Abstract

The goal of this project is to compare the performance of 785 nm and 830 nm based Raman spectroscopy for quantitative analysis of artery. Silicon based charge coupled device (CCD) detectors have low dark current and high quantum efficiency in the short wavelength region offering shot noise limited detection. In addition, standard diode lasers, holographic notch filters, efficient spectrographs and filtered optical fiber probes are readily available for 785 nm laser excitaion, often at economical pricing compared to those used in 830 nm laser excited Raman spectroscopy. However, biological tissue exhibits marked fluorescence with short wavelength (for e.g. 785 nm) NIR stimulation. Our current research has found that the shot noise generated by the fluorescence background signal to be prohibitive to artery disease analysis using 785 nm-excited Raman spectroscopy. We have also shown that longer wavelength excitation indeed affords sufficient reduction in fluorescence background and thus reduced shot noise to overcome present detection equipment limitations. Thus, it was shown that 830nm wavelength excitation is an optimal compromise between currently available technology and practical fundamental limitations, in accord with our previous work.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
5P41RR002594-15
Application #
6314204
Study Section
Project Start
2000-06-01
Project End
2001-05-31
Budget Start
1998-10-01
Budget End
1999-09-30
Support Year
15
Fiscal Year
2000
Total Cost
$13,842
Indirect Cost

  Institution

Name
Massachusetts Institute of Technology
Department
Type
DUNS #
City
Cambridge
State
MA
Country
United States
Zip Code
02139

  Publications

Shih, Wei-Chuan; Bechtel, Kate L; Rebec, Mihailo V (2015) Noninvasive glucose sensing by transcutaneous Raman spectroscopy. J Biomed Opt 20:051036
Dudzik, Jonathan; Chang, Wen-Chi; Kannan, A M et al. (2013) Cross-linked glucose oxidase clusters for biofuel cell anode catalysts. Biofabrication 5:035009
Sathyavathi, R; Dingari, Narahara Chari; Barman, Ishan et al. (2013) Raman spectroscopy provides a powerful, rapid diagnostic tool for the detection of tuberculous meningitis in ex vivo cerebrospinal fluid samples. J Biophotonics 6:567-72
Dingari, Narahara Chari; Barman, Ishan; Saha, Anushree et al. (2013) Development and comparative assessment of Raman spectroscopic classification algorithms for lesion discrimination in stereotactic breast biopsies with microcalcifications. J Biophotonics 6:371-81
Cooper, Kimberly L; Oh, Seungeun; Sung, Yongjin et al. (2013) Multiple phases of chondrocyte enlargement underlie differences in skeletal proportions. Nature 495:375-8
Sung, Yongjin; Tzur, Amit; Oh, Seungeun et al. (2013) Size homeostasis in adherent cells studied by synthetic phase microscopy. Proc Natl Acad Sci U S A 110:16687-92
Lau, Condon; Mirkovic, Jelena; Yu, Chung-Chieh et al. (2013) Early detection of high-grade squamous intraepithelial lesions in the cervix with quantitative spectroscopic imaging. J Biomed Opt 18:76013
Soares, Jaqueline S; Barman, Ishan; Dingari, Narahara Chari et al. (2013) Diagnostic power of diffuse reflectance spectroscopy for targeted detection of breast lesions with microcalcifications. Proc Natl Acad Sci U S A 110:471-6
Byun, HeeSu; Hillman, Timothy R; Higgins, John M et al. (2012) Optical measurement of biomechanical properties of individual erythrocytes from a sickle cell patient. Acta Biomater 8:4130-8
Dingari, Narahara Chari; Barman, Ishan; Myakalwar, Ashwin Kumar et al. (2012) Incorporation of support vector machines in the LIBS toolbox for sensitive and robust classification amidst unexpected sample and system variability. Anal Chem 84:2686-94

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