Study on the influence of optical absorption on polarization characterization of tissues

Wang, Yunfei; Huang, Yu; Zeng, Nan; Guo, Yige; He, Yonghong; Ma, Hui

doi:10.1117/1.jbo.23.12.121609

Cited by 2 publications

(1 citation statement)

References 23 publications

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“…This is because the observable backscattered photons come from shallow layers of the medium, where they undergo fewer scattering events compared to the depolarized photons, which penetrate deeper and have a lower probability to escape. 30 , 31 Melanoma lesions are typically the darkest among the presented lesion types, with benign nevus (BN) also being similarly dark. Garcia-Uribe et.…”

Section: Pilot Clinical Trialmentioning

confidence: 99%

Constructing a portable optical polarimetry probe for in-vivo skin cancer detection

et al. 2021

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. Significance: Management of skin cancer worldwide is often a challenge of scale, in that the number of potential cases presented outweighs the resources available to detect and treat skin cancer. Aim: This project aims to develop a polarimetry probe to create an accessible skin cancer detection tool. Approach: An optical probe was developed to perform bulk tissue Stokes polarimetry, a technique in which a laser of known polarization illuminates a target, and the altered polarization state of the backscattered light is measured. Typically, measuring a polarization state requires four sequential measurements with different orientations of polarization filters; however, this probe contains four spatially separated detectors to take four measurements in one shot. The probe was designed to perform at a lower cost and higher speed than conventional polarimetry methods. The probe uses photodiodes and linear and circular film polarizing filters as detectors, and a low-coherence laser diode as its illumination source. The probe design takes advantage of the statistical uniformity of the polarization speckle field formed at the detection area. Results: Tests of each probe component, and the complete system put together, were performed to evaluate error and confirm the probe’s performance despite its low-cost components. This probe’s potential is demonstrated in a pilot clinical study on 71 skin lesions. The degree of polarization was found to be a factor by which malignant melanoma could be separated from other types of skin lesions.

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Section: Pilot Clinical Trialmentioning

confidence: 99%

Constructing a portable optical polarimetry probe for in-vivo skin cancer detection

et al. 2021

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Polarization enhancement mechanism from tissue staining in multispectral Mueller matrix microscopy

Shi,

Chen,

Deng

et al. 2024

Opt. Lett.

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Mueller matrix microscopy can provide comprehensive polarization-related optical and structural information of biomedical samples label-freely. Thus, it is regarded as an emerging powerful tool for pathological diagnosis. However, the staining dyes have different optical properties and staining mechanisms, which can put influence on Mueller matrix microscopic measurement. In this Letter, we quantitatively analyze the polarization enhancement mechanism from hematoxylin and eosin (H&E) staining in multispectral Mueller matrix microscopy. We examine the influence of hematoxylin and eosin dyes on Mueller matrix-derived polarization characteristics of fibrous tissue structures. Combined with Monte Carlo simulations, we explain how the dyes enhance diattenuation and linear retardance as the illumination wavelength changed. In addition, it is demonstrated that by choosing an appropriate incident wavelength, more visual Mueller matrix polarimetric information can be observed of the H&E stained tissue sample. The findings can lay the foundation for the future Mueller matrix-assisted digital pathology.

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Study on the influence of optical absorption on polarization characterization of tissues

Cited by 2 publications

References 23 publications

Constructing a portable optical polarimetry probe for in-vivo skin cancer detection

Constructing a portable optical polarimetry probe for in-vivo skin cancer detection

Polarization enhancement mechanism from tissue staining in multispectral Mueller matrix microscopy

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