1 September 2009 Depth-resolved measurement of ocular fundus pulsations by low-coherence tissue interferometry
Author Affiliations +
J. of Biomedical Optics, 14(5), 054047 (2009). doi:10.1117/1.3251049
A device that allows for the measurement of ocular fundus pulsations at preselected axial positions of a subject's eye is presented. Unlike previously presented systems, which only allow for observation of the strongest reflecting retinal layer, our system enables the measurement of fundus pulsations at a preselected ocular layer. For this purpose the sample is illuminated by light of low temporal coherence. The layer is then selected by positioning one mirror of a Michelson interferometer according to the depth of the layer. The device contains a length measurement system based on partial coherence interferometry and a line scan charge-coupled device camera for recording and online inspection of the fringe system. In-vivo measurements in healthy humans are performed as proof of principle. The algorithms used for enhancing the recorded images are briefly introduced. The contrast of the observed interference pattern is evaluated for different positions of the measurement mirror and at various distances from the front surface of the cornea. The applications of such a system may be wide, including assessment of eye elongation during myopia development and blood-flow-related changes in intraocular volume.
Nikolaus Dragostinoff, René Werkmeister, Martin Gröschl, Leopold F. Schmetterer, "Depth-resolved measurement of ocular fundus pulsations by low-coherence tissue interferometry," Journal of Biomedical Optics 14(5), 054047 (1 September 2009). https://doi.org/10.1117/1.3251049

Back to Top