Characterization of optical parameters of breast cancercell line - BT474 by polarimetry technique

Thanh T. Nguyen, Minh-Vy Huynh, Thanh-Hai Le, T. Pham
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Abstract

Breast cancer is a well-known health issue that has been a major focus for healthcare professionals for quite some time. Still, the most common noninvasive diagnostic tool - mammography - results in a high false positive rate along with risks of exposure to radiation. These disadvantages are magnified and become more severe when screenings are done repeatedly. To tackle this problem, we introduce a novel framework for uncomplicated diagnosis of breast cancer. Our method utilizes the analytical technique of Mueller matrix decomposition and Stokes vector polarimetry from a polarized light system consisting of a helium-neon laser (wavelength of 632.5 nm), a quarter-wave plate, polarizers, and a Stokes polarimeter. Thus, this technique introduces no radiation. We extracted nine optical parameters of a breast cancer cell line - BT474 - and determined the relationshipand separation power of these parameters to cancerous cells and healthy cells. Specifically, the samples were designed as a two-dimensional cellular model of malignant breast tumours that combined a range of four cell densities - 104, 105, 106, and 107 cells - per an area of 9 cm2.Nine optical parameters - orientation angle of linear birefringence (α), retardance or linear birefringence (β), optical rotation angle or circular birefringence (γ), orientation angle of linear dichroism (θd), linear dichroism (D), circular dichroism (R), degrees of linear depolarization (e1 and e2), and degree of circular depolarization (e3) - were extracted from a total of 40 samples using the polarized light system. The results revealed the positive correlations between three cell densities (104, 105, and 106) and the orientation angle of linear birefringence (R2 = 0.8038), linear birefringence (R2 = 0.8627), and linear dichroism (R2 = 0.9662). Meanwhile, both the orientation angle of linear dichroism and circular dichroism illustrated the negative correlation with that range of cell densities with R2 = 0.9983 and 0.9447, respectively. This proves that the optical parameters measured demonstrate significant association with the cells’ characteristics and thus, the proposed method could pave the way for an accessible diagnosis of breast cancer.
用偏振法测定乳腺癌细胞系BT474的光学参数
乳腺癌是一个众所周知的健康问题,很长一段时间以来一直是医疗保健专业人员关注的主要问题。尽管如此,最常见的非侵入性诊断工具——乳房x光检查——导致高假阳性率以及暴露于辐射的风险。当反复进行筛查时,这些缺点会被放大并变得更加严重。为了解决这个问题,我们引入了一个简单诊断乳腺癌的新框架。我们的方法利用Mueller矩阵分解和Stokes矢量偏振法的分析技术,从一个由氦氖激光器(波长为632.5 nm)、四分之一波片、偏振器和Stokes偏振计组成的偏振光系统中获得。因此,这种技术不会产生辐射。我们提取了乳腺癌细胞系BT474的9个光学参数,并确定了这些参数与癌细胞和健康细胞的关系和分离能力。具体来说,这些样本被设计成恶性乳腺肿瘤的二维细胞模型,它结合了四种细胞密度的范围——每9平方厘米的面积上有104、105、106和107个细胞。从40个样品中提取了线性双折射取向角(α)、延迟或线性双折射取向角(β)、旋光角或圆双折射取向角(γ)、线二色取向角(θd)、线二色取向角(D)、圆二色取向角(R)、线去极化度(e1和e2)、圆去极化度(e3)等9个光学参数。结果表明,细胞密度(104、105、106)与线性双折射取向角(R2 = 0.8038)、线性双折射取向角(R2 = 0.8627)、线性二色性取向角(R2 = 0.9662)呈正相关。同时,线二色取向角和圆二色取向角与细胞密度范围呈负相关,R2分别为0.9983和0.9447。这证明了测量的光学参数与细胞的特征有显著的关联,因此,提出的方法可以为乳腺癌的诊断铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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