Abstract
To determine the reliability of swept- source optical coherence tomography in cases in which soft contact lenses cannot be removed when acquiring biometric measurements. Eight subjects were included and only one eye per participant was analyzed. Each eye was measured six times by swept-source optical coherence tomography with the IOLMaster 700 instrument (Carl Zeiss Meditec, Jena, Germany). Axial length, central corneal thickness, anterior chamber depth, lens thickness, and keratometric measurements were evaluated for the naked eye and while wearing soft contact lenses of three different powers (-1.5, -3.0, and +2.0 D). There were statistically significant changes in axial length, central corneal thickness, anterior chamber depth, and keratometric measurements with soft contact lenses as compared to the naked eye (p<0.001). However, there were no significant differences in lens thickness outcomes between the naked eye and while wearing the three soft contact lenses (p>0.5). The changes in axial length, central corneal thickness, and anterior chamber depth were lens-specific and dependent on the thickness of the lens used. Sept-source optical coherence tomography based lens thickness measurements while wearing soft contact lenses are comparable to those of the naked eye. However, the thickness and the optical design of the soft contact lens may lead to significant differences in the axial lengh, central corneal thickness, anterior chamber deph, and keratometric measurements.
Highlights
Reliable measurement of ocular biometry is necessary for ocular parametric analysis to assess ametropic progression, identify candidates for refractive surgery, and calculate intraocular lens power
The aim of the present study was to assess the reliability of ocular biometric parameters of subjects wearing soft contact lenses obtained via swept-source optical coherence tomography (SS-OCT) with the IOLMaster 700 instrument
These results should prove useful to clinicians regarding the clinical performance of this device for ocular biometric measurements
Summary
Reliable measurement of ocular biometry is necessary for ocular parametric analysis to assess ametropic progression, identify candidates for refractive surgery, and calculate intraocular lens power. The novel ocular optical biometric IOLMaster 700 instrument, recently developed by Carl Zeiss Meditec (Jena, Germany), is a useful swept-source optical coherence tomography (SS-OCT) device with excellent repeatability and reproducibility for non-contact measurement of ocular biometry and generation of optical B-scans (optical cross-sections) to determine the biometric data of the eye[1,2,3]. Non-contact devices are popular among both patients and clinicians for measurement of ocular parameters to control myopia progression and for reference in refractive and cataract surgeries. The effects of contact lens on the reliability of the optical instrument during ocular biometric measurements is of great interest
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