Published online 26 March 2008
Haematologica, Vol 93, Issue 5, 770-774 doi:10.3324/haematol.12265
Copyright © 2008 by Ferrata Storti Foundation

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Chronic Myeloid Leukemia

Front-line treatment of Philadelphia positive chronic myeloid leukemia with imatinib and interferon-: 5-year outcome

Francesca Palandri¹, Ilaria Iacobucci¹, Fausto Castagnetti¹, Nicoletta Testoni¹, Angela Poerio¹, Marilina Amabile¹, Massimo Breccia², Tamara Intermesoli³, Francesco Iuliano⁴, Giovanna Rege-Cambrin⁵, Mario Tiribelli⁶, Maurizio Miglino⁷, Fabrizio Pane⁸, Giuseppe Saglio⁵, Giovanni Martinelli¹, Gianantonio Rosti¹, Michele Baccarani², on behalf of the GIMEMA Working Party on CML

¹ Department of Hematology/Oncology "L. and A. Seràgnoli" S. Orsola Malpighi Hospital, University of Bologna, Bologna
² Department of Cellular Biotechnology and Hematology, University "La Sapienza", Rome
³ Hematology Section, Bergamo
⁴ Division of Hematology, Catanzaro
⁵ Department of Clinical and Biological Science, University of Turin at Orbassano, Turin
⁶ Division of Hematology, University of Udine, Udine
⁷ Division of Hematology, University of Genova, Genova and
⁸ CEINGE Biotecnologie Avanzate and Department of Biochemistry and Medical Biotechnology, University of Naples Federico II, Naples, Italy

Correspondence: Francesca Palandri, Department of Hematology and Oncology "L. and A. Seràgnoli", St. Orsola-Malpighi University Hospital, via Massarenti 9, 40138 Bologna, Italy. E-mail: francesca.palandri{at}libero.it

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 
In 2004, we reported the short-term results of a multicentric, phase 2 study of imatinib 400 mg daily and pegylated interferon- in the treatment of 76 early chronic phase Philadelphia-positive chronic myeloid leukemia patients. In this report, we update the results with an observation time of five years. After two years of treatment, all but 10 patients (13%) had discontinued pegylated interferon-. The complete cytogenetic response rate at five years was 87%, and 94% of complete cytogenetic responders maintained the complete cytogenetic response after five years. All but one complete cytogenetic response also achieved a major molecular response. These data confirm the excellent response to imatinib front-line and the stability of the complete cytogenetic response. Any possible additional benefit of the combination with interferon- remains uncertain, due to low patient compliance.

Key words: chronic myeloid leukemia, imatinib, long-term results, interferon-alpha.

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 
Imatinib mesylate (Glivec, Novartis Pharma) is a small molecule inhibiting, among others, the Bcr-Abl encoded protein kinase.^1,2 Imatinib was first tested and registered in a rapid sequence between 1998 and 2000, for the treatment of blast crisis,^3,4 accelerated phase^5,6 and late chronic phase patients resistant or intolerant to interferon-.^7,8 The potency of imatinib was such that a prospective randomized study of imatinib vs. interferon- in early chronic phase, treatment-naïve, patients was initiated in 2000.^9,10 This study, called IRIS (International Randomized Study of imatinib vs. interferon- and low dose arabinosyl cytosine) led to an impressive change in the front-line management of CML, with imatinib almost completely replacing both interferon- and allogeneic stem cell transplantation (alloSCT).¹¹ Since the mechanisms of action of imatinib and interferon- are different, in 2001 the Italian Cooperative Study Group on CML (now the GIMEMA CML Working Party) carried out an exploratory phase 2 study of the combination of imatinib and interferon-, to evaluate the safety of the combination, appropriate dosage and patients’ compliance. Seventy-six consecutive, previously untreated, CML patients were treated with imatinib 400 mg daily and a pegylated preparation of human recombinant interferon-2b (PegIntron; PegIFN; Schering Plough, NJ, USA) at a variable dose (50, 100 and 150 µg/week).

The results of this study were published in 2004,¹² reporting that 45 out of 76 (59%) patients discontinued PegIFN during the first year of treatment, that the frequency and the severity of all adverse events, both hematologic and non-hematologic, increased together with the increase in PegIFN dose, and that the median administered dose of PegIFN was significantly lower than the scheduled dose. We concluded that the toxicity profile of the combination and patients’ compliance did not encourage testing the combination of imatinib and interferon- vs. imatinib alone. At one year, 83% of patients achieved a major cytogenetic response (MCgR), 70% a CCgR and 47% a 3-log reduction of BCR-ABL transcript levels. The first report of the study covered the first year of treatment, and was focused on toxicity profile and dose adjustments. This cohort of patients, with a follow-up observation of five years, has now provided a valuable source of data for the assessment of the long-term efficacy, covering response duration and survival.

