Abstracts

INTRODUCTION

Keratectasia or progressive "iatrogenic" ectasia after laser vision correction (LVC) was first reported in 1998 by Seiler⁽¹1. Seiler T, Quurke AW. Iatrogenic keratectasia after LASIK in a case of forme fruste keratoconus. J Cataract Refract Surg. 1998;24(7):1007-9.⁾, and rapidly became recognized as a very severe complication of LVC procedures⁽²2. Ambrósio R Jr, Wilson SE. Complications of laser in situ keratomileusis: etiology, prevention, and treatment. J Refract Surg. 2001;17(3):350-79. Review.⁾. Major attempts for understanding⁽³3. Dawson DG, Randleman JB, Grossniklaus HE, O'Brien TP, Dubovy SR, Schmack I, et al. Corneal ectasia after excimer laser keratorefractive surgery: histopathology, ultrastructure, and pathophysiology. Ophthalmology. 2008; 115(12):2181-2191. e1.⁾ and preventing keratectasia have been taken⁽⁴4. Binder PS, Lindstrom RL, Stulting RD, Donnenfeld E, Wu H, McDonnell P, et al. Keratoconus and corneal ectasia after LASIK. J Cataract Refract Surg. 2005;31(11):2035-8.⁾. Screening for cases at high risk or susceptibility for biomechanical failure and ectasia progression after LVC represents a major challenge for refractive surgeons⁽⁵5. Ambrósio R Jr, Nogueira LP, Caldas DL, Fontes BM, Luz A, Cazal JO, et al. Evaluation of corneal shape and biomechanics before LASIK. Int Ophthalmol Clin. 2011;51(2):11-38.

6. Ambrósio R Jr, Valbon BF, Faria-Correia F, Ramos I, Luz A. Scheimpflug imaging for laser refractive surgery. Curr Opin Ophthalmol. 2013;24(4):310-20. Review.^-77. Ambrósio R Jr, Randleman JB. Screening for ectasia risk: what are we screening for and how should we screen for it? J Refract Surg. 2013;29(4):230-2.⁾. The role of Placido discbased corneal topography and central corneal thickness (CCT) for screening refractive candidates is well recognized⁽⁸8. Ambrósio R Jr, Klyce SD, Wilson SE. Corneal topographic and pachymetric screening of keratorefractive patients. J Refract Surg. 2003;19(1):24-9.⁾. However, cases with unexplained ectasia based on such classic methodology have been reported⁽⁹9. Amoils SP, Deist MB, Gous P, Amoils PM. Iatrogenic keratectasia after laser in situ keratomileusis for less than -4.0 to -7.0 diopters of myopia. J Cataract Refract Surg. 2000;26(7):967-77.

10. Klein SR, Epstein RJ, Randleman JB, Stulting RD. Corneal ectasia after laser in situ keratomileusis in patients without apparent preoperative risk factors. Cornea. 2006;25(4):388-403.^-1111. Ambrósio R Jr, Dawson DG, Salomão M, Guerra FP, Caiado AL, Belin MW. Corneal ectasia after LASIK despite low preoperative risk: tomographic and biomechanical findings in the unoperated, stable, fellow eye. J Refract Surg. 2010;26(11):906-11.⁾.

