A Pilot Study Evaluating the Safety and Efficacy of Imatinib Given Early after Transplant for High-Risk Philadelphia Chromosome-Postive Leukemias.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 1095-1095
Author(s):  
Paul A. Carpenter ◽  
David S. Snyder ◽  
Mary E. Flowers ◽  
Jean E. Sanders ◽  
Paul J. Martin ◽  
...  
Keyword(s):  
Pilot Study ◽  
Lymphoblastic Leukemia ◽  
Philadelphia Chromosome ◽  
Chronic Phase ◽  
Dose Intensity ◽  
Antigen Expression ◽  
Myelogenous Leukemia ◽  
Imatinib Therapy ◽  
Cell Transplant ◽  
Hematopoietic Cell Transplant

Abstract Patients with Ph+ acute lymphoblastic leukemia (ALL) or chronic myelogenous leukemia (CML) in stages other than first chronic phase (CP1) frequently have recurrent malignancy after allogeneic hematopoietic cell transplant (HCT). Imatinib given after HCT for the treatment of hematological relapse has been of limited success in Ph+ALL but may induce more durable remissions in CML. Hypothesis: We postulated that imatinib might be most effective for preventing hematological relapse after myeloablative HCT if given immediately after engraftment to patients without detectable leukemia, or with leukemia that can be detected only at the molecular level. Study design: A pilot study is ongoing to evaluate the safety and preliminary efficacy of imatinib begun early after myeloablative HCT and continued until post-transplant day 365 (D+365). Study participants became eligible to start imatinib (adults 400 mg/day, children 260 mg/m2/day) if the residual marrow leukemia burden at the time of initial engraftment (ANC>500 on 2 consecutive days) did not exceed >1/20 Ph+ metaphases, >1% aberrant antigen expression on blasts by multidimensional flow, or presence of bcr/abl in >5% interphase nuclei by FISH. The primary endpoint of safety was defined by ability to tolerate imatinib (adults ≥200 mg/day, children ≥100 mg/day) for ≥ 6 days/week until D+90. An attempt was made to administer higher daily doses of imatinib after D+90. Patient characteristics: Ten patients with Ph+ALL (8 CR1, 2 CR2) and 6 patients with CML (2 AP, 2 CP2, 2 CP3) have been enrolled; 13/16 had leukemia detected by molecular or cytogenetic methods at the time of transplant. Median age at transplant was 40 y (range 5–62 y). Stem cell sources were cord blood (n=1), marrow (n=4) or G-mobilized peripheral blood (n=11). Donors were unrelated (n=10) or related (n=6). Results: Imatinib therapy began in 15 patients at a median of 29 days (range 24–39 days) after HCT and has been administered for a median of 299 days (range, 33–380 days). The median of average daily doses during this time period was 400 mg/day (range 389 to 510 mg/day) among adults and 304 mg/m2/day for the 2 children. All patients tolerated imatinib at the intended dose intensity within the first 90 days after HCT. Toxicities (NCI CTC v3.0) possibly attributed to imatinib included grade 1–2 nausea (n=3), grade 1 edema (n=3), grade 1–2 anemia (n=2), and grade 3 neutropenia (n=2). Per protocol, one patient with neutropenia received 2 doses of G-CSF at D+75 and continued imatinib without neutropenia. The second patient was not given G-CSF and imatinib was held for 2 weeks from D+160 until the ANC was >2000. All patients are surviving at a median of 333 days after HCT (range, 68–564), and 14/15 patients have no detectable bcr/abl transcripts in the blood or marrow. Seven patients (4 ALL, 3 CML) have completed imatinib therapy and survive at a median of 467 days after HCT (range, 410–564 days) and 6/7 have no detectable bcr/abl transcripts in blood or marrow. One patient (CML-CP3) with cytogenetic relapse at D+118 had a 4th remission after withdrawal of immunosuppression and continued imatinib but developed hematological relapse at D+429. Conclusions: We conclude that imatinib therapy can be safely prescribed early after myeloablative allogeneic HCT at a dose-intensity comparable to that used in general oncology. Preliminary efficacy data are encouraging and worthy of further study.

