The primary objective of this clinical trial is to assess the clinical performance of the investigational device. To that end, the Limits of Agreement with respect to comparator devices are analyzed. The Limits of Agreement allow estimating the expected measurement deviation per measurand, which is compared to the "maximum acceptable measurement error", as defined by the Risk Analysis of the investigational device, to assess the risk involved in measurements of the investigational device. Furthermore, the in-vivo repeatability will be quantified for each measurand, as well as the confidence intervals for mean deviation with respect to the current gold standard device. As a secondary objective of the study, raw measurement data will be collected to allow for improvement of existing algorithms, development of additional measurands and for retrospective analysis.
The EYESTAR900 (the investigational device) is a new device by HAAG-STREIT AG, for measurement of optical biometry and advanced corneal topography by swept-source optical coherence tomography (OCT).
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
55
EYESTAR 900 is an optical biometry device used to create a geometrical representation of the eye by means of optical interferometry. The intervention are optical, non-contact examinations with the investigational device EYESTAR 900 and comparative device(s). Results of the examinations serve to compare the performance data of the investigational device with those of the comparative devices.
University Hopital Basel
Basel, Switzerland
Keratometry Measurand: Kmean (Spherical refractive power of central cornea) in keratometric diopters [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for Kmean.
Time frame: Through study completion, approximately 7 months.
Keratometry Measurand: AST (Anterior central corneal astigmatism) in [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for AST.
Time frame: Through study completion, approximately 7 months.
Keratometry Measurand: Axis (Anterior steep meridian angle) in [°]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for Axis. Axis is the angle of the anterior central corneal astigmatism. The value of Axis is measured in \[°\], whereas the differences shall be expressed in \[dpt\].
Time frame: Through study completion, approximately 7 months.
Axial Measurand: AL (Axial length) in [mm]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for AL. AL is measured from the corneal tear film to the inner limiting membrane.
Time frame: Through study completion, approximately 7 months.
Axial Measurand: CCT (Corneal thickness) in [μm]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for CCT. CCT is measured from the corneal tear film to the corneal endothelium.
Time frame: Through study completion, approximately 7 months.
Axial Measurand: ACD (Anterior chamber depth) in [mm]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for ACD. ACD is measured from the corneal tear film to the anterior surface of the lens.
Time frame: Through study completion, approximately 7 months.
Axial Measurand: LT (Lens thickness) in [mm]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for LT. LT is measured from the anterior to the posterior surface of the lens.
Time frame: Through study completion, approximately 7 months.
Imaging Measurand: WTW (White-to-White) in [mm]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator devices for WTW. WTW distance is the horizontal diameter of a best fit circle to the iris border.
Time frame: Through study completion, approximately 7 months.
Imaging Measurand: ICX / ICY (Iris barycenter in horizontal direction / in vertical direction) in [mm]
In-vivo repeatability of investigational and comparator device for Iris barycenter. The iris barycenter is the displacement of the iris center relative to the vertex in X (horizontal direction) and Y (vertical direction) coordinates.
Time frame: Through study completion, approximately 7 months.
Imaging Measurand: PD (Pupil diameter) in [mm]
In-vivo repeatability of investigational and comparator device for PD. PD is measured at the diameter of a best fit circle to the pupil border.
Time frame: Through study completion, approximately 7 months.
Imaging Measurand: PCX / PCY (Pupil barycenter in horizontal direction / in vertical direction) in [mm]
In-vivo repeatability of investigational and comparator device for Iris barycenter. The pupil barycenter is the displacement of the iris center relative to the vertex in X (horizontal direction) and Y (vertical direction) coordinates.
Time frame: Through study completion, approximately 7 months.
Anterior corneal topography: Elevation (Anterior torical elevation) in [µm] (2D-map)
In-vivo repeatability and confidence interval of mean deviation with respect to comparator device, for elevation in \[µ\]; axial curvature in \[dpt\].
Time frame: Through study completion, approximately 7 months.
Anterior corneal topography: Axial curvature (Anterior tangential curvature) in [dpt] (2D-map)
In-vivo repeatability and confidence interval of difference between investigational and comparator devices for Anterior torical elevation. The measuring performance over the 2D-map is subdivided in three zones (central zone, middle zone, peripheral zone).
Time frame: Through study completion, approximately 7 months.
Posterior corneal topography: Elevation (Posterior torical elevation) in [µm] (2D-map)
In-vivo repeatability of investigational and comparator device for Posterior torical elevation. The measuring performance over the 2D-map is subdivided in three zones (central zone, middle zone, peripheral zone).
Time frame: Through study completion, approximately 7 months.
Posterior corneal topography: Axial curvature (Posterior tangential curvature) in [dpt] (2D-map)
In-vivo repeatability and confidence interval of differences of investigational and comparator devices for Posterior tangential curvature. The measuring performance over the 2D-map is subdivided in three zones (central zone, middle zone, peripheral zone).
Time frame: Through study completion, approximately 7 months.
Corneal pachymetry: Corneal thickness map in [µm]
In-vivo repeatability and confidence interval of differences of investigational and comparator device for Corneal thickness map. The measuring performance over the 2D-map is subdivided in three zones (central zone, middle zone, peripheral zone).
Time frame: Through study completion, approximately 7 months.
Simulated Keratometry: SimKmean (Mean simulated keratometry) in [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator devices for SimKmean.
Time frame: Through study completion, approximately 7 months.
Simulated Keratometry: SimAST (Simulated astigmatism) in [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator devices for SimAST.
Time frame: Through study completion, approximately 7 months.
Simulated Keratometry: SimAxis (Simulated keratometry anterior steep meridian angle) in [°]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for SimAxis. The value of Axis is measured in \[°\], whereas the differences shall be expressed in \[dpt\]. SimAxis is the angle of the larger simulated keratometry radius with respect to the horizontal axis X.
Time frame: Through study completion, approximately 7 months.
Simulated Keratometry: Anterior corneal shape factor (E): Dimensionless quantity
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for Anterior corneal shape factor (E), that characterizes the anterior corneal asphericity.
Time frame: Through study completion, approximately 7 months.
Simulated Posterior Keratometry: SimPKmean (Mean simulated posterior keratometry) in [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for SimPKmean. SimPKmean is the corresponding refractive power in diopters.
Time frame: Through study completion, approximately 7 months.
Simulated Posterior Keratometry: SimPAST (Simulated keratometry posterior corneal astigmatism) in [dpt]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for SimPAST.
Time frame: Through study completion, approximately 7 months.
Simulated Posterior Keratometry: SimPAxis (Simulated keratometry posterior steep meridian angle) in [°]
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for SimPAxis. SimPAxis represents the angle of the larger simulated keratometry radius of curvature with respect to the horizontal axis X.
Time frame: Through study completion, approximately 7 months.
Simulated Posterior Keratometry: Posterior corneal shape factor (PE): Dimensionless quantity
In-vivo repeatability, limits of agreement and confidence interval of difference between investigational and comparator device for Posterior corneal shape factor (PE), that characterizes the posterior corneal asphericity.
Time frame: Through study completion, approximately 7 months.
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