Detection of circulating epithelial cells after surgery for benign breast disease.

BACKGROUND: Cytokeratins are predominantly expressed in epithelial cells and their malignant counterparts. Ultrasensitive methods for cytokeratin messenger RNAs (mRNAs) can detect rare circulating tumor cells consistent with hematogenous dissemination in epithelial-derived malignancies, including breast carcinomas. Intraoperative tumor-cell shedding may contribute to this process; this hypothesis is based on the assumption that only tumor cells can be mobilized during surgical manipulation. METHODS AND RESULTS: The present study addresses this issue by using cytokeratin 19 mRNA detection by reverse transcription-polymerase chain reaction (RT-PCR) in preoperative and postoperative blood samples from 54 patients undergoing excisional biopsy for benign breast disease; 22 healthy volunteers represented the control group. No cytokeratin RT-PCR positivity was found in the control or preoperative samples. Cytokeratin RT-PCR positivity was found in 21 postoperative samples (39%). CONCLUSIONS: This finding shows that benign epithelial cells can be mobilized during breast surgery; this effect of surgical manipulation warrants caution in the interpretation of RT-PCR positivity for cytokeratin mRNA in the peripheral blood of patients undergoing surgery for breast cancer.

Specimen stability for DNA-based diagnostic testing.

The use of molecular diagnostic testing is increasing in the clinical setting; therefore, data regarding DNA stability in clinical specimens are essential for correct test performance and interpretation. This study was designed to determine DNA stability in peripheral blood and solid tissue under different storage conditions. DNA quality and yield were assayed by spectrophotometric absorbance, gel electrophoresis, and suitability for Southern hybridization and polymerase chain reaction (PCR), the most widely employed clinical DNA analyses. A second goal of the study was to evaluate DNA stability during storage at 4 degrees C for 1 month to 3 years. The data show that freezing or refrigeration of separated leukocytes is preferable for short- to intermediate-term storage and freezing is preferable for solid tissue. DNA degradation varying from slight to severe is seen inconsistently with such specimens, probably due to sampling of unevenly frozen-tissue areas. Depending on the degree of DNA degradation, analysis may still be possible by PCR and in some cases even by Southern hybridization. Once isolated, DNA was stable at 4 degrees C for at least 3 years. These results suggest a more flexible approach to specimen requirements for molecular pathology, as some samples that would routinely be rejected gave interpretable results.