Contact Thermography as an Effective Tool for Detection of Breast Cancer in Women with Dense Breasts-A Case Report

Breast cancer is the leading cause of death among women worldwide. Breast ultrasound and mammography examinations are routinely used to detect breast pathologies. Breasts have different breast densities (according to Wolfe’s classification) and thus carry different risks of developing cancer. The existing routine screening methods have their limitation. Mammography has often been found to be insufficient for the examination of breasts with dense glandular tissue, as some cancerous changes may be undetected. Breast cancer, even at very early stages of development, has been found to have an increased rate of metabolism and therefore an increased temperature. These thermal changes, within the tumor core, can be detected using contact thermography. We present a case of an invasive ductal carcinoma in a patient with dense breast tissue, which was first detected via routine ultrasound examination and further confirmed through contact thermography. On mammography, the lesion was undetected. We discuss the potential for contact thermography to become a novel, non-invasive diagnostic tool which can be used as a complementary method to standard of care, especially for women with dense breast tissue, for whom mammography is not effective.


Introduction
Breast cancer is the most common malignant cancer and the leading cause of death in women worldwide [1].It has become one of the most important health problems in recent decades.The detection rate of breast cancer has increased significantly due to increased awareness of the disease and increased availability of diagnostic tools, as well as implementation of national screening programs.
Due to the high risk of developing breast cancer in women with dense breast tissue, and the problems associated with selecting appropriate diagnostic examinations, breast cancer in these women is often detected at a more advanced stage [2].There is an urgent need for improved diagnostic methods that can be used as complementary methods to standard of care.One such method is contact thermography, which utilizes a phenomenon of heat transmission to visualize changes in the breast glands.Through development of a pathological vessel system, cancer tissue has an increased metabolic activity compared to healthy tissue resulting in the presence of focal or linear hyperthermia's, which can be registered via contact thermography on liquid crystal matrices.The patient was referred to a diagnostic center, in which a secondary ultrasound examination was performed.No changes were detected in the area described in the mammogram, but a solid change in the lower outer quadrant of the left breast at the 5 o' clock axis was confirmed.Next a thermographic examination was performed of both breasts (Figure 3).A focal hyperthermic structure was observed in the lower outer quadrant of the left breast, in the location previously visualized on the ultrasound examination.No significant thermal changes were detected in the right breast.
Due to the appearance of a suspicious change in the left breast, a core-needle biopsy was performed, which confirmed a grade 2 invasive ductal carcinoma, type NOS (Not Otherwise Specified).

Thermography-principles in breast diagnostics
The underlying physiological principle of contact thermography in medical imaging diagnostics is the so-called dermo-themal effect, in which cancer cells have a higher rate of metabolism [4].Furthermore, a process of neo-angiogenesis induces strong hypervascularization around the tumor core, which can occur even at very early stages of cancer development [5].It has been shown that even within a microenvironment of a 1 mm diameter tumor, there are enough pro-angiogenic factors to generate completely new vasculature [6,7].This phenomenon leads to permanent, localized, intra-glandular temperature anomalies, which can be observed on the surface of the examined organ [8].
Instruments based on contact thermography, through the application of a liquid crystal foil, can induce a so-called selective light diffraction effect.This effect allows us to obtain a color image on the surface of the liquid crystal foil.By pressing the foil against the surface of the breast, a color thermogram is obtained, the analysis of which enables us to detect hyper-vascular changes in the breast.
A retrospective observational population study performed by Bothmann, et al. [9] on 19,461 females showed that abnormal thermography results were obtained in 86% of women with confirmed malignant lesions.Sensitivity and specificity of contact thermography for all invasive neoplastic lesions was 73% and 71%, respectively, with a false positive rate of 16.6% and false negative of 8.6%.

Breasts with dense tissue-characteristics and methods of evaluation
Numerous classification approaches for the characterization of breast density have been proposed, most commonly used is Wolfe's classification, which relies on mammographic examination of the fibro-glandular densities in relation to fat tissue (Figure 4).Wolfe first proposed this classification system in 1976, following his retrospective study of 7,214 women [10].Based on roentgen images and several years of observation, Wolfe selected and named specific categories of breast parenchymal patterns [11].Wolfe then classified women into four groups (N1,P1,P2, and DY), each group with a different risk of developing breast cancer.
Due to the differences in breast densities and the resulting consequences, there is an increased need to evaluate breast density during routine screening examinations.According to a new legislation passed in February 2014 in the US [12], women undergoing mammography screening must be directly informed if they have dense breast tissue.This is because there is lack of female awareness of different breast densities and the associated risks of developing cancer, as well as lack of knowledge among doctors about potential false negative mammograms where a dense breast tissue can mask the tumor [11].With increasing number of research reports and publications [13,14] relating to the increased risk of breast cancer in women with dense breast tissue, numerous educational organizations have been founded worldwide, which promote routine screening and provide help and support to women.

Diagnosing breast cancer in women with dense breasts-a methods approach
To date, there are various imaging techniques to visualize breast cancer at various stages, including: mammography, ultrasound, MRI, and most recently, thermography [15][16][17].In women with dense breasts, the sensitivity of mammography can be as low as 30-45% [18].Dense breast tissue decreases the sensitivity well as specificity with which screening mammography is able to diagnose the cancer.Over 50 percent of females participating in breast cancer screening programs have intermediary dense breasts or extremely dense breasts [19].Henceforth, an increased amount of dense breasts are observed, with the limited sensitivity of screening mammography.Complementary nonmammographic imaging tools have been proposed, including breast MR and ultrasound.Breast MR has a high specificity (97.1%) and positive predictive value (35%), however with increased cost, requirement of intravenous contrast and low sensitivity, breast MR has not become part of routine screening [20].Complementary breast ultrasound on the other hand has been shown to have a high sensitivity (91.1%), however a lower specificity (87.7%), and low positive predictive value, which may translate to higher costs downstream and increased morbidity [21].
Regulations set forth by the US Food and Drug Administration have cleared thermography as an adjunctive tool to mammography, which is similar to the aforementioned methods [22].By no means should thermography be used as a standalone method for breast cancer screening or diagnosing early stage breast cancer.Thermography, as an alternative option in the diagnostic pathway, may be used to complement current standards as it is inexpensive, non-invasive, and far more portable than the aforementioned modalities.Further studies are required to see the impact on healthcare costs and its role in breast cancer screening.

Conclusion
In the presented case, analysis of the performed examinations demonstrated the limitations of mammography; while, providing a glimpse for the potential of contact thermography as an appropriate  Contact thermography is a non-invasive method that does not use radiation and can play a significant adjunctive role in the early detection of breast cancer.Contact thermography is particularly useful in women with dense breast tissue, who have an increased risk of developing breast cancer but for whom mammography is not an effective diagnostic method.

Figure 1 :Figure 2 :3
Figure 1: Ultrasound examination of the left breast revealed a 17 × 24 mm solid change in the lower outer quadrant, Classified as BI-RADS 4c.

Figure 3 :
Figure 3: Contact thermography of the lower outer quadrants of both breasts reveals focal hyperthermia in the left breast (circled).
Journal of Breast Cancer Research and Advancements TJ, Maciejewski A (2018) Contact Thermography as an Effective Tool for Detection of Breast Cancer in Women with Dense Breasts-A Case Report.J Breast Cancer Res Adv 1(2): dx.doi.org/10.16966/2638-3527.107 2