Extensive literatures have shown significant trend of progressive electrical changes according to the proliferative characteristics of breast epithelial cells. Physiologists also further postulated that malignant transformation resulted from sustained depolarization and a failure of the cell to repolarize after cell division, making the area where cancer develops relatively depolarized when compared to their non-dividing or resting counterparts. In this paper, we present a new approach, the Biofield Diagnostic System (BDS), which might have the potential to augment the process of diagnosing breast cancer. This technique was based on the efficacy of analysing skin surface electrical potentials for the differential diagnosis of breast abnormalities. We developed a female breast model, which was close to the actual, by considering the breast as a hemisphere in supine condition with various layers of unequal thickness. Isotropic homogeneous conductivity was assigned to each of these compartments and the volume conductor problem was solved using finite element method to determine the potential distribution developed due to a dipole source. Furthermore, four important parameters were identified and analysis of variance (ANOVA, Yates' method) was performed using design (n = number of parameters, 4). The effect and importance of these parameters were analysed. The Taguchi method was further used to optimise the parameters in order to ensure that the signal from the tumour is maximum as compared to the noise from other factors. The Taguchi method used proved that probes' source strength, tumour size and location of tumours have great effect on the surface potential field. For best results on the breast surface, while having the biggest possible tumour size, low amplitudes of current should be applied nearest to the breast surface.

译文

:大量文献显示,根据乳腺上皮细胞的增殖特性,进行性电变化的显着趋势。生理学家还进一步假设,恶性转化是由于持续的去极化和细胞分裂后细胞无法重新极化所致,因此与非分裂或静止状态的癌症相比,癌症发展的区域相对去极化了。在本文中,我们提出了一种新的方法,即Biofield Diagnostic System(BDS),它可能具有增强乳腺癌诊断过程的潜力。该技术基于分析皮肤表面电势以鉴别诊断乳房异常的功效。通过将乳房视为仰卧状态下的半球,各层厚度不相等,我们开发了一个接近实际的女性乳房模型。各向同性的各向同性电导率分配给这些隔室,并使用有限元方法解决了体积导体问题,以确定由于偶极子源而产生的电势分布。此外,确定了四个重要参数,并使用设计进行了方差分析(ANOVA,Yates方法)(n =参数数量4)。分析了这些参数的作用和重要性。 Taguchi方法进一步用于优化参数,以确保与其他因素产生的噪声相比,来自肿瘤的信号最大。使用的Taguchi方法证明了探针的源强度,肿瘤大小和肿瘤位置对表面电势场有很大的影响。为了在乳腺表面获得最佳效果,同时应尽可能增大肿瘤的大小,应在最靠近乳腺表面的地方施加较小的电流。

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