Literature DB >> 18711511

Intrinsic Raman spectroscopy for quantitative biological spectroscopy part I: theory and simulations.

Wei-Chuan Shih1, Kate L Bechtel, Michael S Feld.   

Abstract

We present a novel technique, intrinsic Raman spectroscopy (IRS), to correct turbidity-induced Raman spectral distortions, resulting in the intrinsic Raman spectrum that would be observed in the absence of scattering and absorption. We develop an expression relating the observed and intrinsic Raman spectra through diffuse reflectance using the photon migration depiction of light transport. Numerical simulations are employed to validate the theoretical results and study the dependence of this expression on sample size and elastic scattering anisotropy.

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Year:  2008        PMID: 18711511      PMCID: PMC2840632          DOI: 10.1364/oe.16.012726

Source DB:  PubMed          Journal:  Opt Express        ISSN: 1094-4087            Impact factor:   3.894


  28 in total

1.  A diffusion theory model of spatially resolved, steady-state diffuse reflectance for the noninvasive determination of tissue optical properties in vivo.

Authors:  T J Farrell; M S Patterson; B Wilson
Journal:  Med Phys       Date:  1992 Jul-Aug       Impact factor: 4.071

2.  Analytical model for extracting intrinsic fluorescence in turbid media.

Authors:  J Wu; M S Feld; R P Rava
Journal:  Appl Opt       Date:  1993-07-01       Impact factor: 1.980

3.  Fiber-optic bundle design for quantitative fluorescence measurement from tissue.

Authors:  B W Pogue; G Burke
Journal:  Appl Opt       Date:  1998-11-01       Impact factor: 1.980

4.  Design and testing of a white-light, steady-state diffuse reflectance spectrometer for determination of optical properties of highly scattering systems.

Authors:  M G Nichols; E L Hull; T H Foster
Journal:  Appl Opt       Date:  1997-01-01       Impact factor: 1.980

5.  Recovery of turbidity free fluorescence from measured fluorescence: an experimental approach.

Authors:  Nrusingh Biswal; Sharad Gupta; Nirmalya Ghosh; Asima Pradhan
Journal:  Opt Express       Date:  2003-12-01       Impact factor: 3.894

6.  Intrinsic fluorescence spectroscopy in turbid media: disentangling effects of scattering and absorption.

Authors:  M G Müller; I Georgakoudi; Q Zhang; J Wu; M S Feld
Journal:  Appl Opt       Date:  2001-09-01       Impact factor: 1.980

Review 7.  Spectroscopic and clinical aspects of noninvasive glucose measurements.

Authors:  O S Khalil
Journal:  Clin Chem       Date:  1999-02       Impact factor: 8.327

8.  Subsurface probing in diffusely scattering media using spatially offset Raman spectroscopy.

Authors:  P Matousek; I P Clark; E R C Draper; M D Morris; A E Goodship; N Everall; M Towrie; W F Finney; A W Parker
Journal:  Appl Spectrosc       Date:  2005-04       Impact factor: 2.388

9.  Optical Properties of Circulating Human Blood in the Wavelength Range 400-2500 nm.

Authors:  A Roggan; M Friebel; K Do Rschel; A Hahn; G Mu Ller
Journal:  J Biomed Opt       Date:  1999-01       Impact factor: 3.170

10.  Real time quantitative Raman spectroscopy of supported metal oxide catalysts without the need of an internal standard.

Authors:  S J Tinnemans; M H F Kox; T A Nijhuis; T Visser; B M Weckhuysen
Journal:  Phys Chem Chem Phys       Date:  2005-01-07       Impact factor: 3.676
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  14 in total

1.  A novel non-imaging optics based Raman spectroscopy device for transdermal blood analyte measurement.

Authors:  Chae-Ryon Kong; Ishan Barman; Narahara Chari Dingari; Jeon Woong Kang; Luis Galindo; Ramachandra R Dasari; Michael S Feld
Journal:  AIP Adv       Date:  2011-09-27       Impact factor: 1.548

2.  Detection of squamous cell carcinoma and corresponding biomarkers using optical spectroscopy.

Authors:  H Wolfgang Beumer; Karthik Vishwanath; Liana Puscas; Hamid R Afshari; Nimmi Ramanujam; Walter T Lee
Journal:  Otolaryngol Head Neck Surg       Date:  2011-01-28       Impact factor: 3.497

3.  Raman signal enhancement via elastic light scattering.

Authors:  Brett H Hokr; Vladislav V Yakovlev
Journal:  Opt Express       Date:  2013-05-20       Impact factor: 3.894

4.  Reagent- and separation-free measurements of urine creatinine concentration using stamping surface enhanced Raman scattering (S-SERS).

Authors:  Ming Li; Yong Du; Fusheng Zhao; Jianbo Zeng; Chandra Mohan; Wei-Chuan Shih
Journal:  Biomed Opt Express       Date:  2015-02-19       Impact factor: 3.732

5.  Raman active components of skin cancer.

Authors:  Xu Feng; Austin J Moy; Hieu T M Nguyen; Jason Zhang; Matthew C Fox; Katherine R Sebastian; Jason S Reichenberg; Mia K Markey; James W Tunnell
Journal:  Biomed Opt Express       Date:  2017-05-04       Impact factor: 3.732

6.  Development of robust calibration models using support vector machines for spectroscopic monitoring of blood glucose.

Authors:  Ishan Barman; Chae-Ryon Kong; Narahara Chari Dingari; Ramachandra R Dasari; Michael S Feld
Journal:  Anal Chem       Date:  2010-11-04       Impact factor: 6.986

7.  Soft-tissue spectral subtraction improves transcutaneous Raman estimates of murine bone strength in vivo.

Authors:  Keren Chen; Christine Massie; Andrew J Berger
Journal:  J Biophotonics       Date:  2020-08-31       Impact factor: 3.207

8.  Noninvasive glucose sensing by transcutaneous Raman spectroscopy.

Authors:  Wei-Chuan Shih; Kate L Bechtel; Mihailo V Rebec
Journal:  J Biomed Opt       Date:  2015-05       Impact factor: 3.170

9.  Requirements for calibration in noninvasive glucose monitoring by Raman spectroscopy.

Authors:  Jan Lipson; Jeff Bernhardt; Ueyn Block; William R Freeman; Rudy Hofmeister; Maya Hristakeva; Thomas Lenosky; Robert McNamara; Danny Petrasek; David Veltkamp; Stephen Waydo
Journal:  J Diabetes Sci Technol       Date:  2009-03-01

10.  Noninvasive Monitoring of Blood Glucose with Raman Spectroscopy.

Authors:  Rishikesh Pandey; Santosh Kumar Paidi; Tulio A Valdez; Chi Zhang; Nicolas Spegazzini; Ramachandra Rao Dasari; Ishan Barman
Journal:  Acc Chem Res       Date:  2017-01-10       Impact factor: 22.384
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