Different risk scoring systems were proposed for facilitating the prediction of patients who are at risk of ectasia progression after LASIK. Randleman and coworkers developed the ectasia risk score system (ERSS) based on a retrospective case-control study that integrated corneal topography with refractive correction, residual stromal bed (RSB) and patient's age⁽¹³13. Randleman JB, Woodward M, Lynn MJ, Stulting RD. Risk assessment for ectasia after corneal refractive surgery. Ophthalmology. 2008;115(1):37-50.⁾. The ERSS was validated by a second study⁽¹⁴14. Randleman JB, Trattler WB, Stulting RD. Validation of the Ectasia Risk Score System for preoperative laser in situ keratomileusis screening. Am J Ophthalmol. 2008;145(5):813-8.⁾, which confirmed abnormal corneal topography and age as the most important variables for predicting ectasia risk Even though the ERSS represented an advance on the ability to detect ectasia risk⁽¹⁵15. Spadea L, Cantera E, Cortes M, Conocchia NE, Stewart CW. Corneal ectasia after myopic laser in situ keratomileusis: a long-term study. Clin Ophthalmol. 2012;6:1801-13.⁾, there were still 8% of false negatives, and 6% of false positives in the original studies. The subjective nature of the classifications of corneal topography limits the repeatability of the approach⁽¹⁶16. Ramos IC, Correa R, Guerra FP, Trattler W, Belin MW, Klyce SD, et al. Variability of Subjective Classifications of Corneal Topography Maps From LASIK Candidates. J Refract Surg. 2013:1-7.⁾, which may help explain up to 25% of false negatives in an independent retrospective study of ectasia cases⁽¹⁷17. Chan CC, Hodge C, Sutton G. External analysis of the Randleman Ectasia Risk Factor Score System: a review of 36 cases of post LASIK ectasia. Clin Experiment Ophthalmol. 2010;38(4):335-40.⁾. In addition, over 50% of false positives may occur if a young population of stable LASIK patients is evaluated. Therefore, there is an undisputable need for improving both the sensitivity and specificity of LVC screening for ectasia risk⁽⁷7. Ambrósio R Jr, Randleman JB. Screening for ectasia risk: what are we screening for and how should we screen for it? J Refract Surg. 2013;29(4):230-2.⁾.

"Corneal tomography" enables the evaluation of the front and back surfaces of the cornea along with pachymetric mapping⁽²⁰20. Ambrósio R Jr, Belin MW. Imaging of the cornea: topography vs tomography. J Refract Surg. 2010;26(11):847-9.⁾. While different technologies are available in many instruments⁽²¹21. Salomão MQ, Esposito A, Dupps WJ Jr. Advances in anterior segment imaging and analysis. Curr Opin Ophthalmol. 2009;20(4):324-32. Review.⁾, validated criteria for diagnostic interpretation and proper understanding of the generated data is fundamental for the clinician take full advantage of the technology. Along with the description of corneal thickness profile, we introduced the concept of relational thickness, which considers the thinnest value in relation to the rate of increase in thickness towards the periphery⁽²²22. Ambrósio R Jr, Caiado AL, Guerra FP, Louzada R, Roy AS, Luz A, et al. Novel pachymetric parameters based on corneal tomography for diagnosing keratoconus. J Refract Surg. 2011;27(10):753-8.⁾. Elevation tomography, which has been pioneered and further developed by Belin⁽²⁶26. Belin MW, Khachikian SS. An introduction to understanding elevation-based topography: how elevation data are displayed - a review. Clin Experiment Ophthalmol. 2009;37(1):14-29. Review.⁾, in combination with comprehensive tomographic thickness evaluation were combined for the development of the Belin/Ambrósio Enhanced Ectasia Display (BAD). The BAD, available on the Pentacam (Oculus, Wetzlar, Germany) software, provides the "d" values which refer to the standard deviation from normality for multiple parameters. The combination of the "d" values, using logistic regression analysis for optimizing separation of normals and keratoconus provide the Belin-Ambrósio Deviation index (BAD-D) value⁽⁵5. Ambrósio R Jr, Nogueira LP, Caldas DL, Fontes BM, Luz A, Cazal JO, et al. Evaluation of corneal shape and biomechanics before LASIK. Int Ophthalmol Clin. 2011;51(2):11-38.⁾. The BAD-D has been demonstrated to significantly enhance the ability to detect ectasia and its susceptibility, as well as to augment specificity to exclude ectasia in suspicious cases⁽⁵5. Ambrósio R Jr, Nogueira LP, Caldas DL, Fontes BM, Luz A, Cazal JO, et al. Evaluation of corneal shape and biomechanics before LASIK. Int Ophthalmol Clin. 2011;51(2):11-38.^,66. Ambrósio R Jr, Valbon BF, Faria-Correia F, Ramos I, Luz A. Scheimpflug imaging for laser refractive surgery. Curr Opin Ophthalmol. 2013;24(4):310-20. Review.⁾.

