Background: The knowledge of biological characteristics of minimal residual disease (MRD) in chronic lymphocytic leukemia (CLL) remains sparse. There are no data available on what level of MRD might be 'safe' without an overt risk of relapse, or whether any such level exists at all.
To address this issue in prospective studies, we have developed a quantitative molecular approach to monitor MRD in CLL, which allows the malignant clone to be traced with far higher sensitivity than possible with the techniques available currently. Method: To quantify MRD in CLL patients, a novel locked nucleic acid (LNA)-RNA-based quantitative real-time PCR technique was developed.
Clone-specific assays were prepared for 62 CLL patients. Thirty patients were followed up molecularly for a median of 250 days (range 69-570 days).
All patients were administered chemo/immunotherapy. Results: In three patients, molecular negativity was achieved, as estimated by LNA-based assays.
In one patient, a sustained molecular negativity was established by chemo/immunotherapy and the patient remains molecularly negative (322 days). The LNA-based assay enabled us to evaluate MRD in a reproducible manner with the sensitivity of 10(-7).
Conclusion: LNA-RNA-based quantitative real-time PCR is an effective approach for MRD monitoring with the potential for increased sensitivity compared with standard DNA-based assays used for molecular follow-up.