DYNAMICS AND FLUCTUATIONS IN BIOMEDICAL PHOTONICS XII

SERGEY ALEXANDROV

doi:10.1117/12.2077988

DYNAMICS AND FLUCTUATIONS IN BIOMEDICAL PHOTONICS XII

SERGEY ALEXANDROV

Physics

Research output: Chapter in Book or Conference Publication/Proceeding › Conference Publication › peer-review

Abstract

Changes in the microcirculation are associated with conditions such as Raynauds disease. Current modalities used to assess the microcirculation such as nailfold capillaroscopy are limited due to their depth ambiguity. A correlation mapping technique was recently developed to extend the capabilities of Optical Coherence Tomography to generate depth resolved images of the microcirculation. Here we present the extension of this technique to microscopy modalities, including confocal microscopy. It is shown that this correlation mapping microscopy technique can extend the capabilities of conventional microscopy to enable mapping of vascular networks in-vivo with high spatial resolution.

Original language	English (Ireland)
Title of host publication	Correlation Mapping Microscopy
Volume	9322
DOIs	https://doi.org/10.1117/12.2077988
Publication status	Published - 1 Jan 2015

Authors (Note for portal: view the doc link for the full list of authors)

Authors
McGrath, J,Alexandrov, S,Owens, P,Subhash, HM,Leahy, MJ,Tuchin, VV,Larin, KV,Leahy, MJ,Wang, RK

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abstract = "Changes in the microcirculation are associated with conditions such as Raynauds disease. Current modalities used to assess the microcirculation such as nailfold capillaroscopy are limited due to their depth ambiguity. A correlation mapping technique was recently developed to extend the capabilities of Optical Coherence Tomography to generate depth resolved images of the microcirculation. Here we present the extension of this technique to microscopy modalities, including confocal microscopy. It is shown that this correlation mapping microscopy technique can extend the capabilities of conventional microscopy to enable mapping of vascular networks in-vivo with high spatial resolution.",

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AB - Changes in the microcirculation are associated with conditions such as Raynauds disease. Current modalities used to assess the microcirculation such as nailfold capillaroscopy are limited due to their depth ambiguity. A correlation mapping technique was recently developed to extend the capabilities of Optical Coherence Tomography to generate depth resolved images of the microcirculation. Here we present the extension of this technique to microscopy modalities, including confocal microscopy. It is shown that this correlation mapping microscopy technique can extend the capabilities of conventional microscopy to enable mapping of vascular networks in-vivo with high spatial resolution.

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M3 - Conference Publication

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DYNAMICS AND FLUCTUATIONS IN BIOMEDICAL PHOTONICS XII

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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