The current study was designed to evaluate the ability of standard methods for screening ectasia risk in comparison to BAD-D, as well as to test the benefit of adding clinical parameters to the BAD-D for a logistic regression analysis with the goal of improving accuracy for detecting preoperative ectasia susceptibility among LASIK candidates.

METHODS

The current retrospective study followed the tenets of the Declaration of Helsinki and was approved by the IRB (Institutional Review Board) and Human Ethics Committee from Price Vision Group (PVG, Indiana, USA) and Universidade Federal de São Paulo (UNIFESP, SP, Brazil).

The data from 23 eyes that developed progressive corneal ectasia after LASIK was retrieved from an international pool. For study purposes, the origin of these cases remained anonymous. The data from 266 eyes with documented stability after LASIK after minimal follow up of 1 year was prospectively collected at the Price Vision Group (Indianapolis, USA). The collection of data at the PVG for this study was partially funded by ASCRS (American Society of Cataract and Refractive Surgery) Foundation.

Preoperative clinical parameters from all cases were tabulated in an Excel (Microsoft; Redmond, USA) spreadsheet. Age, manifest refraction (sphere, cylinder and axis), spherical equivalent (SE), distance corrected visual acuity (DCVA), LASIK flap characteristics (predicted flap thickness and method for creation), maximal ablation depth, predicted residual stromal bed (RSB), corneal central thickness (CCT), and subjective classification of corneal topography were collected from all cases. Subjective classification was performed by an independent fellowship trained refractive surgeon who did not know the outcome of LASIK in a similar method as described by Ramos and coworkers⁽¹⁶16. Ramos IC, Correa R, Guerra FP, Trattler W, Belin MW, Klyce SD, et al. Variability of Subjective Classifications of Corneal Topography Maps From LASIK Candidates. J Refract Surg. 2013:1-7.⁾. The RSB was calculated considering the preoperative thinnest value from Pentacam measurements, maximal ablation depth and estimated flap thickness.The Ectasia Risk Score System (ERSS) was calculated according to the original description by Randleman and coworkers.

The U12 files containing the raw data from preoperative Pentacam HR (Oculus; Wetzlar, Germany) were obtained, so that the BAD-D value (version 3) and thinnest pachymetric data were computed from all cases using Pentacam software 1.19r07.5 The BAD-D was not available for the preoperative evaluation of all cases in this study.

Statistical analysis was accomplished using BioEstat 5.0 (Instituto Mamirauá, Amazonas, Brazil) and Med-Calc 11.1 (MedCalc Software, Mariakerke, Belgium). Non-parametric Mann-Whitney U test (Wilcoxon rank-sum test) was used for assessing whether each variable had different distributions among the groups. Stepwise logistic regression analysis was used for combining BAD-D and clinical parameters for augmenting accuracy in separating the cases that developed ectasia from those with stable LASIK outcomes. Receiver operating characteristic (ROC) curves were calculated for all parameters and functions for testing the overall predictive accuracy (cut off, sensitivity and specificity) and calculating the area under the curve (AUC). Pairwise comparisons of the ROC curves were performed to test whether significant differences were present between the AUC among the different parameters for using DeLong method. A p value lower than 0.05 was considered as statistically significant.

RESULTS

Group characteristics

The clinical data for the post-LASIK ectasia and stable-LASIK groups is summarized in table 1. Statistically significant differences between groups were found for preoperative age, CCT and BAD-D, as well as for the estimated postoperative RSB (Mann-Whitney, p<0.001), but not for preoperative manifest refraction data (sphere, cylinder and spherical equivalent; Mann-Whitney, p>0.05). Time between LASIK procedure and ectasia diagnosis ranged from 3 to 18 months, with an average of 6.1 months.Average follow up of stable LASIK cases was 20 months, ranging from 12 to 49 months (standard deviation [SD]=0.61).

