Detection and quantification of circulating tumor cells in patients with esophageal cancer by real-time polymerase chain reaction.

Polymerase chain reaction (PCR) amplification was used for detecting circulating tumor cells. However, PCR was so sensitive that it detected a very low level of mRNA with no relevance to tumor cells. We analyzed the degree of micro-tumor spread in esophageal cancer patients using quantitative PCR. Samples were collected from 28 patients and 35 controls. Real-time quantitative PCR (LightCycler) was employed for the detection of carcinoembryonic antigen (CEA) and cytokeratin 20 (CK-20). In the CEA and CK-20 mRNA assays, 7 and 3 out of 28 patients, respectively, showed higher mRNA levels in peripheral blood than the normal range based on values of controls (mean ′ 2SD). Eleven out of 19, 4 out of 14, and 2 out of 5 patients showed higher CEA mRNA levels in the samples from tumor drainage vein, costal bone marrow, and thoracic duct lymph, respectively. One of the 7 patients who showed higher CEA mRNA levels in pretreatment peripheral blood is currently free from disease. These findings reveal that quantitative PCR can discriminate high levels of cancer-specific expression from low levels of illegitimate expression in blood. They also suggest that the identification of circulating tumor cells by the CEA mRNA assay is a reliable means of predicting early recurrence.