Terahertz reflectometry of burn wounds in a rat model

M. Hassan Arbab; Trevor C. Dickey; Dale P. Winebrenner; Antao Chen; Mathew B. Klein; Pierre D. Mourad

doi:10.1364/BOE.2.002339

Terahertz reflectometry of burn wounds in a rat model

M. Hassan Arbab
, Trevor C. Dickey
, Dale P. Winebrenner
, Antao Chen
, Mathew B. Klein
, Pierre D. Mourad

Biomedical Engineering

Stony Brook University

University of Washington

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

76 Scopus citations

Abstract

We present sub-millimeter wave reflectometry of an experimental rat skin burn model obtained by the Terahertz Time-Domain Spectroscopy (THz-TDS) technique. Full thickness burns, as confirmed by histology, were created on rats (n = 4) euthanized immediately prior to the experiments. Statistical analysis shows that the burned tissue exhibits higher reflectivity compared to normal skin over a frequency range between 0.5 and 0.7 THz (p < 0.05), likely due to post-burn formation of interstitial edema. Furthermore, we demonstrate that a double Debye dielectric relaxation model can be used to explain the terahertz response of both normal and less severely burned rat skin. Finally, our data suggest that the degree of conformation between the experimental burn measurements and the model for normal skin can potentially be used to infer the extent of burn severity.

Original language	English
Pages (from-to)	2339-2347
Number of pages	9
Journal	Biomedical Optics Express
Volume	2
Issue number	8
DOIs	https://doi.org/10.1364/BOE.2.002339
State	Published - Aug 1 2011

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title = "Terahertz reflectometry of burn wounds in a rat model",

abstract = "We present sub-millimeter wave reflectometry of an experimental rat skin burn model obtained by the Terahertz Time-Domain Spectroscopy (THz-TDS) technique. Full thickness burns, as confirmed by histology, were created on rats (n = 4) euthanized immediately prior to the experiments. Statistical analysis shows that the burned tissue exhibits higher reflectivity compared to normal skin over a frequency range between 0.5 and 0.7 THz (p < 0.05), likely due to post-burn formation of interstitial edema. Furthermore, we demonstrate that a double Debye dielectric relaxation model can be used to explain the terahertz response of both normal and less severely burned rat skin. Finally, our data suggest that the degree of conformation between the experimental burn measurements and the model for normal skin can potentially be used to infer the extent of burn severity.",

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doi = "10.1364/BOE.2.002339",

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T1 - Terahertz reflectometry of burn wounds in a rat model

AU - Hassan Arbab, M.

AU - Dickey, Trevor C.

AU - Winebrenner, Dale P.

AU - Chen, Antao

AU - Klein, Mathew B.

AU - Mourad, Pierre D.

PY - 2011/8/1

Y1 - 2011/8/1

N2 - We present sub-millimeter wave reflectometry of an experimental rat skin burn model obtained by the Terahertz Time-Domain Spectroscopy (THz-TDS) technique. Full thickness burns, as confirmed by histology, were created on rats (n = 4) euthanized immediately prior to the experiments. Statistical analysis shows that the burned tissue exhibits higher reflectivity compared to normal skin over a frequency range between 0.5 and 0.7 THz (p < 0.05), likely due to post-burn formation of interstitial edema. Furthermore, we demonstrate that a double Debye dielectric relaxation model can be used to explain the terahertz response of both normal and less severely burned rat skin. Finally, our data suggest that the degree of conformation between the experimental burn measurements and the model for normal skin can potentially be used to infer the extent of burn severity.

AB - We present sub-millimeter wave reflectometry of an experimental rat skin burn model obtained by the Terahertz Time-Domain Spectroscopy (THz-TDS) technique. Full thickness burns, as confirmed by histology, were created on rats (n = 4) euthanized immediately prior to the experiments. Statistical analysis shows that the burned tissue exhibits higher reflectivity compared to normal skin over a frequency range between 0.5 and 0.7 THz (p < 0.05), likely due to post-burn formation of interstitial edema. Furthermore, we demonstrate that a double Debye dielectric relaxation model can be used to explain the terahertz response of both normal and less severely burned rat skin. Finally, our data suggest that the degree of conformation between the experimental burn measurements and the model for normal skin can potentially be used to infer the extent of burn severity.

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DO - 10.1364/BOE.2.002339

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JO - Biomedical Optics Express

JF - Biomedical Optics Express

IS - 8

ER -

Terahertz reflectometry of burn wounds in a rat model

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