In the post-LASIK ectasia group, the flap was created with a Moria OUP microkeratome (Antoine, France) in 7 cases (30%) and with a femtosecond laser (Intralase FS 60; Abbott Medical Optics, Santa Clara, USA) in 16 cases (70%). Only two cases from the ectasia group (8.7%) had an Oculus TKC with keratoconus detection; one case was classified as possible and the other as keratoconus grade 1. Twelve cases (52%) were classified as moderate to high risk based on an ERSS score of 3 or greater. All ectatic cases had preoperative distance corrected visual acuity (DCVA) equal or better than 20/30. No case had any preoperative slit lamp sign typical of keratoconus.

In the stable LASIK group, a femtosecond laser (Intralase FS 60) set for a 115-µm flap depth was used in all cases. Eighteen eyes (6.77%) had an Oculus TKC classification as abnormal and 48 of 266 cases (18%) were classified as moderate to high risk based on the ERSS (score of 3 to 6).

Predictive models

Table 2 summarizes the ROC results for the parameters which had statistical significant different distributions among the groups. The area under the ROC curve (AUC) for the parameters which did not reach statistical significant differences tend to demonstrate a 50% chance of positivity, which implies this is a random finding. For example, the distribution of sphere (Sph) was not statistically different within ectatic and stable LASIK cases, with an AUC of 0.566 (95% CI: 0.507 to 0.624). The ERSS was equal or higher than 3 on 12 eyes from the ectasia group (sensitivity=52.17%) and on 48 eyes from the stable LASIK group (specificity=81.95%). The best cut off value for BAD-D was 1.29, with sensitivity of 87% and specificity of 92.1 (AUC=0.931; 95% CI: 0.895 to 0.957). BAD-D was more accurate than all clinical parameters (p>0.001, DeLong's method). Figure 1 represents the interactive dot diagram of the BAD-D, allowing for the visualization of the overlap between groups.

Figure 1
Dot diagram for BAD-D

The model that combined BAD-D, age and RSB achieved 100% sensitivity and 94% specificity, with a statistically better AUC (0.989; 95% CI: 0.969 to 0.998) than individual parameter models or the ERSS (p>0.001, DeLong's method). The inclusion of CCT, sphere, cylinder or spherical equivalent did not improve accuracy in the regression analysis. The coefficient and constants for the model which combined age, RSB and BAD-D are listed on table 3. For making this into a binary parameter, the natural logarithm (ln) of the logistic regression model is calculated. Interactive dot diagrams were used to visualize the clinical performance of the combined parameter (figure 2).

Figure 2
Dot diagram for the Ectasia Susceptibility Score (ESS-I): combined function of age, RSB and BAD-D

The ROC curves of the parameters which had statistical significant different distributions among the groups are included in figure 3.

Figure 3
Comparison of ROC curves

DISCUSSION

This study evaluated the ability of different methods to predict ectasia risk among LASIK candidates. The lack of sensitivity of "classic" methodology based on corneal topography, central thickness and clinical parameters is demonstrated by the fact that the ERSS failed to detect ectasia risk in 47.8% of post LASIK ectasia cases. However, the ERSS depends on the subjective classification of corneal topography curvature maps, which may vary tremendously among different experts⁽¹⁶16. Ramos IC, Correa R, Guerra FP, Trattler W, Belin MW, Klyce SD, et al. Variability of Subjective Classifications of Corneal Topography Maps From LASIK Candidates. J Refract Surg. 2013:1-7.⁾. In fact, retrospective evaluation of the preoperative topography of cases that developed ectasia tends to be very rigorous with a high sensitivity if the evaluator knows about the outcome. However, in this study, the topographic classifications were done without the evaluator knowing the outcome of the LASIK procedure.

