Scanning Laser Polarimetry Using Variable Corneal Compensation in the Detection of Glaucoma with Localized Visual Field Defects
To evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield. Prospective case–control study. Seventy glaucomatous eyes with localize...
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| Published in | Ophthalmology (Rochester, Minn.) Vol. 112; no. 11; pp. 1970 - 1978 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
Elsevier Inc
01.11.2005
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0161-6420 1549-4713 1549-4713 |
| DOI | 10.1016/j.ophtha.2005.06.023 |
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| Abstract | To evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield.
Prospective case–control study.
Seventy glaucomatous eyes with localized VF defects and 66 normal controls.
A Humphrey field analyzer 24-2 full-threshold test and scanning laser polarimetry with variable corneal compensation were used.
We assessed the sensitivity and specificity of scanning laser polarimetry parameters, sensitivity and cutoff values for scanning laser polarimetry deviation map algorithms at different specificity values (80%, 90%, and 95%) in the detection of glaucoma, and correlations between the algorithms of scanning laser polarimetry and of the pattern deviation derived from Humphrey field analyzer testing.
There were significant differences between the glaucoma group and normal subjects in the mean parametric values of the temporal, superior, nasal, inferior, temporal (TSNIT) average, superior average, inferior average, and TSNIT standard deviation (SD) (
P<0.05). The sensitivity and specificity of each scanning laser polarimetry variable was as follows: TSNIT, 44.3% (95% confidence interval [CI], 39.8%–49.8%) and 100% (95.4%–100%); superior average, 30% (25.5%–34.5%) and 97% (93.5%–100%); inferior average, 45.7% (42.2%–49.2%) and 100% (95.8%–100%); and TSNIT SD, 30% (25.9%–34.1%) and 97% (93.2%–100%), respectively (when abnormal was defined as
P<0.05). Based on nerve fiber indicator cutoff values of ≥30 and ≥51 to indicate glaucoma, sensitivities were 54.3% (50.1%–58.5%) and 10% (6.4%–13.6%), and specificities were 97% (93.2%–100%) and 100% (95.8%–100%), respectively. The range of areas under the receiver operating characteristic curves using the scanning laser polarimetry deviation map algorithm was 0.790 to 0.879. Overall sensitivities combining each probability scale and severity score at 80%, 90%, and 95% specificities were 90.0% (95% CI, 86.4%–93.6%), 71.4% (67.4%–75.4%), and 60.0% (56.2%–63.8%), respectively. There was a statistically significant correlation between the scanning laser polarimetry severity score and the VF severity score (
R
2 = 0.360,
P<0.001).
Scanning laser polarimetry parameters may not be sufficiently sensitive to detect glaucomatous patients with localized VF damage. Our algorithm using the scanning laser polarimetry deviation map may enhance the understanding of scanning laser polarimetry printouts in terms of the locality, deviation size, and severity of localized retinal nerve fiber layer defects in eyes with localized VF loss. |
|---|---|
| AbstractList | To evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield.PURPOSETo evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield.Prospective case-control study.DESIGNProspective case-control study.Seventy glaucomatous eyes with localized VF defects and 66 normal controls.PARTICIPANTSSeventy glaucomatous eyes with localized VF defects and 66 normal controls.A Humphrey field analyzer 24-2 full-threshold test and scanning laser polarimetry with variable corneal compensation were used.METHODSA Humphrey field analyzer 24-2 full-threshold test and scanning laser polarimetry with variable corneal compensation were used.We assessed the sensitivity and specificity of scanning laser polarimetry parameters, sensitivity and cutoff values for scanning laser polarimetry deviation map algorithms at different specificity values (80%, 90%, and 95%) in the detection of glaucoma, and correlations between the algorithms of scanning laser polarimetry and of the pattern deviation derived from Humphrey field analyzer testing.MAIN OUTCOME MEASURESWe assessed the sensitivity and specificity of scanning laser polarimetry parameters, sensitivity and cutoff values for scanning laser polarimetry deviation map algorithms at different specificity values (80%, 90%, and 95%) in the detection of glaucoma, and correlations between the algorithms of scanning laser polarimetry and of the pattern deviation derived from Humphrey field analyzer testing.There were significant differences between the glaucoma group and normal subjects in the mean parametric values of the temporal, superior, nasal, inferior, temporal (TSNIT) average, superior average, inferior average, and TSNIT standard deviation (SD) (P<0.05). The sensitivity and specificity of each scanning laser polarimetry variable was as follows: TSNIT, 44.3% (95% confidence