Keratoconus Clinical Trial
Official title:
Literature in Mansoura Ophthalmic Center ,Mansoura University
patients with keratoconus in one eye and forme fruste keratoconus in the fellow eye compared to normal subjects .the patients were examined by schemipflug imaging system (Pentacam)
This cross-sectional study was carried out on patients presenting keratoconus in one eye and
forme fruste keratoconus in the fellow eye; the patients attended the outpatient clinic of
Mansoura ophthalmic center between January 2014 and February 2015. This study was approved by
the institutional research board of the Mansoura faculty of medicine and was performed in
accordance with the ethical standards of the Declaration of Helsinki. All patients included
in the study provided informed consent.
Ocular examinations were performed on all eyes included in the study. Clinical Keratoconus
was diagnosed if all the following criteria were found:1)asymmetric bow tie with skewed
radial axis (SRAX), inferior or central steepening on the topography map, 2)mean keratometry
(K)>47diopters or an inferior-superior (I-S) value >1.4diopters according to the Rabinowitz
and McDonnell criteria[8],and 3)at least one clinical symptom(i.e., stromal thinning, conical
protrusion of corneal apex,Fleischer ring, Vogt striae or anterior stromal scar). Forme
fruste keratoconus was diagnosed if all the following criteria were found: 1) normal
topography, 2) mean K<47D and I-S ≤1.4,3) normal slit lamp, and 4)keratoconus in the fellow
eye.
The eyes with an evident keratoconus diagnosis were included in (Group A)and the fellow eyes
were included in (Group B).Control cases(Group C) were selected from the normal database of
candidates for refractive surgery with the following:1)normal topography, 2)negative rotating
Scheimpflug device indices and negative topographic keratoconus classification, 3)normal slit
lamp examination, and 4)no history of eye disease(only one eye of each normal candidate was
included in the study depending on a computer-based randomizing program).
The exclusion criteria included previous ocular surgery or trauma, significant corneal
scarring or associated ocular pathology.
All eyes were examined by rotating Scheimpflug corneal tomography (Pentacam, Oculus
Optikgerate GmbH).No patients in the study wore contact lenses. During the Scheimpflug
corneal tomography examination, the patient was properly positioned on the chin rest and
forehead strap. The patient was asked to blink several times then open both eyes and stare at
a fixed target. After obtaining proper alignment, the automatic release mode started the
scan; a total of25 single Scheimpflug images were captured within 2 sec for each eye. Three
consecutive scans were taken of each eye by the same examiner. The average of the results of
three acceptable measurements was included in the study. Each eye was required to have a
corneal map with at least 9 mm of corneal coverage and no extrapolated data.
The Pentacam maps were analyzed. The following anterior and posterior corneal surface
parameters were evaluated by the Scheimpflug system: corneal dioptric power at the flattest
meridian in the 3 mm-central zone(K1),corneal dioptric power in the steepest meridian in the
3mm-central zone (K2)and mean corneal power in the 3mm-zone (mean K).
The pachymetric map was analyzed, including the central corneal thickness (CCT) at the apex
of the geometric center and corneal thickness at the thinnest point (CTmin).The average
progression index (PPI avg) was calculated as the progression value at the different rings
referenced to the mean curve. The minimum (PPI min) and maximum (PPI max) progression indices
were recorded. The Ambrósior elational thickness (ART)was calculated as follows:
ARTavg=CTmin/PPIavg,ARTmin = CTmin/PPImin, ARTmax =CTmin/PPImax[9].
The posterior corneal elevation maps were evaluated; a reference best fit sphere was
calculated at a fixed optical zone of 8 mm, and the posterior corneal elevation values
relative to this reference were recorded. The back difference elevation and multimetric D
index values were extrapolated from the difference map of the Belin/Ambrósio-enhanced ectasia
display of the Pentacam system.
Contrast and Glare sensitivity test:
The contract and glare tests were carried out with a Mesotest II (Oculus Optikgeräte GmbH,
Wetzlar, Germany), which consists of Landolt rings of different contrast levels presented in
front of a low-brightness background. There are 4 contrast levels, 1:23, 1:5, 1:2.7, and 1:2,
which represent the ratio between the light intensity of the optotypes and the background.
There were 8 tests, 4 without glare and 4 with glare. Test 1, with a contrast level of 1:23,
is the most easily recognized. For statistical purposes, each level of the contrast or glare
test was given a score ranging from 20% at the 1:23 level to 100% at the 1:2 level.
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