The BAD-D combined the deviation indices using a linear regression analysis that best separated normals and keratoconic cases⁵5. Ambrósio R Jr, Nogueira LP, Caldas DL, Fontes BM, Luz A, Cazal JO, et al. Evaluation of corneal shape and biomechanics before LASIK. Int Ophthalmol Clin. 2011;51(2):11-38. BAD-D demonstrated excellent accuracy for detecting keratoconus with AUC higher than 0.99 in different studies⁽⁵5. Ambrósio R Jr, Nogueira LP, Caldas DL, Fontes BM, Luz A, Cazal JO, et al. Evaluation of corneal shape and biomechanics before LASIK. Int Ophthalmol Clin. 2011;51(2):11-38.^,66. Ambrósio R Jr, Valbon BF, Faria-Correia F, Ramos I, Luz A. Scheimpflug imaging for laser refractive surgery. Curr Opin Ophthalmol. 2013;24(4):310-20. Review.⁾. This study found BAD-D to have a significantly higher accuracy for separating the preoperative status of stable-LASIK from the ones who developed ectasia, in agreement with previous studies that evaluated the ability of BAD-D to detect milder forms of ectasia or its predisposition. In a study comprised of 47 eyes with forme fruste keratoconus (FFKC), defined as the fellow eye with relatively normal topography from patients with very asymmetric keratoconus, the cut off of 1.22 led to 93.62% sensitivity. In that study, FFKC cases were compared to 331 normal eyes randomly selected from normal patients, with AUC of 0.975 and specificity of 94.56%. Interestingly, the cut off value of 1.29 found in the present study is considerably lower than the one (2.11) obtained for keratoconus with sensitivity of 99.59% (n=242 eyes with clinical keratoconus)⁽⁶6. Ambrósio R Jr, Valbon BF, Faria-Correia F, Ramos I, Luz A. Scheimpflug imaging for laser refractive surgery. Curr Opin Ophthalmol. 2013;24(4):310-20. Review.⁾. However, 87% sensitivity and 92% specificity are still not optimal and the need for further improvements beyond BAD-D for detecting ectasia susceptibility is recognized.

Screening for keratoconus is not the same as screening for eyes with higher susceptibility to develop keratectasia after LVC. Considering keratectasia occurs due to a state of biomechanical failure of the corneal stroma⁽³3. Dawson DG, Randleman JB, Grossniklaus HE, O'Brien TP, Dubovy SR, Schmack I, et al. Corneal ectasia after excimer laser keratorefractive surgery: histopathology, ultrastructure, and pathophysiology. Ophthalmology. 2008; 115(12):2181-2191. e1.⁾, there are two possible distinct mechanisms for ectasia progression after LVC: 1) preoperative abnormally low (weak) biomechanical properties of the corneal stroma; 2) a severe biomechanical dwindling caused by the LVC procedure. For example, ectasia has been reported after surface ablation procedures⁽¹³13. Randleman JB, Woodward M, Lynn MJ, Stulting RD. Risk assessment for ectasia after corneal refractive surgery. Ophthalmology. 2008;115(1):37-50.⁾, but is much more common after LASIK, because the lamellar cut has an intrinsic biomechanical impact on the cornea⁽³¹31. Dupps WJ Jr, Wilson SE. Biomechanics and wound healing in the cornea. Exp Eye Res. 2006;83(4):709-20. Review.⁾. Such impact varies accordingly to flap thickness⁽³²32. Medeiros FW, Sinha-Roy A, Alves MR, Dupps WJ Jr. Biomechanical corneal changes induced by different flap thickness created by fem to second laser. Clinics (Sao Paulo). 2011;66(6):1067-71.⁾. Interestingly, there are reported cases of unilateral keratectasia after LASIK, while the fellow eye remained stable after photorefractive keratectomy (PRK)⁽³³33. Kymionis GD, Tsiklis N, Karp CL, Kalyvianaki M, Pallikaris AI. Unilateral corneal ectasia after laser in situ keratomileusis in a patient with uncomplicated photorefractive keratectomy in the fellow eye. J Cataract Refract Surg. 2007;33(5):859-61.^,3535. Javadi MA, Mohammadpour M, Rabei HM. Keratectasia after LASIK but not after PRK in one patient. J Refract Surg. 2006;22(8):817-20.⁾.