interval [CI], 39.8%-49.8%) and 100% (95.4%-100%); superior average, 30% (25.5%-34.5%) and 97% (93.5%-100%); inferior average, 45.7% (42.2%-49.2%) and 100% (95.8%-100%); and TSNIT SD, 30% (25.9%-34.1%) and 97% (93.2%-100%), respectively (when abnormal was defined as P<0.05). Based on nerve fiber indicator cutoff values of > or =30 and > or =51 to indicate glaucoma, sensitivities were 54.3% (50.1%-58.5%) and 10% (6.4%-13.6%), and specificities were 97% (93.2%-100%) and 100% (95.8%-100%), respectively. The range of areas under the receiver operating characteristic curves using the scanning laser polarimetry deviation map algorithm was 0.790 to 0.879. Overall sensitivities combining each probability scale and severity score at 80%, 90%, and 95% specificities were 90.0% (95% CI, 86.4%-93.6%), 71.4% (67.4%-75.4%), and 60.0% (56.2%-63.8%), respectively. There was a statistically significant correlation between the scanning laser polarimetry severity score and the VF severity score (R2 = 0.360, P<0.001).RESULTSThere were significant differences between the glaucoma group and normal subjects in the mean parametric values of the temporal, superior, nasal, inferior, temporal (TSNIT) average, superior average, inferior average, and TSNIT standard deviation (SD) (P<0.05). The sensitivity and specificity of each scanning laser polarimetry variable was as follows: TSNIT, 44.3% (95% confidence interval [CI], 39.8%-49.8%) and 100% (95.4%-100%); superior average, 30% (25.5%-34.5%) and 97% (93.5%-100%); inferior average, 45.7% (42.2%-49.2%) and 100% (95.8%-100%); and TSNIT SD, 30% (25.9%-34.1%) and 97% (93.2%-100%), respectively (when abnormal was defined as P<0.05). Based on nerve fiber indicator cutoff values of > or =30 and > or =51 to indicate glaucoma, sensitivities were 54.3% (50.1%-58.5%) and 10% (6.4%-13.6%), and specificities were 97% (93.2%-100%) and 100% (95.8%-100%), respectively. The range of areas under the receiver operating characteristic curves using the scanning laser polarimetry deviation map algorithm was 0.790 to 0.879. Overall sensitivities combining each probability scale and severity score at 80%, 90%, and 95% specificities were 90.0% (95% CI, 86.4%-93.6%), 71.4% (67.4%-75.4%), and 60.0% (56.2%-63.8%), respectively. There was a statistically significant correlation between the scanning laser polarimetry severity score and the VF severity score (R2 = 0.360, P<0.001).Scanning laser polarimetry parameters may not be sufficiently sensitive to detect glaucomatous patients with localized VF damage. Our algorithm using the scanning laser polarimetry deviation map may enhance the understanding of scanning laser polarimetry printouts in terms of the locality, deviation size, and severity of localized retinal nerve fiber layer defects in eyes with localized VF loss.CONCLUSIONSScanning laser polarimetry parameters may not be sufficiently sensitive to detect glaucomatous patients with localized VF damage. Our algorithm using the scanning laser polarimetry deviation map may enhance the understanding of scanning laser polarimetry printouts in terms of the locality, deviation size, and severity of localized retinal nerve fiber layer defects in eyes with localized VF loss. To evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield. Prospective case-control study. Seventy glaucomatous eyes with localized VF defects and 66 normal controls. A Humphrey field analyzer 24-2 full-threshold test and scanning laser polarimetry with variable corneal compensation were used. We assessed the sensitivity and specificity of scanning laser polarimetry parameters, sensitivity and cutoff values for scanning laser polarimetry deviation map algorithms at different specificity values (80%, 90%, and 95%) in the detection of glaucoma, and correlations between the algorithms of scanning laser polarimetry and of the pattern deviation derived from Humphrey field analyzer testing. There were significant differences between the glaucoma group and normal subjects in the mean parametric values of the temporal, superior, nasal, inferior, temporal (TSNIT) average, superior average, inferior average, and TSNIT standard deviation (SD) (P<0.05). The sensitivity and specificity of each scanning laser polarimetry variable was as follows: TSNIT, 44.3% (95% confidence interval [CI], 39.8%-49.8%) and 100% (95.4%-100%); superior average, 30% (25.5%-34.5%) and 97% (93.5%-100%); inferior average, 45.7% (42.2%-49.2%) and 100% (95.8%-100%); and TSNIT SD, 30% (25.9%-34.1%) and 97% (93.2%-100%), respectively (when abnormal was defined as P<0.05). Based on nerve fiber indicator cutoff values of > or =30 and > or =51 to indicate glaucoma, sensitivities were 54.3% (50.1%-58.5%) and 10% (6.4%-13.6%), and specificities were 97% (93.2%-100%) and 100% (95.8%-100%), respectively. The range of areas under the receiver operating characteristic curves using the scanning laser polarimetry deviation map algorithm was 0.790 to 0.879. Overall sensitivities combining each probability