Lara Asroui scite author profile

Lara Asroui

5Publications

27Citation Statements Received

0Citation Statements Given

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Affiliations

American University of Beirut Medical Center, Cleveland Clinic Lerner College of Medicine, Case Western Reserve University

Publications

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Biomechanical Evaluation of Topographically and Tomographically Normal Fellow Eyes of Patients With Keratoconus

Asroui¹,

Dagher²,

Elsheikh³

et al. 2022

J Refract Surg

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PURPOSE: To determine the effectiveness of parameters and indices based on biomechanical measures at discriminating fellow eyes with topographically and tomographically normal corneas in patients with keratoconus from normal control corneas. METHODS: The study included 47 keratoconus suspect eyes, defined as the topographically and tomographically normal fellow eyes of patients with frank keratoconus in the other eye. Eyes were imaged using the Pentacam HR and Corvis ST (both Oculus Optikgeräte GmbH). Fellow eyes were then categorized as topographically/tomographically normal fellow eyes (TNF) and topographically/tomographically borderline fellow eyes (TBF). The ability of each of the Corvis Biomechanical Index (CBI), Tomographic and Biomechanical Index (TBI), stiffness parameter at applanation 1 (SP-A1), and stress-strain index (SSI) at discriminating between normal controls and keratoconus suspects was assessed. RESULTS: The TBI had the best discriminative ability with the greatest area under the receiver operating characteristic (AUROC) curve value of 0.946 for normal controls versus TBF eyes, and 0.824 for normal controls versus TNF eyes. Compared to the TBI AUROC curves, SP-A1 and CBI had AUROC curve values of 0.833 ( P = .09) and 0.822 ( P = .01) for normal controls versus TBF eyes, respectively, and AUROC curve values of 0.822 ( P = .96) and 0.550 ( P = .0002) for normal controls versus TNF eyes, respectively. The TBI had the best positive predictive value for TNF and TBF eyes, followed by CBI and SP-A1. CONCLUSIONS: The TBI and the purely biomechanical parameter SP-A1 were of moderate utility in distinguishing between normal and keratoconus suspect eyes. In the absence of topographic/tomographic evidence of keratectasia, an independently abnormal biomechanical parameter may suggest an increased risk of ectasia. [ J Refract Surg . 2022;38(5):318–325.]

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Repeatability of Zone Averages Compared to Single-Point Measurements of Maximal Curvature in Keratoconus

Asroui

Mehanna

Salloum

et al. 2021

American Journal of Ophthalmology

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Motion-Tracking Brillouin Microscopy Evaluation of Normal, Keratoconic, and Post–Laser Vision Correction Corneas

Zhang¹,

Asroui²,

Tarib³

et al. 2023

American Journal of Ophthalmology

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Motion-tracking Brillouin microscopy for in-vivo corneal biomechanics mapping

Zhang¹,

Asroui²,

Randleman³

et al. 2022

Biomed. Opt. Express

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Corneal biomechanics play a critical role in maintaining corneal shape and thereby directly influence visual acuity. However, direct corneal biomechanical measurement in-vivo with sufficient accuracy and a high spatial resolution remains an open need. Here, we developed a three-dimensional (3D) motion-tracking Brillouin microscope for in-vivo corneal biomechanics mapping. The axial tracking utilized optical coherence tomography, which provided a tracking accuracy better than 3 µm. Meanwhile, 10 µm lateral tracking was achieved by tracking pupils with digital image processing. The 3D tracking enabled reconstruction of depth-dependent Brillouin distribution with a high spatial resolution. This superior technical performance enabled the capture of high-quality mechanical mapping in vivo even while the subject was breathing normally. Importantly, we improved Brillouin spectral measurements to achieve relative accuracy better than 0.07% verified by rubidium absorption frequencies, with 0.12% stability over 2000 seconds. These specifications finally yield the Brillouin measurement sensitivity that is required to detect ophthalmology-relevant corneal biomechanical properties.

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Determining the Utility of Epithelial Thickness Mapping in Refractive Surgery Evaluations

Randleman

Asroui

Dupps

2022

American Journal of Ophthalmology

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Lara Asroui

Biomechanical Evaluation of Topographically and Tomographically Normal Fellow Eyes of Patients With Keratoconus

Repeatability of Zone Averages Compared to Single-Point Measurements of Maximal Curvature in Keratoconus

Motion-Tracking Brillouin Microscopy Evaluation of Normal, Keratoconic, and Post–Laser Vision Correction Corneas

Motion-tracking Brillouin microscopy for in-vivo corneal biomechanics mapping

Determining the Utility of Epithelial Thickness Mapping in Refractive Surgery Evaluations

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