Biomarker and cytologic abnormalities in women at high and low risk for breast cancer (original) (raw)

1993, Journal of Cellular Biochemistry

Fine needle aspirates (FNA) from 106 high-risk women and 25 low-risk women were evaluated for overexpression of estrogen receptor (ER), epidermal growth factor receptor (EGFR), mutant p53, and HER-2/neu by immunocytochemistry, and for aneuploidy by image analysis. Aspirates were also classified cytologically as normal, apocrine metaplasia, epithelial hyperplasia (EH), or dysplasia. High-risk women were those with a first-degree relative with breast cancer (76%), precancerous breast disease (26%), prior cancer of the contralateral breast (9%), or multiple abnormalities (I1 %). Low-risk women had none of the above risk factors, nor a prior breast biopsy or clinical evidence of fibrocystic disease. The median 10-year Gail risk for the high-risk group was 4%, compared to 0.7% for the low-risk group. There were significant differences (p < 0.01) between high-and low-risk women in the prevalences of hyperplasia (55% versus 12%), dysplasia (19% versus O%), aneuploidy (32% versus O%), overexpressed EGFR (32% versus 4%), and overexpressed p53 (29% versus 4%). The prevalence of multiple biomarker abnormalities was also greater in high-risk than in low-risk women (28% versus 0%; p < 0.01). Four percent (4%) of FNAs from high-risk women with normal cytology, 29% of aspirates with hyperplastic cytology, and 60% of those with dysplasia were associated with two or more biomarker abnormalities. The differences in the prevalence of multiple biomarker abnormalities among various cytologic categories were statistically significant (p = 0.02, normal versus EH; p = 0.02, EH versus dysplasia; p < 0.01, normal versus dysplasia). Further study of these tissue biomarkers as potential intermediate-term (5-10 year) predictors of breast cancer development is warranted. 0 1993 Wiley-Liss, Inc.