Chronic Myeloid Leukemia Clinical Trial
Official title:
Safety And Efficacy Of Tyrosine Kinase Inhibitor Cessation For Chronic Myeloid Leukemia Patients With Stable Molecular Response In A Real World Population
This is a single-arm, phase II study to evaluate safety and efficacy of tyrosine kinase inhibitor (TKI) cessation for chronic myeloid leukemia (CML) patients with stable molecular response in a real world population.
Transitioning from busulfan, hydroxyurea, IFN-α to tyrosine kinase inhibitors (TKIs) has dramatically altered the natural history of CML. Patients with CML appropriately managed with TKIs are able to benefit from near normal life expectancy. Given the age-adjusted incidence of 1.6 per 100,000 people combined with a reduced annual mortality of less than 2% to 3% per year, it is expected the prevalence in the US to increase from approximately 70,000 in 2010 to a projected 144,000 in 2030. Thus, advancing our knowledge regarding clinical management is critical in order to care for this expanding population. However the morbidity associated with prolonged TKI exposure remains a substantial burden on this patient population. In addition to a relatively benign side effect profile (edema, muscle cramps, diarrhea, nausea, musculoskeletal pain, rash and other skin problems, abdominal pain, fatigue, joint pain, and headaches), patients continued to experience grade 3 and 4 adverse events (neutropenia, thrombocytopenia, anemia, elevated liver enzymes, congestive heart failure, and other drug-related adverse events) more than 2 years after initiating therapy. For patients with high-risk CML that may benefit from faster and/or deeper molecular responses, or who develop intolerance or resistance to imatinib, second generation TKIs (dasatinib, nilotinib, and bosutinib) are available. Indeed, there is a structural and dose-dependent relationship between TKIs and ischemic heart disease, ischemic cerebrovascular events and/or peripheral artery disease accompanied with a linear increase in the cumulative frequency of these cardiovascular events over time. Additionally, experts believe the cost of CML medicines "are too high, are unsustainable, may compromise access of needy patients to highly effective therapy, and are harmful to the sustainability of our national health care systems." Given the implications on quality of life, adverse events and financial burden on patients, TKI therapy should be discontinued when medically appropriate. Thankfully, discontinuation of TKIs in CML-CP patients with RT-PCR negative for BCR-ABL1 transcripts (Undetectable Minimal Residual Disease, UMRD) or MR has established that 38% to 45% of patients are able to achieve TFR with persistence of UMRD and MR at 5 and 8 years, respectively. Subsequent studies (EURO-SKI, ENESTfreedom, ENESTop, and DADI) have independently validated these results, and patients who experience MR will mostly do so within three to six months after discontinuation. Furthermore, in patients with complete cytogenetic response, those who have a deeper molecular response (>3 log reduction in transcripts) compared to those without have an improved estimated 7-year event-free survival. ddPCR is a powerful tool that allows for the absolute quantitation of nucleic acids and provides a more precise and sensitive assay than real-time PCR (RT-PCR) in detecting BCR-ABL1 transcripts. There is neither a precise molecular mechanism to characterize MR, nor a clinically actionable assay to determine which patients will benefit from TKI cessation and achieve TFR. Thus, leveraging ddPCR can impact patient outcomes in CML-CP patients undergoing TKI treatment by potentially determining who is expected to achieve of TFR. Cancer causing mutations can affect oncogenes that normally stimulate growth, suppressor genes that normally inhibit growth, and repair genes that normally limit mutations. Of the 20,000 protein coding genes in the human genome, approximately ~140 genes can promote tumorigenesis while the remaining passenger mutations confer no selective growth advantage. In CML, genomic analysis has identified variants in patients with poor outcomes. Therefore, mutational analysis of clinically relevant genes and genes of emerging clinical relevance could provide insight into which patients are at risk for relapse. Prior to these findings, a truly curable clinical status after CML diagnosis was previously attainable only with allogeneic stem cell transplantation. It is known that successful remission in relapsing CML patients who have undergone stem cell transplantation was primarily driven by an alloreactive T-cell dependent graft-versus-leukemia effect. The cytotoxic role of a WT-1 peptide specific TCR Vβ21 T-cell clone against K562 cells has been demonstrated in vitro. Taken together, these data suggest a role of immune cells and the subsequent maturation, generation, and homing of CML-antigen-specific T-lymphocytes - the hallmark of elimination during cancer immune surveillance. Massively paralleled sequencing of the complementarity determining region 3 by TCR-sequencing (TCR-seq) allows for a detailed understanding of the T-cell repertoire and is representative of clonal distribution, antigenic response diversity, and the degree of T-cell immunomodulation. A diverse T-cell repertoire capable of recognizing CML-specific antigens with concomitant clonal expansion may be associated with successful TFR and potentially provide additional biomarkers towards identifying patients with CML-CP who should be optimal candidates for TKI cessation. ;
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