Gwen Kurilik scite author profile

In chronic myelogenous leukemia (CML), the development of chromosomal abnormalities in addition to the Philadelphia chromosome (clonal evolution) is considered by many to be a feature of accelerated phase (AP). Imatinib mesylate (STI571), a selective inhibitor of the Bcr-Abl tyrosine kinase, has significant activity in AP CML. As clonal evolution could allow Bcr-Abl independent proliferation, we analyzed its impact on the outcome of 71 AP patients treated with 600 mg of imatinib mesylate. Fifteen patients had clonal evolution alone (AP-CE), 32 had AP features but no evidence of clonal evolution (HEM-AP), and 24 had AP features plus clonal evolution (HEM-AP + CE). Of the AP-CE patients, 73% had a major cytogenetic response, compared with 31% of the HEM-AP patients (P =.043) and 12.5% of the HEM-AP + CE patients (P =.007). Complete cytogenetic responses were seen in 60% of AP-CE patients, compared with 31% of HEM-AP patients (P =.19) and 8% of HEM-AP + CE patients (P <.001). With mean follow-up of 11.2 months, 35% of all patients failed treatment. The lowest estimated rate of treatment failure at 1 year, 0%, was seen in AP-CE patients, compared with rates of 31% for HEM-AP patients and 69% for HEM-AP + CE patients (P =.0004). After 1 year, 100% of AP-CE patients were still alive, compared with 85% of HEM-AP patients and 67.5% of HEM-AP + CE patients (P =.01). In conclusion, in patients with clonal evolution as the sole criterion of disease acceleration, good responses to imatinib are still possible. Once patients have other signs of acceleration, clonal evolution predicts lower response rates and a shorter time to treatment failure.

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Clonal evolution and lack of cytogenetic response are adverse prognostic factors for hematologic relapse of chronic phase CML patients treated with imatinib mesylate

O’Dwyer

Mauro

Blasdel

et al. 2004

113

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We followed 141 patients treated with imatinib mesylate (> 300 mg) for chronicphase chronic myelogenous leukemia (CML) following failure of treatment with interferon. During 12 months from the start of imatinib mesylate treatment, 96.5% achieved a complete hematologic response, 47.0% achieved a major cytogenetic response, and 32.4% achieved a complete cytogenetic response. The proportion of patients with hematologic relapse was 10.9% at 12 months and 14.6% at 18 months. In a univariate Cox regression analysis, the only pretreatment characteristics that correlated with an increased risk of hematologic relapse were hemoglobin level less than 120 g/L (12 g/dL) (P ‫؍‬ .02), increased bands in the peripheral blood (P ‫؍‬ .01), and clonal evolution (P < .0001). In a multivariate analysis, an elevated platelet count (P ‫؍‬ .03) and clonal evolution (P < .0001) were the only significant factors for hematologic relapse. During treatment, the absence of a major cytogenetic response within the first 6 months also significantly correlated with relapse (P ‫؍‬ .03). Notably, patients failing to achieve a major cytogenetic response by 6 months had a significantly higher rate of hematologic relapse (27%) compared with those who achieved a major cytogenetic response by 6 months (3%), and patients with clonal evolution had a significantly higher risk of hematologic relapse (50%) than those without clonal evolution (9%

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BCR-ABL RNA Levels at the Time of a Complete Cytogenetic Response (CCR) Predict the Duration of CCR in Imatinib-Treated Chronic Myeloid Leukemia Patients.

Press

Love

Tronnes

et al. 2004

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Background : Imatinib induces a complete cytogenetic response (CCR) in the majority of patients with chronic phase CML. CCR is durable in the majority of patients, but relapse occurs in a subset. To determine the potential of quantitative RT-PCR (qPCR) of BCR-ABL to predict cytogenetic relapse, we serially monitored residual disease in 90 CML patients with an imatinib-induced CCR. Methods and patients : mRNA was prepared from total nucleated cells from blood or bone marrow, and cDNA was synthesized using random hexamer primers. Relative BCR-ABL expression was then measured by real-time fluorescent PCR normalized for G6PDH expression. This assay has a detection limit of 1 CML cell in 100,000 and an analytical precision of 6% (CV). At the start of imatinib therapy, 85% of patients were in chronic phase, at a median 9.5 months after diagnosis. Patients were treated with imatinib alone (64%) or in combination with interferon or cytarabine (32%). One patient each was treated with imatinib in combination with either the farnesyltransferase inhibitor tipifarnib, donor leukocytes (after allogeneic BMT), or an experimental heat shock protein (hsp70) vaccine. During the imatinib follow-up time of 28 months (median), disease monitoring occurred by cytogenetics and qPCR (median 6 samples per patient). The CCR was achieved after 9.7 months (median) of imatinib therapy. Results : At the time of first achieving CCR, BCR-ABL RNA levels had decreased by a median of 1.8 logs below the median baseline level. During further follow-up, 26 patients (29%) experienced cytogenetic relapse (defined as any Ph-positive metaphase cell) at a median 6.0 months after CCR and a median 20 months after starting imatinib. There was no difference in the imatinib treatment time, the time to achieve CCR, or the post-CCR follow-up period between the patients with and without subsequent cytogenetic progression. qPCR data at the time of first CCR were available for 78 patients, including 25 of 26 with a subsequent cytogenetic relapse. The reduction of BCR-ABL RNA at the time of first achieving CCR was significantly less in those patients with a subsequent cytogenetic relapse (median 1.4 log) compared to those with a sustained CCR (median 2.0 log) (P=0.002). In the 64 patients with a sustained CCR, the molecular response progressively improved over time to reach a median reduction of 4.0 log at 15 months after CCR. Of the 29 patients achieving at least a 2 log reduction of BCR-ABL RNA at the time of first reaching CCR, only 3 (10%) had a subsequent cytogenetic relapse. In comparison, 22 of 49 patients (45%) with a less than 2 log reduction at the time of achieving CCR had a subsequent cytogenetic relapse (odds ratio = 7.1; 95% CI 1.9–26). At the time of first achieving CCR, a reduction in BCR-ABL RNA of less than 2 logs thus had a diagnostic sensitivity of 88% and a diagnostic specificity of 49% for predicting subsequent cytogenetic relapse. Conclusions : We conclude that, in the majority of imatinib-treated CML patients reaching CCR, the level of BCR-ABL RNA at the time that the CCR is first achieved is a sensitive predictor of the durability of the CCR. The availability of a laboratory marker capable of stratifying the subsequent risk of disease progression (early in remission) will be useful in targeting additional (or alternative) therapies to those patients with the highest risk.

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Gwen Kurilik

The impact of clonal evolution on response to imatinib mesylate (STI571) in accelerated phase CML

Clonal evolution and lack of cytogenetic response are adverse prognostic factors for hematologic relapse of chronic phase CML patients treated with imatinib mesylate

BCR-ABL RNA Levels at the Time of a Complete Cytogenetic Response (CCR) Predict the Duration of CCR in Imatinib-Treated Chronic Myeloid Leukemia Patients.

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