scale and severity score at 80%, 90%, and 95% specificities were 90.0% (95% CI, 86.4%-93.6%), 71.4% (67.4%-75.4%), and 60.0% (56.2%-63.8%), respectively. There was a statistically significant correlation between the scanning laser polarimetry severity score and the VF severity score (R2 = 0.360, P<0.001). Scanning laser polarimetry parameters may not be sufficiently sensitive to detect glaucomatous patients with localized VF damage. Our algorithm using the scanning laser polarimetry deviation map may enhance the understanding of scanning laser polarimetry printouts in terms of the locality, deviation size, and severity of localized retinal nerve fiber layer defects in eyes with localized VF loss. To evaluate the ability of scanning laser polarimetry parameters and a novel deviation map algorithm to discriminate between healthy and early glaucomatous eyes with localized visual field (VF) defects confined to one hemifield. Prospective case–control study. Seventy glaucomatous eyes with localized VF defects and 66 normal controls. A Humphrey field analyzer 24-2 full-threshold test and scanning laser polarimetry with variable corneal compensation were used. We assessed the sensitivity and specificity of scanning laser polarimetry parameters, sensitivity and cutoff values for scanning laser polarimetry deviation map algorithms at different specificity values (80%, 90%, and 95%) in the detection of glaucoma, and correlations between the algorithms of scanning laser polarimetry and of the pattern deviation derived from Humphrey field analyzer testing. There were significant differences between the glaucoma group and normal subjects in the mean parametric values of the temporal, superior, nasal, inferior, temporal (TSNIT) average, superior average, inferior average, and TSNIT standard deviation (SD) ( P<0.05). The sensitivity and specificity of each scanning laser polarimetry variable was as follows: TSNIT, 44.3% (95% confidence interval [CI], 39.8%–49.8%) and 100% (95.4%–100%); superior average, 30% (25.5%–34.5%) and 97% (93.5%–100%); inferior average, 45.7% (42.2%–49.2%) and 100% (95.8%–100%); and TSNIT SD, 30% (25.9%–34.1%) and 97% (93.2%–100%), respectively (when abnormal was defined as P<0.05). Based on nerve fiber indicator cutoff values of ≥30 and ≥51 to indicate glaucoma, sensitivities were 54.3% (50.1%–58.5%) and 10% (6.4%–13.6%), and specificities were 97% (93.2%–100%) and 100% (95.8%–100%), respectively. The range of areas under the receiver operating characteristic curves using the scanning laser polarimetry deviation map algorithm was 0.790 to 0.879. Overall sensitivities combining each probability scale and severity score at 80%, 90%, and 95% specificities were 90.0% (95% CI, 86.4%–93.6%), 71.4% (67.4%–75.4%), and 60.0% (56.2%–63.8%), respectively. There was a statistically significant correlation between the scanning laser polarimetry severity score and the VF severity score ( R 2 = 0.360, P<0.001). Scanning laser polarimetry parameters may not be sufficiently sensitive to detect glaucomatous patients with localized VF damage. Our algorithm using the scanning laser polarimetry deviation map may enhance the understanding of scanning laser polarimetry printouts in terms of the locality, deviation size, and severity of localized retinal nerve fiber layer defects in eyes with localized VF loss. |
| Author | Cho, Hyun-soo Choi, Jaewan Seong, Mincheol Kook, Michael S. |
| Author_xml | – sequence: 1 givenname: Michael S. surname: Kook fullname: Kook, Michael S. email: mskook@amc.seoul.kr – sequence: 2 givenname: Hyun-soo surname: Cho fullname: Cho, Hyun-soo – sequence: 3 givenname: Mincheol surname: Seong fullname: Seong, Mincheol – sequence: 4 givenname: Jaewan surname: Choi fullname: Choi, Jaewan |
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| Keywords | Glaucoma Protozoa Cornea Scanning Variable Medical screening Eye disease Visual field disease Glaucoma (eye) Compensation Laser Visual field defect Ciliata Ophthalmology Polarimetry Detection |
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| SubjectTerms | Adult Aged Aged, 80 and over Algorithms Biological and medical sciences Birefringence Case-Control Studies Cornea - physiology Diagnostic Techniques, Ophthalmological Diseases of visual field, optic nerve, optic chiasma and optic tracts False Negative Reactions Female Glaucoma and intraocular pressure Glaucoma, Open-Angle - diagnosis Humans Intraocular Pressure Lasers Male Medical sciences Middle Aged Miscellaneous Nerve Fibers - pathology Ocular Hypertension - diagnosis Ophthalmology Optic Nerve Diseases - diagnosis Predictive Value of Tests Prospective Studies Reproducibility of Results Retinal Ganglion Cells - pathology ROC Curve Sensitivity and Specificity Vision Disorders - diagnosis Visual Fields |
| Title | Scanning Laser Polarimetry Using Variable Corneal Compensation in the Detection of Glaucoma with Localized Visual Field Defects |
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