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 
Study protocol
The study was promoted and sponsored by the Italian Cooperative Study Group on CML (currently the GIMEMA Working Party on CML), with the support of Novartis Pharma and Schering-Plough, which provided the study drugs free of charge. The study was approved by the Ethics Committee of each participating institution and was designed and managed according to the Helsinki declaration and Good Clinical Practice guidelines. The general outline of the study, inclusion criteria and response definitions have been previously reported.¹² Briefly, patients were eligible if they were in early chronic phase, less than six months from diagnosis, and previously untreated with either study drug. According to treatment protocol, patients were assigned to receive imatinib 400 mg daily and PegIFN at the dose of 50, 100 or 150 µg/week. Continuing PegIFN was not mandatory after the first year and, in case of adverse events, PegIFN was dose-reduced or discontinued first, so as to keep the imatinib dose as close as possible to 400 mg daily.

Methods
Cytogenetic studies were performed by standard banding techniques on marrow cells before treatment, every three months during the first year of therapy and at 6–12 month intervals thereafter.¹² Molecular response (MolR) was assessed on blood cells at 3–6 month intervals by a standardized quantitative reverse-transcriptase polymerase chain reaction (RQ-PCR) method on an ABI PRISM 7700 Sequence Detector¹³ (Perkin Elmer, Faster City, CA, USA). The housekeeping gene was β₂ microglobulin (β₂M) until January 2004, when it was decided to substitute β₂M with ABL, to make the data more consistent with recommendations and other reports.^13,14 In order to transform BCR-ABL:β₂M data into BCR-ABL:ABL data, from January 2004 to April 2004, 50 samples were assessed in duplicate, using both β2M and ABL. The BCR-ABL:β₂M ratio was plotted against the BCR-ABL:ABL ratio, and the slope of the linear regression equation was used to obtain the estimated BCR-ABL:ABL ratios, applying the formula: BCR-ABL:ABL ratio=57.74 x BCR-ABL:β₂M ratio.¹⁴

Response definition
The cytogenetic response (CgR) was evaluated according to the proportion of Ph-positive metaphases.¹² A complete cytogenetic response (CCgR) required the absence of Ph-positive metaphases in two subsequent tests. We defined a major molecular response (MMolR) as a ratio BCR-ABL:ABL less than 0.05%, corresponding to 0.1% on the International Scale,¹⁵ whereas undetectable BCR-ABL transcript levels were defined as a ratio BCR-ABL:ABL less than 0.001%, corresponding to the lowest level of detectability of the method (10^–).

Statistics
Overall survival was calculated by the product-limits method of Kaplan-Meier¹⁶ from the date of first imatinib dose to the date of death or last contact, whichever came first, with 95% confidence interval (95% CI). Progression-free survival (PFS) was calculated by the same method from the time of first imatinib intake to the first documentation of accelerated phase or blast crisis or to death, whichever came first. Accelerated phase and blast crisis were identified as previously reported.¹² The Kaplan-Meier¹⁶ method was also used to calculate the duration of the CCgR from the date of the first CCgR to the date of CCgR loss or of last cytogenetic evaluation, whichever came first.

Patients
Seventy-six patients with early chronic phase Ph-positive CML were enrolled between July and December 2001 in 18 Italian hospitals and treated with imatinib 400 mg daily and PegIFN at the dose of 50 µg/week (27 patients, first cohort), 100 µg/week (18 patients, second cohort), and 150 µg/week (31 patients, third cohort). The Sokal risk¹⁷ distribution was 45%, 31% and 24% in the low, intermediate and high risk groups respectively. According to Hasford’s score, 51% of the patients were low risk, 37% were intermediate risk and 12% were high risk.

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 
Adverse events, compliance and dose intensity
The type and the frequency of the adverse events during the first year have already been reported in detail.¹² Neutropenia grade 3–4 and thrombocytopenia grade 3 occurred in 63% and in 28% of patients respectively. Non-hematologic adverse events were grade 2 in 38%, grade 3 in 38% and grade 4 in 3% of patients. Compliance to PegIFN was low, both in terms of median administered dose and of proportion of patients who continued PegIFN therapy over the years (Table 1). Imatinib was discontinued for adverse event in 3/76 patients (4%); one of these patients resumed imatinib later, without toxicity, and obtained a CCgR. The imatinib dose was increased to 600 mg in 3 patients. Edema was not more frequent than expected with imatinib alone, being observed in 15% of patients (all grades) and in 1% of (grade 3) patients. No patient developed cardiac heart failure or myocardial infarction. The number of patients enrolled in each PegIFN cohort was too small for a specific statistical analysis. Nonetheless, there was a trend towards a correlation between the severity of the adverse events and the scheduled PegIFN dose, since grade 3 non-hematologic adverse events were reported in 22%, 33% and 55% of the patients of the first, second and third cohorts respectively.

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Table 1. Number of patients on PegIFN and median administered vs. scheduled dose of PegIFN (µg/week) after 12, 18, 24 and 36 months.

