Transcript Slide 1

Corneal High-Order Aberrations in Keratoconus
Juan C. Arciniega, MD; Engy M. Mohamed, MD; R. Wayne Bowman, MD; Steven Verity, MD;
James P. McCulley, MD, FRCOphth (UK).
Department of Ophthalmology, The University of Texas Southwestern Medical Center at
Dallas, Texas. USA.
Financial Disclosure:
Juan C. Arciniega, Engy M. Mohamed, Steven Verity and R. Wayne Bowman have no
commercial relationships.
James P. McCulley is a consultant of Alcon Inc.
This study was supported in part by grants NIH EY12430, EY016664 and an unrestricted grant from
the Research to Prevent Blindness, New York, New York.
Background
Keratoconus is a condition in which the cornea assumes a conical shape
as a result of non-inflammatory progressive corneal thinning. The
thinning and protrusion in keratoconus induces irregular astigmatism
with and without myopia resulting in mild to marked impairment in both
quantity and quality of vision. It is a progressive disease ultimately
affecting both eyes, although only one eye may be affected initially.1
1) Kanski Jack, Clinical Ophthalmology. Sixth edition, Elsevier, 2007
Purpose
To evaluate the use of the anterior and posterior corneal surface highorder aberrations (HOAs) as a tool to detect and grade keratoconus using
the Pentacam™.
Methods
A retrospective study of 111 eyes (62 patients; 33 males) was performed.
The eyes were divided into 5 groups: suspect group and four other groups
according to the Amsler-Krumeich classification of keratoconus: stage I to
stage IV groups. Anterior and posterior corneal HOAs were obtained using
the software provided by the Pentacam™ system.
Methods
The Amsler-Krumeich classification1 includes the following stages:
Stage I
• Eccentric steeping
• Myopia and astigmatism < 5.00 D
•Mean central K readings < 48.00 D
Stage II
• Myopia and astigmatism from 5.00 to 8.00 D
• Mean central K readings < 53.00 D
•Absence of scarring
• Minimum corneal thickness >400 µm.
Stage III
•Myopia and astigmatism from 8.00 to 10.00 D
• Mean central K readings >53.00 D
•Absence of scarring
• Minimum corneal thickness 300 to 400 µm.
Stage IV
• Refraction not measurable
• Mean central K readings >55.00 D
• Central corneal scarring
• Minimum corneal thickness 200 µm
1) Alió Jorge, Corneal Higher Order Aberrations: A Method to Grade Keratoconus. J Refract Surg. Vol. 22 No. 6 June 2006
Methods
Anterior & Posterior
Zernike (Z) coefficients
were used from Z3 to Z6
to calculate:
• Coma-like aberration
• Spherical-like aberration
• Residual aberrations
Results
The mean age of patients was 49.4±6.7 years.
The mean keratometric value was 43.30±14 D
The mean thinnest point of corneal thickness was 450.8±87µm.
Number of Patients
62
Eye number
111
Right eye
58
Left eye
53
Males
33
Females
29
Stage I
43
Stage II
24
Stage III
8
Stage IV
21
Suspect
15
Results
Patients Demographics
Suspect
Stage I
Stage II
Stage III
Stage IV
Age
41.9±18.5
44.5±11.8
41.9±16.6
43.1±15.9
43.9±12
Mean keratometric
value
43.6±1.9
44.8±1.9
49.9±1.4
53.8±0.55
60.5±5.3
Corneal thickness
519.8±40.6
490.4±44.4
Sphere
-4.4±3.3
-5.1±3.5
-9.7±3.2
-8.7±3.7
-9.7±4.7
Cylinder
2.3±1.4
3.5±1.9
2.6±2.5
4.5±1.8
4.5±3
Spherical equivalent
-3.2±3.1
-3.4±3.4
-5.5±3.3
-6.5±4
-7.4±4
437.2±45.1 413.6±74.1 349.9±117
Results
Posterior coma-like aberration was the highest posterior HOAs among
all the groups and anterior coma-like aberration was the highest of
anterior HOAs among all groups except for the suspect group which
had the anterior spherical-like aberration as the highest.
Anterior coma-like aberrations increased progressively with the groups
while the posterior coma-like aberrations did not show a gradually
increase.
Results
Conclusion
Corneal higher-order aberrations, especially coma-like aberrations, are
significantly higher in eyes with keratoconus than in keratoconus
suspects. Only anterior coma-like aberrations measured by Pentacam™
were best in the early detection and grading of keratoconus.