Stephen J Vincent1, David Alonso-Caneiro2, Henry Kricancic2, Michael J Collins2. 1. Contact Lens and Visual Optics Laboratory, School of Optometry and Vision Science, Queensland University of Technology, Australia. Electronic address: sj.vincent@qut.edu.au. 2. Contact Lens and Visual Optics Laboratory, School of Optometry and Vision Science, Queensland University of Technology, Australia.
Abstract
PURPOSE: To develop a methodology to reliably determine the thickness profile of scleral contact lenses and examine the relationship between the centre and average lens thickness for a range of lens designs and back vertex powers. METHODS: High-resolution images of 37 scleral trial lenses (Epicon LC, Rose K2 XL and ICD 16.5) were captured using an optical coherence tomographer, and their thickness profiles were generated after correcting for known measurement artefacts. Centre lens thickness values were compared with manual lens gauge measurements, and repeatability was assessed by comparing average thickness values derived from orthogonal meridians of each lens. RESULTS: The imaging technique displayed a high level of agreement with a manual lens gauge for centre thickness measurements; mean difference 5 ± 9 μm (95% LoA -14 to +23 μm), and a very high level of repeatability; mean difference between orthogonal meridians 1 ± 3 μm (95% LoA -6 to +8 μm). Lens thickness profiles varied between lens designs, with distance from the lens centre, and with back vertex power. Increasing back vertex powers resulted in a significant over or underestimation (up to 33% for high minus powers) of the average lens thickness based on the centre lens thickness. CONCLUSIONS: The thickness of scleral contact lenses varies with distance from the lens centre and the back vertex power. The average lens thickness value derived from the entire lens provides a more appropriate representation of the true lens thickness and should be used in the calculation of scleral lens oxygen transmissibility.
PURPOSE: To develop a methodology to reliably determine the thickness profile of scleral contact lenses and examine the relationship between the centre and average lens thickness for a range of lens designs and back vertex powers. METHODS: High-resolution images of 37 scleral trial lenses (Epicon LC, Rose K2 XL and ICD 16.5) were captured using an optical coherence tomographer, and their thickness profiles were generated after correcting for known measurement artefacts. Centre lens thickness values were compared with manual lens gauge measurements, and repeatability was assessed by comparing average thickness values derived from orthogonal meridians of each lens. RESULTS: The imaging technique displayed a high level of agreement with a manual lens gauge for centre thickness measurements; mean difference 5 ± 9 μm (95% LoA -14 to +23 μm), and a very high level of repeatability; mean difference between orthogonal meridians 1 ± 3 μm (95% LoA -6 to +8 μm). Lens thickness profiles varied between lens designs, with distance from the lens centre, and with back vertex power. Increasing back vertex powers resulted in a significant over or underestimation (up to 33% for high minus powers) of the average lens thickness based on the centre lens thickness. CONCLUSIONS: The thickness of scleral contact lenses varies with distance from the lens centre and the back vertex power. The average lens thickness value derived from the entire lens provides a more appropriate representation of the true lens thickness and should be used in the calculation of scleral lens oxygen transmissibility.
Authors: Andrew Chen; Omar B Osman; Zachery B Harris; Azin Abazri; Robert Honkanen; M Hassan Arbab Journal: Biomed Opt Express Date: 2020-02-07 Impact factor: 3.732
Authors: Hosein Hoseini-Yazdi; Stephen J Vincent; Michael J Collins; Scott A Read; David Alonso-Caneiro Journal: Sci Rep Date: 2019-03-05 Impact factor: 4.379
Authors: Alejandra Consejo; David Alonso-Caneiro; Maciej Wojtkowski; Stephen J Vincent Journal: Ophthalmic Physiol Opt Date: 2020-07-23 Impact factor: 3.117
Authors: Cameron K Postnikoff; Andrew D Pucker; John Laurent; Carrie Huisingh; Gerald McGwin; Jason J Nichols Journal: Invest Ophthalmol Vis Sci Date: 2019-01-02 Impact factor: 4.799