Response and course
After one year of treatment, 74/76 patients (97%) had achieved a complete hematologic response; 55/76 (70%) a CCgR and 36/76 (47%) a MMolR, that was undetectable by RQ-PCR in 11 (14%) patients. After the 12th month, another 11 patients achieved a CCgR, for an overall CCgR rate of 87%. Eight of these 11 late CCgRs belonged to the high Sokal risk group, where the proportion of patients in CCgR increased from 28% at 12 months to 72% at five years (Table 2). Forty-one of 66 (67%) CCgRs achieved CCgR while on imatinib and PegIFN, while the remaining 25 patients achieved CCgR 1–26 months (median 4 months) after the discontinuation of PegIFN. Nine of the 10 patients who never obtained a CCgR discontinued PegIFN within the first six months of therapy. After 3–6 years (median 5 years) from the time of first documentation of the CCgR, 62/66 patients are still in continuous CCgR, and the actuarial proportion of stable CCgRs at five years is 94% (95% CI: 88.4–99.6%). Of the patients who lost the CCgR, 2 were submitted to alloSCT in CP, 1 is currently being treated with a second generation tyrosine kinase inhibitor and 1 progressed to blast crisis and died. The MMolR rate at one year was 47% (36/76) in all patients, and 65% (36/55) in CCgRs. At subsequent evaluations, the MMolR rate increased to 83% in all patients (63/76), and 95% in CCgRs (63/66). The BCR-ABL transcript level became occasionally undetectable in 21% of patients, but remained persistently undetectable in only 2/76 patients (3%). With an observation time of more than five years, 3 patients have progressed to accelerated phase/blast crisis and 3 patients have died (Figures 1A and 1B). iImatinib has rapidly become the front-line treatment of Ph-positive CML, thanks to the results of the pivotal IRIS study.^9,10,18 However, no other reports have been published on the front-line treatment of CML with imatinib, with the exception of two single-centre studies. These reported on 187 and 114 patients respectively, who were treated with imatinib front-line (mainly 800 mg daily) with a short follow-up (median 19 and 15 months respectively).^19,20

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Table 2. Time to complete cytogenetic response by cohort and for all 76 patients.

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Figure 1. Kaplan-Meier estimate of progression-free survival (PFS) and overall survival (OS). PFS was calculated from the date of enrolment to the date of progression to accelerated phase/blast crisis or to death, whichever came first. OS was calculated from the date of enrolment to the date of death or to last contact, whichever came first. At 5-years, PFS was 95% (95% CI: 90–100%) and OS was 96% (95% CI: 92–100%).

This study was designed in 2001 with the specific purpose of determining the toxicity and compliance to the combination of imatinib and interferon-, and to identify the PegIFN dose which would be both safe and free from recurrent adverse event. The answers to these questions had already been published: the combination was safe (no severe adverse event occurred) but was hematologically more toxic, and compliance was poor, mainly due to the non-hematologic toxicity of PegIFN.¹² After a median follow-up of 60 months, we confirm that most patients discontinued PegIFN during the first 12 months of therapy, and we report that just a few patients continued the combined treatment beyond two years. On the other hand, compliance to imatinib was excellent, and no severe late-onset toxicities, including cardiac dysfunctions, have been observed. After a median follow-up of more than five years, we confirm that the results of this study do not support testing of this combination in longer, prospective randomized studies. However, since other exploratory studies of imatinib and interferon- suggested that with different doses, preparations and timings, the combination could be better tolerated, some large prospective randomized studies of imatinib and interferon- front-line are ongoing.^21,22 These studies will provide more data on the compliance and on the tolerated dose of interferon-, and will establish whether the addition of interferon- results in a higher cytogenetic and molecular response rate, and in a longer survival. Based on this report, the high CCgR and MMolR rate, and the durability of the responses may encourage speculation that the addition of PegIFN had some benefits. On the other hand, it should be remembered that the great majority of the patients received PegIFN for a short period of time and that interferon-, when given alone, requires longer treatment durations to achieve a response.²³ Retrospectively, the role of interferon- remains uncertain. However, in the present study all but 2 patients were regularly and continuously treated with imatinib 400 mg daily, confirming that, as in the pivotal IRIS study, the response to this treatment is excellent and durable.

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 
the assistance of Katia Vecchi and Katia Vitali is kindly acknowledged.

 
Funding: the study was supported by Fondazione del Monte di Bologna e Ravenna, European LeukemiaNet funds and BolognAIL.

Authorship and Disclosures

FP and II: collected data and wrote the manuscript. MB designed and supervised the study and gave final approval to the manuscript. GM and GR: contributed to the design and development of the study as well as interpretation of the data. NT, AP, and MA: performed cytogenetic and molecular studies. FC, MB, TI, FI, GRC, MT, MM, FP and GS: contributed in the development of the study and in data collection. GRC: speaker bureau of Novartis and Bristol Myers Squibb. FP: Research grant from Novartis, honoraria from Novartis, Bristol Myers Squibb e Roche. GS: advisory board and speaker bureau Novartis and Bristol Myers Squibb and research grant from Novartis. GR: grant and speaker bureau (Novartis), speaker bureau (Bristol Myers Squibb); MB: research grants and honoraries as speaker and consultant from Novartis Pharma. The other authors reported no potential conflict of interest.

Received for publication September 21, 2007. Revision received November 19, 2007. Accepted for publication November 20, 2007.

TOP ABSTRACT Introduction Design and Methods Results and Discussion Acknowledgements References

 

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