Eliminating MRD as a Therapeutic Endpoint Could Move CLL Treatment Toward Cure
This Blood review makes the case that achieving bone marrow MRD-negative complete remission is a prerequisite for long-term unmaintained disease-free survival and potential cure in CLL, noting that MRD status is the single best post-treatment predictor of outcomes after chemoimmunotherapy. The authors review flow cytometry and PCR-based MRD methodologies, discuss the potential for MRD-directed individualized therapy, and advocate for MRD negativity as a surrogate endpoint in clinical trials to accelerate determination of clinical benefit.
The original study
Eliminating minimal residual disease as a therapeutic end point: working toward cure for patients with CLL.
- Authors
- Thompson PA, Wierda WG
- Journal
- Blood
- Type
- Journal Article, Research Support, Non-U.S. Gov't, Review
- PMID
- 26576865
Original abstract
Deep remission and prolonged disease-free survival can be achieved with first-line chemoimmunotherapy (CIT), such as combined fludarabine, cyclophosphamide, and rituximab, in the majority of patients with chronic lymphocytic leukemia (CLL). More modest results are reported with less intense regimens like obinutuzumab plus chlorambucil. Clinical assessment has limited sensitivity in detecting residual disease responsible for subsequent relapse, even including morphologic bone marrow (BM) evaluation. Multicolor flow cytometry and polymerase chain reaction (PCR)-based methods can detect minimal residual disease (MRD) to a sensitivity of ≥1:10,000 (10(-4)). Achieving BM MRD-negative complete remission (CR) is associated with superior progression-free survival (PFS) and overall survival; MRD status is the single best posttreatment predictor of long-term outcomes after CIT. Newer oral B-cell receptor signaling pathway inhibitors are highly effective at controlling disease, but best monotherapy responses are typically partial remission, and patients must remain on treatment to maintain disease control. Therapeutic progress is still needed for CLL. We propose that targeting MRD provides opportunity to realize this progress. Achieving BM MRD-negative CR is a prerequisite for long-term unmaintained disease-free survival and potential for cure. We review available methodologies for detecting MRD and correlations with posttreatment outcomes. We discuss the potential utility of MRD to direct individualized therapy. Finally, we discuss the importance of MRD-negative status as a surrogate marker for longer PFS in clinical studies to allow more rapid determination of clinical benefit.