology.

[7]  J Caprioli,et al.  Progression of disc and field damage in early glaucoma. , 1993, Archives of ophthalmology.

[8]  N. Swindale,et al.  Ability of the Heidelberg Retina Tomograph to Detect Early Glaucomatous Visual Field Loss , 1995, Journal of glaucoma.

[9]  M Schulzer,et al.  Errors in the diagnosis of visual field progression in normal-tension glaucoma. , 1994, Ophthalmology.

[10]  P J Airaksinen,et al.  Initial glaucomatous optic disk and retinal nerve fiber layer abnormalities and their progression. , 1991, American journal of ophthalmology.

[11]  G. Wollstein,et al.  Identification of early glaucoma cases with the scanning laser ophthalmoscope. , 1998, Ophthalmology.

[12]  S. Drance,et al.  Correlation Between the Visual Field Indices and Heidelberg Retina Tomograph Parameters , 1997, Journal of glaucoma.

[13]  I. Scott,et al.  Expert agreement in evaluating the optic disc for glaucoma. , 1992, Ophthalmology.

[14]  T Zeyen,et al.  Comparison of methods to evaluate the optic nerve head and nerve fiber layer for glaucomatous change. , 1996, American journal of ophthalmology.

[15]  J. Caprioli,et al.  Detection of structural damage from glaucoma with confocal laser image analysis. , 1996, Investigative ophthalmology & visual science.

[16]  G A Cioffi,et al.  Confocal laser scanning ophthalmoscope. Reproducibility of optic nerve head topographic measurements with the confocal laser scanning ophthalmoscope. , 1993, Ophthalmology.

[17]  R A Hitchings,et al.  Quantitative evaluation of the optic nerve head in early glaucoma , 1998, The British journal of ophthalmology.

[18]  S. Drance,et al.  The effect of optic disc size on diagnostic precision with the Heidelberg retina tomograph. , 1997, Ophthalmology (Rochester, Minn.).

[19]  P A Sample,et al.  Optic nerve head topography in ocular hypertensive eyes using confocal scanning laser ophthalmoscopy. , 1996, American journal of ophthalmology.

[20]  G. Wollstein,et al.  Inter- and intraobserver variation in the analysis of optic disc images: comparison of the Heidelberg retina tomograph and computer assisted planimetry , 1999, The British journal of ophthalmology.

[21]  A. Sommer,et al.  Intraobserver and interobserver agreement in measurement of optic disc characteristics. , 1988, Ophthalmology.

[22]  A C Viswanathan,et al.  Detection of optic disc change with the Heidelberg retina tomograph before confirmed visual field change in ocular hypertensives converting to early glaucoma , 1999, The British journal of ophthalmology.

[23]  E. Etchells,et al.  Laser scanning tomography of the optic nerve head in ocular hypertension and glaucoma , 1997, The British journal of ophthalmology.

[24]  K Rohrschneider,et al.  Reproducibility of the optic nerve head topography with a new laser tomographic scanning device. , 1994, Ophthalmology.

[25]  A E Maumenee,et al.  Optic disc parameters and onset of glaucomatous field loss. I. Methods and progressive changes in disc morphology. , 1979, Archives of ophthalmology.

[26]  D. R. Anderson,et al.  The mode of progressive disc cupping in ocular hypertension and glaucoma. , 1980, Archives of ophthalmology.

[27]  P. Lichter Variability of expert observers in evaluating the optic disc. , 1976, Transactions of the American Ophthalmological Society.