A Correlation between Histochemical Patterns of Connective Tissue Fibers and AgNORs in Breast Lesions

Background: The precise histopathologic diagnosis of a breast lesion is the first step towards the most appropriate inclusive patient’s management. The aim of this study was to evaluate the correlation between histochemical patterns of connective tissue fibers and NORs in breast lesions. Methodology: Patients with breast cancer (n = 25) were ascertained as the case group, and those with benign breast lesions were ascertained as a control group (n = 25). Histochemical evaluations of elastic fibers, reticular fibers and mean AgNORs count were performed for all study subjects. Results: Elastic fibers intensity was brought into being lessening in benign lesions and upturns in the direction of malignant lesions. The intensity of elastic fibers was found to intensify with rises of neoplastic changes in breast cancer and this was found to be statistically significant P < 0.001. Mean AgNORs counts displayed increased clusters among malignant cases equated to benign ones. Mean AgNORs count significantly increased with neoplastic proliferation P < 0.005. Conclusion: Demonstration of connective tissue fibers (particularly elastic fibers) can strength the diagnostic evidence for conventional histopathology diagnosis. Mean AgNORs count can merge as an important quantitative marker in breast cancer diagnosis.

. Although the benign or malignant pattern of the lesion is easily known in most cases [3], some cases may be missed diagnosed due to closed inter-morphology, such as hyperplasia [4]. Breast lesions are heterogeneous conditions and their classification is essential to achieve good clinical outcomes [5].
Premalignant breast lesions reign capricious risk for transformation to breast cancer, which necessitates an important decision to counter the potential evolution to breast cancer [6].
The histopathological diagnostic decision is a critical point, which is immensely challenging the histopathologists, particularly in borderline lesions. The final decision is critical because it is essential for subsequent patient's management. In borderline lesions, the distinction between benign and malignant components is challenging needing communitive evidence [7] [8]. Presence of connective tissue fibers including collagen, elastic and reticular fibers is well documented with breast lesions [9]. An increasing number of the argyrophilicnucleolar organizer regions (AgNORs) are associated with the cellular proliferative activity, which is encountered in some benign, premalignant and malignant lesions. Besides, AgNORs count can set up a consistent factor for the tumor grading and recognition, it is considered as a prognostic marker [10].
Although the recent advancement in molecular technology has improved the diagnostic acumen and knowledge of histo-pathogenesis in tumor diagnosis, particularly for frequently encountered tissues such as breast lesions [11], conventional histopathology still practiced as a routine technique. As the bulk of current research efforts are focusing on advanced diagnostic technology, which is time-consuming and expensive, additional research focusing on the strengthening of conventional histopathologic evidence is recommended to facilitate the potential diagnostic decision using routine histopathology. For that reason, the aim of this study was to evaluate the correlation between histochemical patterns of connective tissue fibers and NORs in breast lesions.

Materials and Methods
In this study, 50 formalin fixed paraffin wax embedded tissue blocks (belong to women attended with breast lesions) were retrieved from histopathology laboratory (25 were breast cancer and 25 were with benign breast lesions). All biopsies were obtained from females with breast lesions, their ages ranging from 17 to 85 years with a mean age of 39 years old. Patients with breast cancer (n = 25) were ascertained as the case group, and those with benign breast lesions were ascer- Verhoeff's procedure (for elastic fibers = black color), one with Silvers method (Gordon & Sweet's (for reticular fiber = black color)), and the remaining one was stained using argyrophilicnucleolar organizer regions (AgNORs). H&E (Mayer's technique), Verhoeff's methods, Silver method, and van-Gieson's methods were applied adopting methods described elsewhere [12]. The intensities of the staining were qualitatively categorized in to +++ve, ++ve, +ve, and −ve according to the appearance of the fibers in the stained section.
NORs were stained applying AgNOR Staining Method. In this method; the working solution was freshly prepared by mixing one volume of 2% gelatin in 1% formic acid solution and two volumes of 50% aqueous silver nitrate solution.
All sections were incubated with this silver solution for 30 minutes at room temperature in a dark medium, and they were protected in the dark until each slide was analyzed. Two investigators, blind to the study groups, analyzed the silver-stained cells under the light microscope (Olympus BX-51, Japan) at 1000× magnification. All sections were screened horizontally from left to right, and AgNORs were counted in the nuclei of the first 50 nucleated cells. Cells with pyknotic nuclei were not counted. The AgNORs count was made adopting the method described elsewhere [13].
AgNORs, which were visible as black-dark brown dots located within the nuclei of the cells, were counted; overlapped black dots were counted as one structure.

