Objective: We evaluated (1) the prevalence of disseminated tumor cells (DTC) before and after first-line chemotherapy with carboplatin and paclitaxel in the bone marrow (BM) and peripheral blood (PB) of 57 patients with primary ovarian cancer and (2) the coexpression of the epithelial antigen EpCAM on DTC including the determination of apoptotic cells.
Methods: DTC were detected by immunocytochemistry applying the anti-cytokeratin (CK) antibody A45-B/B3. For double-labeling of DTCs, the antibodies M30 (apoptosis), HEA-125-FITC/Ber-EP4-FITC (EpCAM) were used.
Results: Before chemotherapy, we identified DTC in 12/57 PB samples (21%) with a median number of 2 cells/20 ml (range 1-8) and in 25/46 BM samples (54%) with a median number of 5 cells/9x10E6 BM cells (range 1-28). Analysis of DTC in PB and BM before and after therapy was performed in 30 patients. In this subgroup, we identified DTC in 5/30 PB samples (16%) and in 15/30 BM samples (50%) before chemotherapy. After chemotherapy, DTC in PB were only detected in one patient but in the BM of 15/30 patients (50%). After chemotherapy, BM analysis revealed evidence that no DTC were detectable any longer in 9 patients, no significant change in DTC was documented in 14 patients and a significant enhancement of DTC was shown in 10 patients, including 8 patients who had no DTC before chemotherapy. DTC, still present after chemotherapy, co-expressed EpCAM and were non-apoptotic. In a univariable analysis, patients with a marked increase of DTC showed a significantly reduced PFS (p=0.041). A corresponding multivariable Cox regression analysis was not feasible due to the limited number of events. No correlation of DTC in BM and PB was found with patient's and tumor characteristics.
Conclusion: DTC were present in 50% of patients after first-line chemotherapy in ovarian cancer. It has to be considered whether patients with persisting EpCAM/CK-positive BM cells probably might benefit from an additive immunotherapy e.g. targeting EpCAM.