Automatic intraocular lens segmentation and detection in optical coherence tomography images.

We present a new algorithm for automatic segmentation and detection of an accommodative intraocular lens implanted in a biomechanical eye model. We extracted lens curvature and position. The algorithm contains denoising and fan correction by a multi-level calibration routine.

Biomechanical eye model and measurement setup for investigating accommodating intraocular lenses.

We present a biomechanical eye model to induce pseudophakic accommodative movement for evaluation of the focal shift of accommodative intraocular lenses. Therefore, an accommodative intraocular lens (IOL) was implanted into freshly enucleated porcine eyes. The eyes were glued into a mechanical apparatus to expand the ciliar body effectuating mechanical accommodation.

[Investigation of the theoretical image quality of aspheric intraocular lenses by decentration. Hoya AF-1 iMics1 und Zeiss ASPHINA(TM) (Invent ZO)].

Background: The image quality of aberration correcting aspherical intraocular lenses (IOLs) depends on the centration in the eye. Aberration correcting IOLs of the second generation are claimed to be more robust to decentration. In this study the image quality of such IOLs was analyzed with decentration values of up to 1 mm.

Photochromic dynamics of ophthalmic lenses.

We describe and characterize a straightforward test setup for characterizing temporal and spectral dynamics of photochromic spectacle materials. Three measurement examples of contemporary silicate and organic photochromic spectacles are provided. The setup showed a good absolute accuracy of ≤5% of the luminous transmittance (τ(v)) and repeatability of better than 3%.

[Contact free in-vivo imaging of cornea and anterior chamber of the human eye - a qualitative comparison of imaging techniques].

For the contactless diagnosis of the human cornea and anterior chamber in clinical routine, two systems have been established besides the slit lamp: the Scheimpflug camera and optical coherence tomography (OCT). A short introduction into these imaging methods is provided along with a comparison with respect to imaging quality and the visibility of relevant ocular structures. We present different examples from special clinical diagnostics such as keratoconus, condition after keratoplasty or tumours in ocular tissue.