Huda Haddad scite author profile

Early detection through screening plays a major role in reducing the impact of cervical cancer on patients. When detected before the invasive stage, precancerous lesions can be eliminated with very limited surgery. Polarimetric imaging is a potential alternative to the standard screening methods currently used. In a previous proof-of-concept study, significant contrasts have been found in polarimetric images acquired for healthy and precancerous regions of excised cervical tissue. To quantify the ability of the technique to differentiate between healthy and precancerous tissue, polarimetric images of seventeen cervical conization specimens (cone-shaped or cylindrical wedges from the uterine cervix) are compared with results from histopathological diagnoses, which is considered to be the “gold standard.” The sensitivity and specificity of the technique are calculated for images acquired at wavelengths of 450, 550, and 600 nm, aiming to differentiate between high-grade cervical intraepithelial neoplasia (CIN 2-3) and healthy squamous epithelium. To do so, a sliding threshold for the scalar retardance parameter was used for the sample zones, as labeled after histological diagnosis. An optimized value of ∼83% is achieved for both sensitivity and specificity for images acquired at 450 nm and for a threshold scalar retardance value of 10.6 deg. This study paves the way for an application of polarimetry in the clinic.

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Determination of collagen fiber orientation in histological slides using Mueller microscopy and validation by second harmonic generation imaging

Bancelin¹,

Nazac²,

Ibrahim³

et al. 2014

Opt. Express

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We studied the azimuthal orientations of collagen fibers in histological slides of uterine cervical tissue by two different microscopy techniques, namely Mueller polarimetry (MP) and Second Harmonic Generation (SHG). SHG provides direct visualization of the fibers with high specificity, which orientations is then obtained by suitable image processing. MP provides images of retardation (among other polarimetric parameters) due to the optical anisotropy of the fibers, which is enhanced by Picrosirius Red staining. The fiber orientations are then assumed to be those of the retardation slow axes. The two methods, though fully different from each other, provide quite similar maps of average fiber orientations. Overall, our results confirm that MP microscopy provides reliable images of dominant fiber orientations at a much lower cost that SHG, which remains the "gold standard" for specific imaging of collagen fibers using optical microscopy.

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Multi-spectral Mueller Matrix Imaging Polarimetry for Studies of Human Tissues

Novikova¹,

Rehbinder²,

Deby³

et al. 2016

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Special Section Guest Editorial: Antonello De Martino (1954–2014): in memoriam

et al. 2016

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Huda Haddad

Ex vivoMueller polarimetric imaging of the uterine cervix: a first statistical evaluation

Determination of collagen fiber orientation in histological slides using Mueller microscopy and validation by second harmonic generation imaging

Multi-spectral Mueller Matrix Imaging Polarimetry for Studies of Human Tissues

Special Section Guest Editorial: Antonello De Martino (1954–2014): in memoriam

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