Optimized speckle variance OCT imaging of microvasculature.

Adrian Mariampillai Michael K K Leung Mark Jarvi Beau A Standish Kenneth Lee Brian C Wilson Alex Vitkin Victor X D Yang

Opt Lett

Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada.

Published: April 2010

Optimized svOCT imaging enhances visibility of microvasculature under varying tissue motion conditions.
Maintaining frame rates to limit tissue displacement improves image contrast and capillary detection.
In vivo studies show svOCT outperforms Doppler OCT in detecting blood vessels, even with high bulk motion.

We optimize speckle variance optical coherence tomography (svOCT) imaging of microvasculature in high and low bulk tissue motion scenarios. To achieve a significant level of image contrast, frame rates must be optimized such that tissue displacement between frames is less than the beam radius. We demonstrate that higher accuracy estimates of speckle variance can enhance the detection of capillaries. These findings are illustrated in vivo by imaging the dorsal window chamber model (low bulk motion). We also show svOCT imaging of the nonstabilized finger (high bulk motion), using optimized imaging parameters, demonstrating better vessel detection than Doppler OCT.

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http://dx.doi.org/10.1364/OL.35.001257	DOI Listing

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