Anastasios John Kanellopoulos1, Marianthi Chiridou2, George Asimellis2. 1. From Laservision.gr Clinical and Research Institute (Kanellopoulos, Chiridou, Asimellis), Athens, Greece; New York University Medical School (Kanellopoulos), New York, New York, USA. Electronic address: ajk@brilliantvision.com. 2. From Laservision.gr Clinical and Research Institute (Kanellopoulos, Chiridou, Asimellis), Athens, Greece; New York University Medical School (Kanellopoulos), New York, New York, USA.
Abstract
PURPOSE: To determine 3-dimensional corneal pachymetry distribution characteristics in a large pool of healthy normal patients. SETTING: Private practice, Athens, Greece. DESIGN: Prospective case series. METHODS: Spectral-domain anterior segment optical coherence tomography (AS-OCT) was used for measurements of central (CCT) and minimum corneal thickness, thickness asymmetry indices for superonasal-inferotemporal (SN-IT) and superior-inferior (S-I), and focal thinning indices (Min-Med focal thinning, Min-Max thickness range). RESULTS: The study enrolled 561 eyes. The mean values were CCT, 537.17 μm ± 30.99 (SD) (range 447.0 to 654.0 μm); minimum corneal thickness, 529.01 ± 30.02 μm (range 435.0 to 644.0 μm); SN-IT, 26.32 ± 15.06 μm (range -23.0 to 97.0 μm); S-I, 25.34 ± 15.06 μm (range -36.0 to 93.0 μm); Min-Med, -20.70 ± 5.99 μm (range -7.0 to -50.0 μm); Min-Max, -59.79 ± 16.55 μm (range -156.0 to -23.0 μm). There were significant age-related differences; the mean SN-IT was 22.19 ± 12.40 μm (range -6.0 to 63.0 μm) in the younger group and 30.44 ± 15.07 μm (range -4.0 to 97.0 μm) in the older group (P=.002). The mean S-I was 21.47 ± 12.92 μm (range -5.0 to 70.0 μm) and 29.76 ± 16.27 μm (range -8.0 to 93.0 μm), respectively (P=.001). CONCLUSIONS: Corneal-thickness asymmetry distribution in a healthy eye population obtained by Fourier-domain AS-OCT showed increased asymmetry in the older group; the asymmetry was not sex dependent. These findings may provide a benchmark for future comparative studies. FINANCIAL DISCLOSURES: Dr. Kanellopoulos is a consultant to Alcon Laboratories, Inc., Allergan, Inc., Avedro, Inc., Keramed, Inc., and i-Optics. No other author has a financial or proprietary interest in any material or method mentioned.
PURPOSE: To determine 3-dimensional corneal pachymetry distribution characteristics in a large pool of healthy normal patients. SETTING: Private practice, Athens, Greece. DESIGN: Prospective case series. METHODS: Spectral-domain anterior segment optical coherence tomography (AS-OCT) was used for measurements of central (CCT) and minimum corneal thickness, thickness asymmetry indices for superonasal-inferotemporal (SN-IT) and superior-inferior (S-I), and focal thinning indices (Min-Med focal thinning, Min-Max thickness range). RESULTS: The study enrolled 561 eyes. The mean values were CCT, 537.17 μm ± 30.99 (SD) (range 447.0 to 654.0 μm); minimum corneal thickness, 529.01 ± 30.02 μm (range 435.0 to 644.0 μm); SN-IT, 26.32 ± 15.06 μm (range -23.0 to 97.0 μm); S-I, 25.34 ± 15.06 μm (range -36.0 to 93.0 μm); Min-Med, -20.70 ± 5.99 μm (range -7.0 to -50.0 μm); Min-Max, -59.79 ± 16.55 μm (range -156.0 to -23.0 μm). There were significant age-related differences; the mean SN-IT was 22.19 ± 12.40 μm (range -6.0 to 63.0 μm) in the younger group and 30.44 ± 15.07 μm (range -4.0 to 97.0 μm) in the older group (P=.002). The mean S-I was 21.47 ± 12.92 μm (range -5.0 to 70.0 μm) and 29.76 ± 16.27 μm (range -8.0 to 93.0 μm), respectively (P=.001). CONCLUSIONS: Corneal-thickness asymmetry distribution in a healthy eye population obtained by Fourier-domain AS-OCT showed increased asymmetry in the older group; the asymmetry was not sex dependent. These findings may provide a benchmark for future comparative studies. FINANCIAL DISCLOSURES: Dr. Kanellopoulos is a consultant to Alcon Laboratories, Inc., Allergan, Inc., Avedro, Inc., Keramed, Inc., and i-Optics. No other author has a financial or proprietary interest in any material or method mentioned.
Authors: Jie Lu; Hao Zhou; Yingying Shi; James Choe; Mengxi Shen; Liang Wang; Kelly Chen; Qinqin Zhang; William J Feuer; Giovanni Gregori; Philip J Rosenfeld; Ruikang K Wang Journal: Quant Imaging Med Surg Date: 2022-01