Ashok N. Oza scite author profile

Ashok N. Oza

4Publications

6Citation Statements Received

13Citation Statements Given

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C. U. Shah University, Gujarat University

Publications

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Distinguishing autofluorescence of normal, benign, and cancerous breast tissues through wavelet domain correlation studies

et al. 2011

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Using the multiresolution ability of wavelets and effectiveness of singular value decomposition (SVD) to identify statistically robust parameters, we find a number of local and global features, capturing spectral correlations in the co- and cross-polarized channels, at different scales (of human breast tissues). The copolarized component, being sensitive to intrinsic fluorescence, shows different behavior for normal, benign, and cancerous tissues, in the emission domain of known fluorophores, whereas the perpendicular component, being more prone to the diffusive effect of scattering, points out differences in the Kernel-Smoother density estimate employed to the principal components, between malignant, normal, and benign tissues. The eigenvectors, corresponding to the dominant eigenvalues of the correlation matrix in SVD, also exhibit significant differences between the three tissue types, which clearly reflects the differences in the spectral correlation behavior. Interestingly, the most significant distinguishing feature manifests in the perpendicular component, corresponding to porphyrin emission range in the cancerous tissue. The fact that perpendicular component is strongly influenced by depolarization, and porphyrin emissions in cancerous tissue has been found to be strongly depolarized, may be the possible cause of the above observation.

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Characterizing fluorescence spectral features of cancer, benign, and normal human breast tissues through wavelet transform and singular value decomposition

Gharekhan

Oza

Sureshkumar

et al. 2009

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Polarized spectral features of human breast tissues through wavelet transform and principal component analysis

et al. 2010

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Fluorescence characteristics of human breast tissues are investigated through wavelet transform and principal component analysis (PCA). Wavelet transform of polarized fluorescence spectra of human breast tissues is found to localize spectral features that can reliably differentiate different tissue types. The emission range in the visible wavelength regime of 500-700 nm is analysed, with the excitation wavelength at 488 nm using laser as an excitation source, where flavin and porphyrin are some of the active fluorophores. A number of global and local parameters from principal component analysis of both high-and low-pass coefficients extracted in the wavelet domain, capturing spectral variations and subtle changes in the diseased tissues are clearly identifiable.

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Characterizing Fluorescence Spectral features of Cancer, Benign and Normal Human Breast Tissues through Wavelet Transform and Singular Value Decomposition

Gharekhan

Oza

Sureshkumar

et al. 2009

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Ashok N. Oza

Distinguishing autofluorescence of normal, benign, and cancerous breast tissues through wavelet domain correlation studies

Characterizing fluorescence spectral features of cancer, benign, and normal human breast tissues through wavelet transform and singular value decomposition

Polarized spectral features of human breast tissues through wavelet transform and principal component analysis

Characterizing Fluorescence Spectral features of Cancer, Benign and Normal Human Breast Tissues through Wavelet Transform and Singular Value Decomposition

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