Significance of Rising Levels of Minimal Residual Disease in Patients with Philadelphia Chromosome-Positive Chronic Myelogenous Leukemia (Ph+ CML) in Complete Cytogenetic Response (CGCR)

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 445-445 ◽  
Author(s):  
Hagop M Kantarjian ◽  
Jianqin Shan ◽  
Dan Jones ◽  
Susan O’Brien ◽  
Mary Beth Rios ◽  
...  
Keyword(s):  
Kinase Inhibitors ◽  
Residual Disease ◽  
Quantitative Polymerase Chain Reaction ◽  
Philadelphia Chromosome ◽  
Disease Status ◽  
Myelogenous Leukemia ◽  
Therapeutic Interventions ◽  
Imatinib Therapy ◽  
Molecular Response ◽  
Cell Transplant

Abstract Background . Patients with Ph+ CML receiving tyrosine kinase inhibitors (TKIs) are frequently monitored for response by quantitative polymerase chain reaction (QPCR) studies for minimal molecular disease. The clinical significance of rising levels of QPCR in CGCR is uncertain. Study Aims . To evaluate the relevance of increases of QPCR levels in patients with CML in CGCR on therapy. Study Group and Methods . Of 258 patients on imatinib therapy for newly diagnosed CML, 116 patients in durable CGCR on imatinib therapy for at least 18 months had significant QPCR increases (documented at least twice) as defined by literature reports. These were analyzed by the achievement of major molecular response (MMR; QPCR < 0.05%), and by the degree of QPCR increase. Results. The outcome of patients by disease status (still in MMR vs. loss of MMR vs. never in MMR) and by the QPCR level increase are shown in the Table. Only 13 of 116 patients (11%) with significant QPCR increases had CML progression; 11 of them were among 44 patients (25%) who either lost a MMR or never had a MMR, and had > 1 log increase of QPCR. The 5-year survival of all 116 patients was 92%, suggesting the minimal relevance of QPCR increases in patients in CGCR. Conclusion . Most patients with significant QPCR increases remain in CGCR. Patients who lose a MMR or never achieve a MMR, and have > 1 log increase of QPCR, should be monitored more closely, and may be evaluated for mutations of BCR-ABL kinase domain and considered for investigational therapeutic interventions. Allogeneic stem cell transplant should not be considered in view of the excellent survival. Outcome of Patients in CGCR by QPCR Increases Disease Status QPCR Log increase No. Patients CML Progression Median follow-up from QPCR increase in months (range) Persistent MMR Any 28 0 36 (3–62) Loss of MMR >0.5–1 12 0 34 (14–59) >1–2 25 3 31 (6–52) >2 11 4 45 (20–57) Not in MMR <1 32 2 35 (10–70) >1 8 4 25 (12–56)

A phase II study of nilotinib administered to imatinib resistant or intolerant patients with chronic myelogenous leukemia (CML) in blast crisis (BC) or relapsed/refractory Ph+ acute lymphoblastic leukemia (ALL)

2007 ◽  
Vol 25 (18_suppl) ◽  
pp. 7040-7040 ◽  
Author(s):  
R. Larson ◽  
O. Ottman ◽  
H. Kantarjian ◽  
P. le Coutre ◽  
M. Baccarani ◽  
...  
Keyword(s):  
Phase I ◽  
Phase Ii ◽  
Residual Disease ◽  
Lymphoblastic Leukemia ◽  
Chronic Phase ◽  
Dose Intensity ◽  
Complete Response ◽  
Myelogenous Leukemia ◽  
Safety And Efficacy ◽  
Imatinib Resistant

