Air-pulse OCE for assessment of age-related changes in mouse cornea in vivo

Jiasong Li; Shang Wang; M. Singh; S. Aglyamov; S. Emelianov; M. D. Twa; K. V. Larin

doi:10.1088/1612-2011/11/6/065601

Air-pulse OCE for assessment of age-related changes in mouse cornea in vivo

Jiasong Li, Shang Wang, M. Singh, S. Aglyamov, S. Emelianov, M. D. Twa, K. V. Larin

Department of Biomedical Engineering

Research output: Contribution to journal › Article › peer-review

66 Scopus citations

Abstract

We demonstrate the use of phase-stabilized swept source optical coherence elastography (PhS-SSOCE) to assess the relaxation rate of deformation created by a focused air-pulse in tissue-mimicking gelatin phantoms of various concentrations and mouse corneas of different ages in vivo. The results show that the relaxation rate can be quantified and is different for gels with varying concentrations of gelatin and mouse corneas of different ages. The results indicate that gel phantoms with higher concentrations of gelatin as well as older mouse corneas have faster relaxation rates indicating stiffer material. This non-contact and non-invasive measurement technique utilizes low surface displacement amplitude (in μ m scale) for tissue excitation and, therefore, can be potentially used to study the biomechanical properties of ocular and other sensitive tissues.

Original language	English
Article number	065601
Journal	Laser Physics Letters
Volume	11
Issue number	6
DOIs	https://doi.org/10.1088/1612-2011/11/6/065601
State	Published - 1 Jun 2014

Keywords

cornea
in vivo
mechanic property
optical coherence tomography
relaxation rate

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10.1088/1612-2011/11/6/065601

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title = "Air-pulse OCE for assessment of age-related changes in mouse cornea in vivo",

abstract = "We demonstrate the use of phase-stabilized swept source optical coherence elastography (PhS-SSOCE) to assess the relaxation rate of deformation created by a focused air-pulse in tissue-mimicking gelatin phantoms of various concentrations and mouse corneas of different ages in vivo. The results show that the relaxation rate can be quantified and is different for gels with varying concentrations of gelatin and mouse corneas of different ages. The results indicate that gel phantoms with higher concentrations of gelatin as well as older mouse corneas have faster relaxation rates indicating stiffer material. This non-contact and non-invasive measurement technique utilizes low surface displacement amplitude (in μ m scale) for tissue excitation and, therefore, can be potentially used to study the biomechanical properties of ocular and other sensitive tissues.",

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AU - Li, Jiasong

AU - Wang, Shang

AU - Singh, M.

AU - Aglyamov, S.

AU - Emelianov, S.

AU - Twa, M. D.

AU - Larin, K. V.

PY - 2014/6/1

Y1 - 2014/6/1

N2 - We demonstrate the use of phase-stabilized swept source optical coherence elastography (PhS-SSOCE) to assess the relaxation rate of deformation created by a focused air-pulse in tissue-mimicking gelatin phantoms of various concentrations and mouse corneas of different ages in vivo. The results show that the relaxation rate can be quantified and is different for gels with varying concentrations of gelatin and mouse corneas of different ages. The results indicate that gel phantoms with higher concentrations of gelatin as well as older mouse corneas have faster relaxation rates indicating stiffer material. This non-contact and non-invasive measurement technique utilizes low surface displacement amplitude (in μ m scale) for tissue excitation and, therefore, can be potentially used to study the biomechanical properties of ocular and other sensitive tissues.

AB - We demonstrate the use of phase-stabilized swept source optical coherence elastography (PhS-SSOCE) to assess the relaxation rate of deformation created by a focused air-pulse in tissue-mimicking gelatin phantoms of various concentrations and mouse corneas of different ages in vivo. The results show that the relaxation rate can be quantified and is different for gels with varying concentrations of gelatin and mouse corneas of different ages. The results indicate that gel phantoms with higher concentrations of gelatin as well as older mouse corneas have faster relaxation rates indicating stiffer material. This non-contact and non-invasive measurement technique utilizes low surface displacement amplitude (in μ m scale) for tissue excitation and, therefore, can be potentially used to study the biomechanical properties of ocular and other sensitive tissues.

KW - cornea

KW - in vivo

KW - mechanic property

KW - optical coherence tomography

KW - relaxation rate

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JO - Laser Physics Letters

JF - Laser Physics Letters

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Air-pulse OCE for assessment of age-related changes in mouse cornea in vivo

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Keywords

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