Sebastián Ruiz-Lopera scite author profile

Sebastián Ruiz-Lopera

5Publications

28Citation Statements Received

0Citation Statements Given

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Affiliations

Massachusetts General Hospital, Universidad EAFIT, Harvard University

Publications

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Noise and bias in optical coherence tomography intensity signal decorrelation

et al. 2020

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Functional optical coherence tomography (OCT) imaging based on the decorrelation of the intensity signal has been used extensively in angiography and is finding use in flowmetry and therapy monitoring. In this work, we present a rigorous analysis of the autocorrelation function, introduce the concepts of contrast bias, statistical bias and variability, and identify the optimal definition of the second-order autocorrelation function (ACF) g(2) to improve its estimation from limited data. We benchmark different averaging strategies in reducing statistical bias and variability. We also developed an analytical correction for the noise contributions to the decorrelation of the ACF in OCT that extends the signal-to-noise ratio range in which ACF analysis can be used. We demonstrate the use of all the tools developed in the experimental determination of the lateral speckle size depth dependence in a rotational endoscopic probe with low NA, and we show the ability to more accurately determine the rotational speed of an endoscopic probe to implement NURD detection. We finally present g(2)-based angiography of the finger nailbed, demonstrating the improved results from noise correction and the optimal bias mitigation strategies.

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Design of a Linear in Wavenumber Spectrometer

Ruiz-Lopera

Restrepo

2018

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Computational refocusing in polarization-sensitive optical coherence tomography with phase unstable systems

Ruiz-Lopera

Restrepo

Cannon³

et al. 2021

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Computational adaptive optics in phase-unstable optical coherence tomography

et al. 2020

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We present a scheme for correction of x - y -separable aberrations in optical coherence tomography (OCT) designed to work with phase unstable systems with no hardware modifications. Our approach, termed SHARP, is based on computational adaptive optics and numerical phase correction and follows from the fact that local phase stability is sufficient for the deconvolution of optical aberrations. We demonstrate its applicability in a raster-scan polygon-laser OCT system with strong phase-jitter noise, achieving successful refocusing at depths up to 4 times the Rayleigh range. We also present in vivo endoscopic and ex vivo anterior segment OCT data, showing significant enhancement of image quality, particularly when combining SHARP results with a resolution-preserving despeckling technique like TNode.

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Plug-and-Play Deep Learning Framework for Volumetric Speckle Reduction in OCT

Chintada

Ruiz-Lopera

Villiger

et al. 2023

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