7040 Background: Nilotinib is a highly selective Bcr-Abl tyrosine kinase inhibitor that is 30-fold more potent than imatinib. In a phase I trial, nilotinib demonstrated efficacy and favorable tolerability in these pts. These results expand upon the phase I experience Methods: This phase II open-label study was designed to evaluate the safety and efficacy of nilotinib in adult imatinib-resistant or - intolerant BC pts or pts with relapsed/refractory Ph+ALL. Primary endpoint was investigator assessment of best hematologic response for BC and complete response for Ph+ALL pts. Nilotinib was started at 400mg BID with escalation to 600mg BID if no adequate response. Results: Safety and efficacy data are reported for 120 BC (27 lymphoid, 87 myeloid, 6 unknown) and 41 Ph+ALL pts (37 active disease, 4 residual disease, 38 relapsed, 3 refractory). 60% of pts had >35% Ph+ metaphases for BC and 31% for Ph+ALL. Median ages was 54 yrs for BC and 46 yrs for Ph+ALL pts. Chromosomal abnormalities other than Ph+ were noted in 64 (53%) BC and 12 (29%) Ph+ALL pts. Extramedullary involvement was present in 44 (37%) BC and 3 (7%) Ph+ALL pts. Treatment is ongoing for 21 (18%) BC and 4 (10%) Ph+ALL pts. Majority of discontinuations were due to disease progression [61 (51%) in BC; 26 (63%) in Ph+ALL). Median treatment duration was 53 (1–441) and 72 (3–363) days for BC and Ph+ALL, respectively. Median dose intensity was 800mg/day for both pt groups. CHR was reported in 25 (21%) pts, marrow responses in 7 (6%) pts, and return to chronic phase in 10 (8%) pts. Complete response was reported in 10 (24%) Ph+ALL; of which, 1 patient had minimal residual disease. The most common Grade 3/4 AEs were thrombocytopenia (41%), neutropenia (28%), pneumonia (11%), and anemia (27%) in BC and thrombocytopenia (24%) in Ph+ALL pts. During study period death occurred in 9 (8%) BC and 3 (7%) Ph+ALL pts. No Ph+ALL pt developed CNS disease while on therapy. Conclusions: Nilotinib has significant clinical activity and is well tolerated in imatinib-resistant or -intolerant BC and relapsed/refractory Ph+ALL pts. Nilotinib represents an important new treatment option for these pts in which there remains a high unmet medical need. No significant financial relationships to disclose.

A phase II study of dasatinib therapy in children and adolescents with newly diagnosed chronic phase chronic myelogenous leukemia (CML-CP) or Philadelphia chromosome-positive (Ph+) leukemias resistant or intolerant to imatinib.

2012 ◽  
Vol 30 (15_suppl) ◽  
pp. TPS9594-TPS9594
Author(s):  
Michel Zwaan ◽  
Linda C. Stork ◽  
Yves Bertrand ◽  
Lia Gore ◽  
Nobuko Hijiya ◽  
...  
Keyword(s):  
Phase I ◽  
Phase Ii ◽  
Dose Escalation ◽  
Lymphoblastic Leukemia ◽  
Philadelphia Chromosome ◽  
Chronic Phase ◽  
Myelogenous Leukemia ◽  
Molecular Response ◽  
Newly Diagnosed ◽  
Dose Escalation Study

TPS9594 Background: Dasatinib is a BCR-ABL inhibitor approved for treatment in adult patients (pts) with newly diagnosed Ph+ CML-CP; CML resistant/intolerant to prior therapy, including imatinib; and Ph+ acute lymphoblastic leukemia (ALL). There are no established dasatinib treatment regimens for children/adolescents with relapsed/refractory leukemia, but pediatric trials are underway. A phase I dose-escalation study of dasatinib in pediatric pts with refractory solid tumors (n=28) and imatinib-refractory, Ph+ leukemia (n=11) reported a maximum tolerated dose of 85 mg/m2 twice daily in solid-tumor pts and at least a partial cytogenetic response (CyR) in all evaluable CML pts (n=9) (Aplenc, J Clin Oncol 2011). Preliminary results from a phase I dose-escalation study in pediatric pts with subtypes of relapsed/refractory leukemia (NCT00306202) indicate that dasatinib was well tolerated up to 120 mg/m2 (Zwaan, Blood 2010 [abstr 2265]). Further study of dasatinib in pediatric pts is warranted. Methods: To evaluate the safety and efficacy of dasatinib monotherapy in children/adolescents with newly diagnosed CML-CP or Ph+ leukemias resistant/intolerant to imatinib, a phase II nonrandomized, global study of dasatinib in pts birth to <18 y is ongoing (NCT00777036): Cohort 1 (C1), Ph+ CML-CP pts resistant/intolerant to imatinib; Cohort 2 (C2), Ph+ ALL, accelerated or blast phase CML pts resistant/intolerant to or relapsed after imatinib therapy; or Cohort 3 (C3), newly diagnosed, treatment-naïve Ph+ CML-CP pts. Treatments are once daily with dasatinib 60 mg/m2 (C1/C3) or 80 mg/m2 (C2) for ≥24 months. Primary endpoints are major CyR (C1), complete hematologic response (C2), and complete CyR (C3). Secondary endpoints include safety, tolerability, best response, time to/duration of response, survival, and molecular response rates. BCR-ABL mutations are evaluated. First patient first visit was March 2009; estimated trial completion is September 2016. As of January 2012, 63 pts (n=27 aged <12 y; n=36 aged ≥12 y) have been treated in C1/C2 (n=41) and C3 (n=22). Enrollment is ongoing at 79 sites.