In the present study, there was a statistically significant difference in the estimated RSB between ectatic and stable LASIK cases. However, no case with ectasia had an estimated RSB lower than 250µm (minimal value = 269µm). Imprecision of preoperative corneal pachymetry and variability of microkeratome cuts may impact accuracy of RSB prediction⁽³⁶36. Cheng HC, Chen YT, Yeh SI, Yau CW. Errors of residual stromal thickness estimation in LASIK. Ophthalmic Surg Lasers Imaging. 2008;39(2):107-13.⁾. However, all cases had a Pentacam preoperative exam, allowing the calculation of the RSB from the thinnest point. In addition, all cases in the stable LASIK group and 69.57% of the ectatic cases had the lamellar cut performed by femtosecond laser, which has been demonstrated to have a relatively low variability on flap thickness37.The remaining 30.4% of the ectatic cases had flaps created by the Moria One Use-Plus microkeratome, which also has a low variability on flap thickness38. Thereby, the development of keratectasia in this series is less related to the biomechanical impact from the LVC procedure, but more related to an abnormal corneal structure that increased the risk for ectasia.

In this study, a logistic regression formula integrated age, RSB and BAD-D with a significant improvement in accuracy, leading to 100% sensitivity and 94% specificity. Logistic regression analysis has been used for predicting the outcome of a categorical dependent variable based on different predictor variables. Potential confounding between predictor variables is detected so that only the main effects are incorporated into the final formula. For example CCT was not selected for inclusion because it is already considered in the BAD-D calculation. The optimized formula provides the relative risk of developing ectasia as an Ectasia Susceptibility Score I (ESS-I; table 3). The logarithmic function leads to a binary outcome, with some overlapping results from zero to one.The cut off was 0.068, which represent 6.8% relative risk. However, we propose that values higher than 5% should be considered moderate risk and values higher than 15% at high risk for ectasia progression after LVC.

The incorporation of age and RSB into the model, along with objective tomographic parameter BAD-D further customizes the risk assessment. This is also possible to consider certain risk levels in order to calculate the RSB needed, considering the BAD-D and age. For example, according to the ESS-I, a patient who is 21 years old with BAD-D of 0.9 and RSB of 350 would be at high risk of ectasia (24%), and would require RSB of 398 for being at low risk (3%). Another 21 years old patient with BAD-D of 0.2 would need RSB of 350 for being at low risk (3%). A patient who is 42 years old with BAD-D of 0.9 would need RSB of 323 for having the ectasia risk under 3%.

The major limitation of the present study is related to the relatively low number of ectasia cases.Also, the post-operative follow up of one year may not be sufficient, as late onset ectasia is possible⁽³⁹39. Hafezi F, Koller T, Derhartunian V, Seiler T. Pregnancy may trigger late onset of keratectasia after LASIK. J Refract Surg. 2012;28(4):242-3.^,4242. Lifshitz T, Levy J, Klemperer I, Levinger S. Late bilateral keratectasia after LASIK in a low myopic patient. J Refract Surg. 2005;21(5):494-6.⁾. Further follow up is needed for the stable group after LASIK, mainly in the subgroup detected as at higher risk based on the ESS-I. In such cases, careful long term evaluation for any corneal changes that might indicate a need for crosslinking, as well as patient advice against eye rubbing and other causes of eye trauma are necessary. Validation studies are also needed. These should include a series of cases with FFKC, but preferably cases that developed ectasia after LVC. In addition, improvements on the regression analysis with the incorporation of other parameters from Pentacam measurements are possible, as well as using different artificial intelligence strategies. These studies are underway.

REFERENCES

Publication Dates

History