Quantitative evaluation of microdistortions in Bowman’s layer and corneal deformation after small incision lenticule extraction

Abstract

Purpose: To quantitatively evaluate microdistortions in Bowman’s layer and change in corneal stiffness after small incision lenticule extraction (SMILE). Methods: This was a prospective, longitudinal, and interventional study. Thirty eyes of 30 patients were screened preoperatively and underwent SMILE for treatment of myopia with astigmatism. Visual acuity, refraction, optical coherence tomography (OCT; Bioptigen, Inc., Morrisville, NC) imaging of the layer and air-puff applanation (Corvis-ST, OCULUS Optikgeräte Gmbh, Germany) was performed before and after surgery (1 day, 1 week, and 1 month). The Bowman’s Roughness Index (BRI) was defined as the enclosed area between the actual and an ideal smooth layer to quantify the microdistortions. A viscoelastic model was used to quantify the change in corneal stiffness using applanation. Results: Uncorrected distance visual acuity improved (P<0.001) and refractive error decreased (P<0.0001) after SMILE. BRI increased from preoperative levels (1.81 3 10-3 mm2) to 1 week (3.14 × 10-3 mm2) after SMILE (P<0.05) and then decreased up to a month (2.43 × 10-3 mm2; P<0.05). Increase in the magnitude of the index correlated positively with refractive error (P = 0.02). However, corneal stiffness reduced after SMILE (105.86 ± 1.4 N/m versus 97.97 ± 1.21 N/m at 1 month, P = 0.001). The decrease in corneal stiffness did not correlate with refractive error (P = 0.61). Conclusions: BRI correlated positively the magnitude of refractive error. However, decrease in corneal stiffness, assessed by air-puff applanation, may not be related to microdistortions after SMILE. Translational Relevance: An objective method of quantification of Bowman’s layer microdistortions using OCT was developed to monitor corneal wound healing and improve lenticule extraction methods.