A semi-nested RT-PCR method based on a region of the F and G glycoprotein genes was established, allowing the simultaneous detection and differentiation of group A and group B isolates of respiratory syncytial virus (RSV). The PCR products were subjected to digestion with restriction endonucleases to further differentiate the isolates. Using, in addition, previously reported studies the prevalence of various genome types in the Copenhagen region over a period of 6 years was established. Furthermore, the prevalence of genome types was determined in a distant region in Denmark during the winters of 1996/97 and 1997/98, and in yet another distant region during the winter of 1997/98. It was shown that the different regions in Denmark to a large extent share the same pool of genome types of RSV. Yet, while the fluctuating patterns of the two groups and various genome types were almost identical at different hospitals in the Copenhagen region, they varied between the different regions. This suggests that epidemics in local communities primarily rely on region-specific herd immunity parameters and emerge from strains endemically circulating in these local communities. Group B strains in Copenhagen showed an overall predominance, being predominant in three of the six epidemic seasons studied, and of almost equal predominance in one season.