Ethical Consent
The study was approved by the ethical committee at the College of Medicine, University of Hail, Saudi Arabia. This is addition to an agreement letter taken from Ribat University Hospital authority.

Statistical Analysis
Statistical Analysis. SPSS version 17 statistical software was used for statistical analysis. The numeric results (AgNORs counts, and connective tissue fibers) were expressed as frequencies and percentages. The X2 test was used to compare the differences in categorical variables between the groups. Relationships between variables were analyzed using Pearson's correlation analysis. A P < 0.05 was considered statistically significant.

Results
In the present study, 50 breast tissue biopsies were obtained from women with different breast lesions (25 were breast carcinoma, 19 were fibrocystic changes, 4 fibroadenomas, one was papilloma and one was fat necrosis

Discussion
The precise histopathologic diagnosis of a breast lesion is the first step towards the most appropriate inclusive patient's management. This study is an endeavor to promote the overall precision of conventional histopathologic diagnosis by boosting the histochemical pieces of evidence to distinguish between benign and malignant breast lesions constituents.   [14]. Breast cancer has miscellaneous morphological patterns. Breast cancer stroma containing many constituents, such as proteoglycans and fibrous proteins [15]. Many studies have reported that the elastic fibers present in breast tissue as both discrete fibers in the stroma and bulk masses around ducts or small blood vessels. These elastic fibers are produced by stromal cells such as fibroblasts and myofibroblasts [16]. Besides its role as a shred of supporting diagnostic evidence, the elastic fiber was found to improve breast cancer survival [17], due to its correlation with estrogen receptor expression, which is responsive to anti-hormonal treatment [18].

A. M. Elasbali
In this sequence, a number of benign lesions revealed elastic and reticular fibers. Such findings were previously reported. Several breast benign tumors display extracellular matrix, collagen and reticular fibers in a variable quantity, whereas, elastic fibers were a noticeable feature in breast carcinoma compared to benign lesions [19].
Mean AgNORs counts showed increased clusters among malignant cases equated to benign ones. Mean AgNORs count significantly increased with neoplastic proliferation P < 0.005. AgNORs mean count is considered a valuable method for the assessment of cellular proliferation, which is commonly seen in premalignant and malignant tissues [20]. It was well-established that AgNORs A. M. Elasbali Open Journal of Pathology mean count is a rapid, cost-effective, easy, and reproducible method that allows a clear quantitative distinction between malignant and benign tumors [21]. The utility of AgNORs count in breast cancer has been addressed by a number of studies. Beside it is utility as quantitative evidence for a distinction between benign and malignant lesions [22], some studies revealed its value as a prognostic factor in breast cancer [23]. The elevated number of AgNORs mean dots count is measured to be a diagnostic and prognostic factor due to its direct link to cell proliferation and ribosomal biogenesis [24]. As mean AgNORs count was also found to increase in some proliferative benign tumors, some scientists regarded it less diagnostic [25]. It was suggested that using image analysis may yield more improved diagnostic specificity [26].
The revised literature in this subject bared somewhat earlier research activities, which might be attributed to the makeover of scientists towards the new sophisticated techniques in the diagnosis of breast lesions. As conventional histopathology still the routine method in most histopathologic diagnostic settings, this study may inspire researcher to return and strengthen the diagnostic acumen of breast lesions.

Conclusion
In conclusion, demonstration of connective tissue fibers (particularly elastic fibers) can strength the diagnostic evidence for the conventional histopathological diagnosis. Mean AgNORs count is an important quantitative marker in breast cancer diagnosis. Further efforts are required to develop these diagnostic markers in order to ease the challenges fronting pathologists when diagnosing borderline breast lesions.

Data Availability Statement
The data used to support the findings of this study are included in the article.