Bosutinib (BOS) for chronic phase (CP) chronic myeloid leukemia (CML) after imatinib (IMA) failure: ≥8-y update of a phase I/II study.

2020 ◽  
Vol 38 (15_suppl) ◽  
pp. 7549-7549
Author(s):  
Tim H. Brümmendorf ◽  
Jorge E. Cortes ◽  
Yeow Tee Goh ◽  
Musa Yilmaz ◽  
Rebecca B. Klisovic ◽  
...  
Keyword(s):  
Phase I ◽  
Kinase Inhibitor ◽  
Lymphoblastic Leukemia ◽  
Philadelphia Chromosome ◽  
Chronic Phase ◽  
Dose Intensity ◽  
Term Treatment ◽  
Prior Therapy ◽  
Long Term Treatment ◽  
New Treatment

7549 Background: BOS is approved for newly diagnosed CP CML and CML resistant/intolerant to prior therapy. In a phase I/II study, BOS showed durable efficacy and manageable toxicity in patients (pts) with CP CML after IMA failure. We report an ≥8-y update of this phase I/II and ongoing extension study. Methods: Pts with CP CML resistant/intolerant to IMA (CP2L) or IMA + dasatinib and/or nilotinib (CP3L) or with accelerated/blast phase (AP/BP) CML or Philadelphia chromosome+ acute lymphoblastic leukemia with prior tyrosine kinase inhibitor (TKI) therapy (ADV) received BOS starting at 500 mg/d. Results: 54/284 (19%) CP2L pts were still on BOS after ≥9 y and 8/119 (7%) CP3L and 5/167 (3%) ADV pts after ≥8 y; 61 CP2L pts discontinued BOS since y 5 and 21 CP3L and 12 ADV pts since y 4. Overall, the most common reason for discontinuation was disease progression/lack of efficacy in CP2L (27%), CP3L (42%) and ADV (50%) pts; last dose before discontinuation was ≥500 mg/d in 59 (21%), 28 (24%) and 46 (28%) pts, respectively. In CP2L pts, median (range) of follow-up was 54 (1–155) mo, treatment duration 26 (<1–155) mo and dose intensity 438 (87–599) mg/d; responses were durable (Table) and overall survival (OS) at 9 y was 74% vs 84% at 5 y. OS at 8 y was 69% in CP3L, 54% in AP CML and 23% in BP CML pts vs 78%, 59% and 23% at 4 y. 55 CP2L, 29 CP3L and 98 ADV pts died on study (10, 3 and 2 since the 4/5-y reports); 15, 5 and 3 had on-treatment transformations to AP/BP. Most common new treatment-emergent adverse events since y 5 in CP2L pts were pleural effusion (n=13), arthralgia (n=12) and increased blood creatinine (n=11). Conclusions: After ≥8 y, BOS continued to show durable efficacy and no new safety signals in pts with CP CML on long-term treatment, providing further support for BOS use after prior TKIs. Clinical trial information: NCT00261846 and NCT01903733 . [Table: see text]

scholarly journals Unusual T-Lymphoblastic Blast Phase of Chronic Myelogenous Leukemia

2014 ◽  
Vol 2014 ◽  
pp. 1-5 ◽  
Author(s):  
Jie Xu ◽  
Shaoying Li
Keyword(s):  
Lymph Node ◽  
Chronic Myelogenous Leukemia ◽  
De Novo ◽  
Lymphoblastic Leukemia ◽  
Chronic Phase ◽  
Myelogenous Leukemia ◽  
Imatinib Treatment ◽  
Cell Transplant ◽  
Blast Phase ◽  
History Of

T-lymphoblastic leukemia/lymphoma (T-ALL) presenting as blast phase of chronic myelogenous leukemia (CML-BP) is rare. In patients without history of CML, it is difficult to differentiate between CML-BP or de novo T-ALL. Here we reported 2 unusual cases of T-ALL presenting as CML-BP. Case 1 was a 24-year-old female with leukocytosis. Besides T-lymphoblasts (32%), her marrow exhibited some morphologic features of CML. Multiple remission or relapsing marrow had never demonstrated morphologic features of CML. Despite of imatinib treatment and stem cell transplant, she died 2.5 years later. Case 2, a 66-year-old male with diffuse lymphadenopathy, showed T-ALL in a lymph node and concurrent CML chronic phase (CML-CP) in his marrow. Same BCR-ABL1 fusion transcript with minor breakpoint was present in both the lymph node and marrow specimens. Although both cases did not have a history of CML, both cases represented T-lymphoblastic CML-BP with unusual features: Case 1 is unusual in that it presented as T-ALL with some CML morphologic feature but never showed CML-CP in her subsequent marrows biopsies; Case 2 is the first reported case of T-lymphoblastic CML-BP harboring BCR-ABL1 transcript with a minor breakpoint.

