dc.description.abstract |
Introduction: To determine whether elevation
matrix data of the anterior corneal surface could
be useful for the diagnosis of keratoconus.
Methods: In a cross-sectional study, subjects
aged 10¿40 years with keratoconus (n = 74) or
age-matched controls (n = 36) underwent complete ophthalmological examination, including
Scheimpflug corneal topography (Pentacam
HR). Exclusion criteria comprised previous
ocular surgery, other eye disease, or significant
corneal scarring. A raw data matrix of distance
measurements to the most anterior corneal
point was used to compare each subject with
the mean normal cornea. A central 6-mm zone
(6.1 9 6.1 mm) and two inferior eccentric
matrices (0.4 9 6.1 and 1.1 9 1.1 mm) were
used. Outcome measures were sensitivity,
specificity, positive and negative predictive
value, likelihood ratio, accuracy, and odds ratio.
Results: Sensitivity of central matrix for the
diagnosis of keratoconus was low (6.7%)
whereas specificity reached 94.4%. Sensitivity
and specificity were respectively 93.2% and 94%
for the 6.1 9 0.4 mm eccentric matrix and
97.2% and 97.2% for the 1.1 9 1.1 mm eccentric matrix. Positive predictive and negative
predictive values were 71.4% and 33%, respectively, for the central matrix; 97.1% and 87.1%;
98.6% and 94.5%, for the two eccentric matrices, respectively. The likelihood ratio of a positive test was 1.1, 16.7, and 35, respectively.
Sensitivity and specificity of the eccentric
matrices were significantly better in the diagnosis of subclinical keratoconus (but not definite keratoconus) than other Pentacam indices.
Conclusions: Using eccentric elevation matrix
data analysis of the cornea is useful in the
detection of keratoconus versus normal corneas.
Keywords: Cornea; Elevation data;
Keratoconus; Refractive surgery |
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