Literature DB >> 28271008

Influence of water content on Raman spectroscopy characterization of skin sample.

Soogeun Kim1, Kyung Min Byun2, Soo Yeol Lee3.   

Abstract

We report that the Raman spectrum obtained from porcine skin varies significantly with the change of skin water content. At different water contents from 40 to 55 wt.%, the Raman spectra results using confocal Raman spectroscopy show that the spectral variation of porcine skin is highly affected by skin water content. Experimental data are consistent with the Monte Carlo calculation and it is proved that the intensity of the Raman spectrum depends on the angle distribution and collection efficiency of backscattered light from the sample surface for a varied water content. It is suggested that water content for a given skin sample should be controlled carefully to minimize errors and deviations in the Raman peak analyses.

Entities:  

Keywords:  (170.1870) Dermatology; (170.5660) Raman spectroscopy; (170.6510) Spectroscopy, tissue diagnostics; (290.5860) Scattering, Raman

Year:  2017        PMID: 28271008      PMCID: PMC5330544          DOI: 10.1364/BOE.8.001130

Source DB:  PubMed          Journal:  Biomed Opt Express        ISSN: 2156-7085            Impact factor:   3.732


  29 in total

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2.  Determining the optical properties of turbid mediaby using the adding-doubling method.

Authors:  S A Prahl; M J van Gemert; A J Welch
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3.  Dehydration mechanism of optical clearing in tissue.

Authors:  Christopher G Rylander; Oliver F Stumpp; Thomas E Milner; Nate J Kemp; John M Mendenhall; Kenneth R Diller; A J Welch
Journal:  J Biomed Opt       Date:  2006 Jul-Aug       Impact factor: 3.170

4.  Light propagation in tissues with controlled optical properties.

Authors:  V V Tuchin; I L Maksimova; D A Zimnyakov; I L Kon; A H Mavlyutov; A A Mishin
Journal:  J Biomed Opt       Date:  1997-10       Impact factor: 3.170

5.  Raman microspectroscopy for skin cancer detection in vitro.

Authors:  Chad A Lieber; Shovan K Majumder; Dean Billheimer; Darrel L Ellis; Anita Mahadevan-Jansen
Journal:  J Biomed Opt       Date:  2008 Mar-Apr       Impact factor: 3.170

6.  Effect of normal variations on disease classification of Raman spectra from cervical tissue.

Authors:  Elizabeth Vargis; Elizabeth M Kanter; Shovan K Majumder; Matthew D Keller; Richard B Beaven; Gautam G Rao; Anita Mahadevan-Jansen
Journal:  Analyst       Date:  2011-06-13       Impact factor: 4.616

7.  Confocal laser scanning microscopy of porcine skin: implications for human wound healing studies.

Authors:  N J Vardaxis; T A Brans; M E Boon; R W Kreis; L M Marres
Journal:  J Anat       Date:  1997-05       Impact factor: 2.610

8.  Raman Spectroscopic Characterization of Melanoma and Benign Melanocytic Lesions Suspected of Melanoma Using High-Wavenumber Raman Spectroscopy.

Authors:  Inês P Santos; Peter J Caspers; Tom C Bakker Schut; Remco van Doorn; Vincent Noordhoek Hegt; Senada Koljenović; Gerwin J Puppels
Journal:  Anal Chem       Date:  2016-07-22       Impact factor: 6.986

Review 9.  Clinical instrumentation and applications of Raman spectroscopy.

Authors:  Isaac Pence; Anita Mahadevan-Jansen
Journal:  Chem Soc Rev       Date:  2016-04-07       Impact factor: 54.564

10.  Raman spectroscopy of endoscopic colonic biopsies from patients with ulcerative colitis to identify mucosal inflammation and healing.

Authors:  James Addis; Noor Mohammed; Olorunda Rotimi; Derek Magee; Animesh Jha; Venkataraman Subramanian
Journal:  Biomed Opt Express       Date:  2016-04-27       Impact factor: 3.732
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  1 in total

Review 1.  A roadmap for the clinical implementation of optical-imaging biomarkers.

Authors:  Dale J Waterhouse; Catherine R M Fitzpatrick; Brian W Pogue; James P B O'Connor; Sarah E Bohndiek
Journal:  Nat Biomed Eng       Date:  2019-04-29       Impact factor: 29.234
  1 in total

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