The overexpression of HER-2/neu is an independent prognostic factor of clinical outcome of breast cancer, therefore determination of HER-2/neu status is now an integral part of the clinicopathologic workup. The ways of measuring the copy number of the HER-2/neu gene in tumor cells comprise in situ hybridization techniques and real-time polymerase chain reaction (PCR). Quantitative real-time PCR is a relatively new technique for assessing HER-2/neu gene amplification with high sensitivity. However, the HER-2/neu Quantification Kit developed by Roche designed for a LightCycler 1.5 platform had been withdrawn from the commercial market; therefore, we were encouraged to design an alternative LightCycler-based method that offers the desired level of reliability. One hundred breast cancer cases with known HER-2/neu status have been examined with the original Roche developed HER-2/neu Quantification kit and the custom real-time PCR assay. The newly developed, custom PCR showed sensitivity of 91.43%, specificity of 90.63%, and accuracy of 90.91% taking fluorescence in situ hybridization results as the end point. We have described a novel real-time PCR technique for the relative quantification of the HER2/neu gene on a LightCycler 1.5 platform. We have determined that our method is eligible and ideal for the supplement of regular fluorescence in situ hybridization reactions, concerning its high sensitivity and reliability.