Real-time PCR has many advantages compared with antigenemia and qualitative PCR assays for detecting cytomegalovirus (CMV) infection in patients following SCT. However, the procedure used in each report was not standardized. This study compares the CMV load detected by real-time PCR assays amplifying distinct genomic regions. Real-time PCR assays based on US17, UL65, immediate early protein (IE) and glycoprotein B(gB) were selected and comparisons were made between each genomic region, and with antigenemia and nested PCR (IE region) in 18 SCT patients. The CMV load detected by real-time PCR using all combinations of primers targeting distinct genomic regions and by antigenemia assays correlated well. However, US17 and UL65-PCR could detect CMV earlier than gB-PCR, antigenemia and nested PCR assays. In longitudinal analysis, gB-PCR demonstrated a trend for showing a lower viral load in some patients than US17-, UL65- and IE-PCR. Moreover, the results suggest that a cutoff level of 500 copies/ml might be used to decide when to initiate treatment. We propose that monitoring should be carried out using real-time PCR assays targeting the US17 region and that a CMV load of 500 copies/ml could be used as a cutoff value for initiating treatment in patients following SCT, receiving immunoglobulin prophylaxis.