Micro-anatomical and functional assessment of ciliated epithelium in mouse trachea using optical coherence phase microscopy

Rehman Ansari; Christian Buj; Mario Pieper; Peter König; Achim Schweikard; Gereon Hüttmann

doi:10.1364/OE.23.023217

Micro-anatomical and functional assessment of ciliated epithelium in mouse trachea using optical coherence phase microscopy

Rehman Ansari, Christian Buj, Mario Pieper, Peter König, Achim Schweikard, Gereon Hüttmann

Abstract

Motile cilia perform a range of important mechanosensory and chemosensory functions, along with expulsion of mucus and inhaled pathogens from the lungs. Here we demonstrate that spectral domain optical coherence phase microscopy (SD-OCPM), which combines the principles of optical coherence tomography (OCT) and confocal microscopy, is particularly well-suited for characterization of both morphology and the ciliary dynamics of mouse trachea. We present micro-anatomical images of mouse trachea, where different cell types can be clearly visualized. The phase contrast, which measures the sub-nanometer changes in axial optical pathlength is used to determine the frequency and direction of cilia beatings.

Originalsprache	Englisch
Zeitschrift	Optics Express
Jahrgang	23
Ausgabenummer	18
Seiten (von - bis)	23217-23224
Seitenumfang	8
DOIs	https://doi.org/10.1364/OE.23.023217
Publikationsstatus	Veröffentlicht - 07.09.2015

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10.1364/OE.23.023217

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abstract = "Motile cilia perform a range of important mechanosensory and chemosensory functions, along with expulsion of mucus and inhaled pathogens from the lungs. Here we demonstrate that spectral domain optical coherence phase microscopy (SD-OCPM), which combines the principles of optical coherence tomography (OCT) and confocal microscopy, is particularly well-suited for characterization of both morphology and the ciliary dynamics of mouse trachea. We present micro-anatomical images of mouse trachea, where different cell types can be clearly visualized. The phase contrast, which measures the sub-nanometer changes in axial optical pathlength is used to determine the frequency and direction of cilia beatings.",

author = "Rehman Ansari and Christian Buj and Mario Pieper and Peter K{\"o}nig and Achim Schweikard and Gereon H{\"u}ttmann",

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AU - Ansari, Rehman

AU - Buj, Christian

AU - Pieper, Mario

AU - König, Peter

AU - Schweikard, Achim

AU - Hüttmann, Gereon

PY - 2015/9/7

Y1 - 2015/9/7

N2 - Motile cilia perform a range of important mechanosensory and chemosensory functions, along with expulsion of mucus and inhaled pathogens from the lungs. Here we demonstrate that spectral domain optical coherence phase microscopy (SD-OCPM), which combines the principles of optical coherence tomography (OCT) and confocal microscopy, is particularly well-suited for characterization of both morphology and the ciliary dynamics of mouse trachea. We present micro-anatomical images of mouse trachea, where different cell types can be clearly visualized. The phase contrast, which measures the sub-nanometer changes in axial optical pathlength is used to determine the frequency and direction of cilia beatings.

AB - Motile cilia perform a range of important mechanosensory and chemosensory functions, along with expulsion of mucus and inhaled pathogens from the lungs. Here we demonstrate that spectral domain optical coherence phase microscopy (SD-OCPM), which combines the principles of optical coherence tomography (OCT) and confocal microscopy, is particularly well-suited for characterization of both morphology and the ciliary dynamics of mouse trachea. We present micro-anatomical images of mouse trachea, where different cell types can be clearly visualized. The phase contrast, which measures the sub-nanometer changes in axial optical pathlength is used to determine the frequency and direction of cilia beatings.

UR - https://www.scopus.com/pages/publications/84957539197

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DO - 10.1364/OE.23.023217

M3 - Journal articles

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SN - 1094-4087

VL - 23

SP - 23217

EP - 23224

JO - Optics Express

JF - Optics Express

IS - 18

ER -

Micro-anatomical and functional assessment of ciliated epithelium in mouse trachea using optical coherence phase microscopy

Abstract

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