Fourier transform infrared spectroscopy imaging of live epithelial cancer cells under non-aqueous media
Fourier transform infrared spectroscopy imaging of live epithelial cancer cells under non-aqueous media
AIMS: Fourier transform infrared (FT-IR) imaging is increasingly being applied to biomedical specimens, but strong IR absorption by water complicates live cell imaging. This study investigates the viability of adherent epithelial cells maintained for short periods under mineral oils in order to facilitate live cell spectroscopy using FT-IR with subsequent imaging.
METHODS: The MGH-U1 urothelial or CaCo2 colorectal cancer cell lines were grown on plastic surfaces or mid-range infrared transparent windows. Medium in established cultures was replaced with paraffin mineral oil, or Fluorolube, for up to 2 h, and viability assessed by supravital staining. Drug handling characteristics were also assessed. Imaging of preparations was attempted by reflectance and transmission using a Varian FT-IR microscope.
RESULTS: Cells covered by mineral oil remained viable for 2 h, with recovery into normal medium possible. MTT ((3-(4,5-dimethylthlazol-2-yl)-2,5-diphenyl tetrazolium) conversion to crystalline formazan and differential patterns of drug uptake were maintained. The combination of a calcium fluoride substrate, Fluorolube oil, and transmission optics proved best for spectroscopy. Spectral features were used to obtain images of live cells.
CONCLUSIONS: The viability of cells overlaid with IR transparent oils was assessed as part of a technique to optimise conditions for FT-IR imaging. Images of untreated cells were obtained using both reflectance and transmission. This represents an effective means of imaging live cells by IR spectroscopy, and also means that imaging is not necessarily a terminal event. It also increases options for producing images based on real-time biochemistry in a range of in vitro experimental and 'optical biopsy' contexts.
Soh, J.
2f8b2b95-ae38-43e6-8245-f6490ed4ea76
Chueng, A.
efcd6e8f-c261-4f6d-8f4c-f183fdebfd3d
Adio, A.
e00761e9-d30b-4e13-a9d7-b9f1d036c4ed
Cooper, A.J.
8a21c297-eda3-4479-8e81-1de258c8e2a1
Birch, B.R.
536ee8d2-9cf9-4412-a29b-d2267fa9d765
Lwaleed, B.A.
e7c59131-82ad-4a14-a227-7370e91e3f21
Soh, J.
2f8b2b95-ae38-43e6-8245-f6490ed4ea76
Chueng, A.
efcd6e8f-c261-4f6d-8f4c-f183fdebfd3d
Adio, A.
e00761e9-d30b-4e13-a9d7-b9f1d036c4ed
Cooper, A.J.
8a21c297-eda3-4479-8e81-1de258c8e2a1
Birch, B.R.
536ee8d2-9cf9-4412-a29b-d2267fa9d765
Lwaleed, B.A.
e7c59131-82ad-4a14-a227-7370e91e3f21
Soh, J., Chueng, A., Adio, A., Cooper, A.J., Birch, B.R. and Lwaleed, B.A.
(2013)
Fourier transform infrared spectroscopy imaging of live epithelial cancer cells under non-aqueous media.
Journal of Clinical Pathology.
(doi:10.1136/jclinpath-2012-201098).
(PMID:23393203)
Abstract
AIMS: Fourier transform infrared (FT-IR) imaging is increasingly being applied to biomedical specimens, but strong IR absorption by water complicates live cell imaging. This study investigates the viability of adherent epithelial cells maintained for short periods under mineral oils in order to facilitate live cell spectroscopy using FT-IR with subsequent imaging.
METHODS: The MGH-U1 urothelial or CaCo2 colorectal cancer cell lines were grown on plastic surfaces or mid-range infrared transparent windows. Medium in established cultures was replaced with paraffin mineral oil, or Fluorolube, for up to 2 h, and viability assessed by supravital staining. Drug handling characteristics were also assessed. Imaging of preparations was attempted by reflectance and transmission using a Varian FT-IR microscope.
RESULTS: Cells covered by mineral oil remained viable for 2 h, with recovery into normal medium possible. MTT ((3-(4,5-dimethylthlazol-2-yl)-2,5-diphenyl tetrazolium) conversion to crystalline formazan and differential patterns of drug uptake were maintained. The combination of a calcium fluoride substrate, Fluorolube oil, and transmission optics proved best for spectroscopy. Spectral features were used to obtain images of live cells.
CONCLUSIONS: The viability of cells overlaid with IR transparent oils was assessed as part of a technique to optimise conditions for FT-IR imaging. Images of untreated cells were obtained using both reflectance and transmission. This represents an effective means of imaging live cells by IR spectroscopy, and also means that imaging is not necessarily a terminal event. It also increases options for producing images based on real-time biochemistry in a range of in vitro experimental and 'optical biopsy' contexts.
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e-pub ahead of print date: 7 February 2013
Organisations:
Faculty of Health Sciences
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Local EPrints ID: 348733
URI: http://eprints.soton.ac.uk/id/eprint/348733
ISSN: 0021-9746
PURE UUID: 77e1b74c-cee1-4bb9-b212-338c8473bc29
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Date deposited: 18 Feb 2013 16:35
Last modified: 06 Aug 2024 01:39
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Author:
J. Soh
Author:
A. Chueng
Author:
A. Adio
Author:
A.J. Cooper
Author:
B.R. Birch
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