PURPOSE
To determine the correlation between the regularity indices of the Tomey TMS-2N computerized videokeratoscopy (CVK) instrument (Tomey, Waltham, MA) with conventional measures of dry eye symptoms and disease.
DESIGN
A retrospective, clinic-based, case-control study.
PARTICIPANTS
A total of 16 eyes of 16 asymptomatic normal subjects and 74 eyes of 74 patients with reports of ocular irritation.
METHODS
Corneal surface regularity and potential visual acuity indices of the Tomey TMS-2N CVK instrument were evaluated in patients with ocular irritation symptoms and in normal subjects.
MAIN OUTCOME MEASURES
The surface regularity index (SRI), surface asymmetry index (SAI), potential visual acuity index (PVA), and irregular astigmatism index (IAI) of the Tomey TMS-2N were compared between normal and dry-eye patients. Severity of dry-eye symptoms was assessed with a validated questionnaire. Schirmer 1 test (without anesthesia), biomicroscopic meibomian gland evaluation with a composite severity score (MGD score), fluorescein tear break-up time (TBUT), and corneal fluorescein staining were performed. The correlations between CVK indices of the Tomey TMS-2N and the symptom severity score, Schirmer 1 test, MGD score, TBUT, and corneal fluorescein staining score were studied.
RESULTS
Dry-eye patients had greater mean symptom severity scores, lower Schirmer 1 test scores, greater MGD scores, more rapid TBUT, and greater total corneal fluorescein staining scores (P < 0.001 for all parameters). The SRI, SAI, and IAI were all significantly greater in dry-eye patients than normal subjects. These were 0.46 +/- 0.36 (normal) versus 1.09 +/- 0.76 (dry) for the SRI (P = 0.0017), 0.30 +/- 0.15 (normal) versus 0.90 +/- 1.09 (dry) for the SAI (P = 0.0321), and 0.42 +/- 0.28 (normal) versus 0.56 +/- 0.24 (dry) for the IAI (P = 0.0321). The PVA index was significantly lower in the dry-eye patients (0.89 +/- 0.13) than normal eyes (0.68 +/- 0.23; P = 0.0008). The SRI, SAI, and IAI were positively correlated with total and central corneal fluorescein staining scores (P < 0.00001 for all indices). An SRI (> or =0.80), SAI (> or =0.50), and IAI (> or =0.50) had sensitivities in predicting total corneal fluorescein staining (score > or = 3) of 89%, 69%, and 82%, respectively. The specificity of these indices was 80%, 78%, and 82%, respectively. In all 90 eyes, the mean SRI was greater in subjects older than 50 years (P = 0.012) compared with younger patients, whereas no age effect was noted in the dry-eye patients. The SRI and PVA index showed better correlation with symptoms of blurred vision than the best-corrected visual acuity.
CONCLUSIONS
Patients with ocular irritation have an irregular corneal surface that may contribute to their irritation and visual symptoms. Because of their high sensitivity and specificity, the regularity indices of the Tomey TMS-2N have the potential to be used as objective diagnostic indices for dry eye, as well as a means to evaluate the severity of this disease.
[1]
S. Klyce,et al.
Gender- and Age-related Differences in Corneal Topography
,
2001,
Cornea.
[2]
S. Pflugfelder,et al.
A standardized visual scale for evaluation of tear fluorescein clearance.
,
2000,
Ophthalmology.
[3]
S. Pflugfelder,et al.
Effects of laser in situ keratomileusis on tear production, clearance, and the ocular surface.
,
2001,
Ophthalmology.
[4]
W. Feuer,et al.
Evaluation of Subjective Assessments and Objective Diagnostic Tests for Diagnosing Tear‐Film Disorders Known to Cause Ocular Irritation
,
1998,
Cornea.
[5]
S D Klyce,et al.
Quantitative descriptors of corneal topography. A clinical study.
,
1991,
Archives of ophthalmology.
[6]
J. Németh,et al.
Corneal topography changes after a 15 second pause in blinking
,
2001,
Journal of cataract and refractive surgery.
[7]
M. Lemp.
Report of the National Eye Institute/Industry workshop on Clinical Trials in Dry Eyes.
,
1995,
The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc.
[8]
S. Pflugfelder,et al.
Corneal surface regularity and the effect of artificial tears in aqueous tear deficiency.
,
1999,
Ophthalmology.
[9]
M. Orhan,et al.
Corneal Topographical Study of the Effect of Lacrimal Punctum Occlusion on Corneal Surface Regularity in Dry Eye Patients
,
2001,
European Journal of Ophthalmology.
[10]
Y. Tano,et al.
Prediction of letter contrast sensitivity using videokeratographic indices.
,
2000,
American journal of ophthalmology.
[11]
S. Tseng,et al.
Correlation of goblet cell density and mucosal epithelial membrane mucin expression with rose bengal staining in patients with ocular irritation.
,
1997,
Ophthalmology.
[12]
Y. Tano,et al.
Comparison of topographic indices that correlate with visual acuity in videokeratography.
,
2000,
Ophthalmology.
[13]
T Tervo,et al.
The effects of experimental tear film removal on corneal surface regularity and barrier function.
,
2000,
Ophthalmology.
[14]
S. Pflugfelder,et al.
The effects of long-term contact lens wear on corneal thickness, curvature, and surface regularity.
,
2000,
Ophthalmology.
[15]
A Macri,et al.
Correlation of the Schirmer 1 and fluorescein clearance tests with the severity of corneal epithelial and eyelid disease.
,
2000,
Archives of ophthalmology.
[16]
B. Reis,et al.
Two multicenter, randomized studies of the efficacy and safety of cyclosporine ophthalmic emulsion in moderate to severe dry eye disease1
,
2000
.