Evidence of cell kinetics as predictive factor of response to radiotherapy alone or chemoradiotherapy in patients with advanced head and neck cancer

Abstract

Purpose: The aim of this study was to investigate the potential clinical relevance of cell kinetics parameters to the locoregional control (LRC) and overall survival of patients affected by head and neck squamous cell carcinoma (HN-SCC) treated by conventional radiotherapy, partly accelerated radiotherapy, or alternating chemoradiotherapy. Methods and Materials: Between January 1993 and June 1996,115 patients with HN-SCC at Stage III and IV entered the study. Multiple primary tumor biopsies were obtained 6 h after in vivo infusion of bromodeoxyuridine (BrdUrd), an analogue of thymidine that is incorporated in DNA-synthesizing cells. In vivo S-phase fraction labeling index (LI), duration of S-phase (Ts), and potential doubling time (Tpot) were obtained by analysis of the flow cytometric content of BrdUrd and DNA. Eighty-two patients were randomly assigned to receive either alternating chemoradiotherapy or partly accelerated radiotherapy, whereas 33 other matching patients received conventional radiotherapy. Results: Univariate LRC analysis showed that LI value was a prognostically significant factor, independent of type of therapy. Multivariate analysis failed to show cell kinetics parameters as statistically significant factors affecting LRC probability and overall survival. However, subgroup analysis showed that LRC probability at 4 years for fast proliferating tumors characterized by a LI ≥ 8% was significantly better for patients treated either with alternating chemoradiotherapy or partly accelerated radiotherapy than it was for those treated with conventional radiotherapy. Conversely, LRC probability for slow proliferating tumors (LI < 8%) treated with the three treatment modalities was similar. Conclusions: These results showed that, independent of type of treatment, pretreatment cell kinetics provided only a weak prognostic role of outcome in HN-SCC. However, this report raises the hypothesis that fast growing HN-SCC may be more likely to benefit from intensified therapy, as given in this series. Cell kinetics parameters studied by the in vivo BrdUrd/flow cytometry method might be considered predictive factors of response, providing information on which type of treatment may be selected according to tumor proliferation rate.