Near-Infrared Micro-Raman Spectroscopy for <i>in Vitro</i> Detection of Cervical Cancer

Kamemoto, Lori; Misra, A. K.; Sharma, Shiv K.; Goodman, Marc T.; Luk, Hugh; Dykes, Ava C.; Acosta, T. E.

doi:10.1366/000370210790918364

Cited by 109 publications

(101 citation statements)

References 29 publications

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“…For instance, the spectra showed decreased glycogen and structural proteins (854 cm −1 ), primarily representing the loss of epithelial cell differentiation during neoplastic progression. 22,32 The increased nuclear content (1095 cm −1 ) indicated the elevated number of epithelial cells in the dysplastic cervix. 22,32,33 The amide I (1654 cm −1 ) and amide III (1253 cm −1 ) bands were also noticeably decreased with dysplastic transformation.…”

Section: Discussionmentioning

confidence: 99%

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Near-infrared-excited confocal Raman spectroscopy advancesin vivodiagnosis of cervical precancer

Duraipandian

Zheng

et al. 2013

J. Biomed. Opt

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Abstract. Raman spectroscopy is a unique optical technique that can probe the changes of vibrational modes of biomolecules associated with tissue premalignant transformation. This study evaluates the clinical utility of confocal Raman spectroscopy over near-infrared (NIR) autofluorescence (AF) spectroscopy and composite NIR AF/ Raman spectroscopy for improving early diagnosis of cervical precancer in vivo at colposcopy. A rapid NIR Raman system coupled with a ball-lens fiber-optic confocal Raman probe was utilized for in vivo NIR AF/ Raman spectral measurements of the cervix. A total of 1240 in vivo Raman spectra [normal (n ¼ 993), dysplasia (n ¼ 247)] were acquired from 84 cervical patients. Principal components analysis (PCA) and linear discriminant analysis (LDA) together with a leave-one-patient-out, cross-validation method were used to extract the diagnostic information associated with distinctive spectroscopic modalities. The diagnostic ability of confocal Raman spectroscopy was evaluated using the PCA-LDA model developed from the significant principal components (PCs) [i.e., PC4, 0.0023%; PC5, 0.00095%; PC8, 0.00022%, (p < 0.05)], representing the primary tissue Raman features (e.g., 854, 937, 1095, 1253, 1311, 1445, and 1654 cm −1 ). Confocal Raman spectroscopy coupled with PCA-LDA modeling yielded the diagnostic accuracy of 84.1% (a sensitivity of 81.0% and a specificity of 87.1%) for in vivo discrimination of dysplastic cervix. The receiver operating characteristic curves further confirmed that the best classification was achieved using confocal Raman spectroscopy compared to the composite NIR AF/Raman spectroscopy or NIR AF spectroscopy alone. This study illustrates that confocal Raman spectroscopy has great potential to improve early diagnosis of cervical precancer in vivo during clinical colposcopy. © The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Section: Discussionmentioning

confidence: 99%

“…1(e) 7,10,[20][21][22] The comprehensive biomolecular basis of Raman spectroscopic diagnosis of cervical dysplasia has been described in detail elsewhere. 7,9,22 The AF spectra show higher intensity for dysplasia; however, the change in AF intensity associated with dysplastic progression was not significant (p ¼…”

Section: Multivariate Statistical Analysismentioning

confidence: 99%

Near-infrared-excited confocal Raman spectroscopy advancesin vivodiagnosis of cervical precancer

Duraipandian

Zheng

et al. 2013

J. Biomed. Opt

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“…Therefore, Raman spectroscopy is used for various researches [1][2][3][4][5][6][7][8][9] , suggesting Raman spectroscopic analysis is a powerful and useful tool. There are some advantages to using Raman spectroscopy for analysis of water-rich and multi- The present study demonstrated the micro FT-Raman ability for obtaining the spectra of ghost cells in CCOT and keratinocytes of the gingiva.…”

Section: Original Discussionmentioning

confidence: 99%

Raman Spectroscopy of Ghost Cells in Calcifying Cystic Odontogenic Tumor

Okada

Suemitsu

Yasuoka

et al. 2012

J. Hard Tissue Biology.

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“…The loss of differentiation, together with increased proliferation, in precancer results in reduced levels of glycogen, as normal cervical cells accumulate glycogen as they mature. A Raman mapping study using frozen tissue sections showed that Raman spectroscopy could distinguish normal cervical tissue from invasive cervical cancer tissue based mainly on collagen bands and CH stretching bands [41].Tan et al [42] used Raman spectral mapping and hierarchical cluster analysis (HCA) to differentiate between normal squamous epithelium and CIN2 in FFPP tissue sections and it was shown that the Raman spectra associated with the CIN2 lesion clustered predominantly with those of the basal epithelial cells of the normal squamous epithelium, suggesting that the cells of these regions share common biochemical profiles. Spectral features responsible for their differentiation were associated with the amide I and amide III bands.…”

Section: Raman Spectroscopy For Histopathologymentioning

confidence: 99%