Determination of inclusion depth in ex vivo animal tissues using surface enhanced deep Raman spectroscopy

Sara Mosca; Priyanka Dey; Tanveer A. Tabish; Francesca Palombo; Nicholas Stone; Pavel Matousek

doi:10.1002/jbio.201960092

Determination of inclusion depth in ex vivo animal tissues using surface enhanced deep Raman spectroscopy

Sara Mosca
, Priyanka Dey
, Tanveer A. Tabish
, Francesca Palombo
, Nicholas Stone^*
, Pavel Matousek

^*Corresponding author for this work

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

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Abstract

This work presents recent developments in spatially offset and transmission Raman spectroscopy for noninvasive detection and depth prediction of a single SERS inclusion located deep inside ex vivo biological tissues. The concept exploits the differential attenuation of Raman bands brought about by their different absorption due to tissue constituents enabling to predict the inclusion depth. Four different calibration models are tested and evaluated to predict the depth of surface enhanced Raman scattering labelled nanoparticles, within an up to 40 mm slab of porcine tissue. An external measurement carried out in transmission mode, with a noninvasively built model on the analysed sample, is shown to be insensitive to variations of the overall thickness of the tissue yielding an average root-mean-square error of prediction of 6.7%. The results pave the way for future noninvasive deep Raman spectroscopy in vivo enabling to localise cancer biomarkers for an early diagnosis of multiple diseases.

Original language	English
Article number	e201960092
Number of pages	7
Journal	Journal of Biophotonics
Volume	13
Issue number	1
Early online date	17 Oct 2019
DOIs	https://doi.org/10.1002/jbio.201960092
Publication status	Published - 1 Jan 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

biological ex vivo tissues
deep Raman spectroscopy
noninvasive detection
SESORS
UKRI
EPSRC
EP/R020965/1

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Determination of inclusion depth in ex vivo animal tissues PDFFinal published version, 2.12 MBLicence: CC BY

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title = "Determination of inclusion depth in ex vivo animal tissues using surface enhanced deep Raman spectroscopy",

abstract = "This work presents recent developments in spatially offset and transmission Raman spectroscopy for noninvasive detection and depth prediction of a single SERS inclusion located deep inside ex vivo biological tissues. The concept exploits the differential attenuation of Raman bands brought about by their different absorption due to tissue constituents enabling to predict the inclusion depth. Four different calibration models are tested and evaluated to predict the depth of surface enhanced Raman scattering labelled nanoparticles, within an up to 40 mm slab of porcine tissue. An external measurement carried out in transmission mode, with a noninvasively built model on the analysed sample, is shown to be insensitive to variations of the overall thickness of the tissue yielding an average root-mean-square error of prediction of 6.7\%. The results pave the way for future noninvasive deep Raman spectroscopy in vivo enabling to localise cancer biomarkers for an early diagnosis of multiple diseases.",

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author = "Sara Mosca and Priyanka Dey and Tabish, \{Tanveer A.\} and Francesca Palombo and Nicholas Stone and Pavel Matousek",

note = "Funding Information: This work was supported by the Engineering and Physical Sciences Research Council grant EP/R020965/1. Publisher Copyright: {\textcopyright} 2019 Science and Technology Facilities Council. Journal of Biophotonics published by WILEY-VCH Verlag GmbH \& Co. KGaA, Weinheim",

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AU - Dey, Priyanka

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AU - Palombo, Francesca

AU - Stone, Nicholas

AU - Matousek, Pavel

N1 - Funding Information: This work was supported by the Engineering and Physical Sciences Research Council grant EP/R020965/1. Publisher Copyright: © 2019 Science and Technology Facilities Council. Journal of Biophotonics published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

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N2 - This work presents recent developments in spatially offset and transmission Raman spectroscopy for noninvasive detection and depth prediction of a single SERS inclusion located deep inside ex vivo biological tissues. The concept exploits the differential attenuation of Raman bands brought about by their different absorption due to tissue constituents enabling to predict the inclusion depth. Four different calibration models are tested and evaluated to predict the depth of surface enhanced Raman scattering labelled nanoparticles, within an up to 40 mm slab of porcine tissue. An external measurement carried out in transmission mode, with a noninvasively built model on the analysed sample, is shown to be insensitive to variations of the overall thickness of the tissue yielding an average root-mean-square error of prediction of 6.7%. The results pave the way for future noninvasive deep Raman spectroscopy in vivo enabling to localise cancer biomarkers for an early diagnosis of multiple diseases.

AB - This work presents recent developments in spatially offset and transmission Raman spectroscopy for noninvasive detection and depth prediction of a single SERS inclusion located deep inside ex vivo biological tissues. The concept exploits the differential attenuation of Raman bands brought about by their different absorption due to tissue constituents enabling to predict the inclusion depth. Four different calibration models are tested and evaluated to predict the depth of surface enhanced Raman scattering labelled nanoparticles, within an up to 40 mm slab of porcine tissue. An external measurement carried out in transmission mode, with a noninvasively built model on the analysed sample, is shown to be insensitive to variations of the overall thickness of the tissue yielding an average root-mean-square error of prediction of 6.7%. The results pave the way for future noninvasive deep Raman spectroscopy in vivo enabling to localise cancer biomarkers for an early diagnosis of multiple diseases.

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KW - deep Raman spectroscopy

KW - noninvasive detection

KW - SESORS

KW - UKRI

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Determination of inclusion depth in ex vivo animal tissues using surface enhanced deep Raman spectroscopy

Abstract

UN SDGs

Keywords

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