This report describes a companion flow cytometry study (Cancer and Leukemia Group B (CALGB)-8869) using tumors derived from patients enrolled in a large randomized clinical trial (CALG6-8541) performed on 1,572 patients with early stage, node-positive breast cancer. The CALGB initiated an adjuvant breast cancer trial in 1985 to determine if dose intensification (dose of drug per unit time) of chemotherapy was related to relapse-free and overall survival. Patients were randomized by pretreatment clinical variables to one of three different dosage regimens of chemotherapy. Using a tumor enrichment procedure, 442 paraffinembedded blocks were analyzed by flow cytometry, and S-phase fraction (SPF) was analyzed by three different methods. Ploidy analysis was performed using standard procedures. Tissue from 90% of the patients was suitable for ploidy analysis, whereas only 68% could be assessed for SPF. With a median follow-up time of 80 months, our results show that ploidy status had no clinical utility, whereas high SPF predicted poorer overall survival. The rectangular fit model for SPF was more predictive of outcome than both the area fit model and a computer fit model (modfit) for SPF. In univariate analysis, patients with a low SPF (< 10%) had a better prognosis than those patients with a high SPF (> lo%), but they responded equally well to the different treatment regimens. Patients with high SPF (> 10%) had longer relapse-free and overall survival to high dose chemotherapy compared to low or standard dose chemotherapy. Multivariate analysis indicated that treatment intensity as well as the number of positive nodes, tumor size, steroid receptor status, and c-erb 8-2 expression were significant in predicting overall and disease-free survival. The multivariate analysis, however, revealed that SPF was significant in predicting overall but not diseasefree survival, but there was no longer any relationship among SPF, dose intensity, and outcome.
Key terms: Flow cytometry, breast cancer, standardization, S-phase, prognosisThe use of flow cytometry analysis for determining prognosis in patients with early breast cancer depends on several different factors, including tissue preparation procedure, quality of the DNA histogram, methods of histogram analysis, patient characteristics, and treatment. Some reports indicate that DNA content (ploidy) and cell cycle kinetic (S-phase fraction, %S) data are useful in predicting outcome ( 1-3), whereas other reports have shown no predictive value for this information (4-6). A recent NIH consensus conference on breast cancer concluded that ploidy is of limited prognostic use, whereas S-phase fraction (SPF) has prognostic value if performed correctly (7). At the present time, and in spite of continuing controversy, many laboratories, both academic and commercial, are performing both ploidy and SPF on breast cancer tissues for clinical use.The CALGB initiated an adjuvant breast cancer protocol for node-positive patients in 1985 to determine if ~~~~~ ~