Simultaneous Administration of AMN107 and Imatinib in the Treatment of Imatinib-Sensitive and Imatinib-Resistant Chronic Myeloid Leukemia.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 694-694 ◽  
Author(s):  
James D. Griffin ◽  
Ellen L. Weisberg
Keyword(s):  
Cell Lines ◽  
Synergistic Effects ◽  
Lymphoblastic Leukemia ◽  
Single Agent ◽  
Philadelphia Chromosome ◽  
Chronic Phase ◽  
Myelogenous Leukemia ◽  
Wild Type ◽  
Imatinib Resistant

Abstract Chronic myelogenous leukemia (CML) and Philadelphia chromosome positive (Ph+) acute lymphoblastic leukemia (ALL) are caused by the Bcr-Abl tyrosine kinase oncogene. The Abl inhibitor imatinib is an effective, frontline therapy for early, chronic phase CML. However, accelerated or blast crisis phase CML and Ph+ ALL patients often relapse because of drug resistance that results from the emergence of imatinib-resistant point mutations within the Bcr-Abl kinase domain. The aminopyrimidine ATP-competitive inhibitor, AMN107, was designed to fit into the ATP-binding site of the Bcr-Abl protein in such a way as to exhibit higher efficacy against imatinib-resistant Bcr-Abl point mutants. AMN107 is active against many imatinib-resistant Bcr-Abl mutants in vitro and in vivo, and is significantly more potent than imatinib against wild-type Bcr-Abl. AMN107 is currently showing promise in phase I/II clinical trials involving CML patients who are unresponsive to imatinib, and thus could potentially be used as a single agent in selected patients resistant or intolerant to imatinib. Alternatively, the use of more than one inhibitor of Abl should effectively lower the number of residual Bcr-Abl-expressing cells having the potential to undergo mutation, and therefore could potentially suppress the emergence of drug-resistant Bcr-Abl mutations. Thus, AMN107 and imatinib could be administered together to achieve higher responsiveness in CML patients. In the current study, we investigated the combination of imatinib and AMN107 in a panel of wild-type and imatinib-resistant Bcr-Abl-expressing cell lines, including 32D.p210, K562, F486S-Ba/F3, F317L-Ba/F3, M351T-Ba/F3, and T315I-Ba/F3. We found evidence of additive to synergistic effects in several of the cell lines examined. In addition, the combination of AMN107 and imatinib was studied in vivo using a bioluminescent Bcr-Abl model of CML. Mice harboring murine 32D.p210 cells engineered to stably express firefly luciferase were treated with vehicle, AMN107 alone (15mg/kg), imatinib alone (75mg/kg), or both AMN107 and imatinib at their respective doses. Mice treated with both agents were observed to carry an overall lower tumor burden (as measured by levels of total body bioluminescence and percent spleen weights) than vehicle-treated mice and mice treated with each agent alone. These results suggest that the combination of imatinib and AMN107 may be a more effective treatment for CML than either agent alone.

scholarly journals Mechanisms of and approaches to overcoming resistance to immunotherapy

Hematology ◽  
2019 ◽  
Vol 2019 (1) ◽  
pp. 226-232 ◽  
Author(s):  
Liora Schultz ◽  
Rebecca Gardner
Keyword(s):  
Lymphoblastic Leukemia ◽  
Antigen Expression ◽  
Recurrence Risk ◽  
Definitive Treatment ◽  
Cell Transplant ◽  
Hematopoietic Cell Transplant ◽  
Cell Therapies ◽  
Curative Therapy ◽  
Fda Approval ◽  
Car T

Abstract Immunotherapies have been successfully developed for the treatment of B-cell acute lymphoblastic leukemia (B-ALL) with FDA approval of blinatumomab, inotuzumab, and tisagenlecleucel for relapsed or refractory patients. These agents target either CD19 or CD22, which are both expressed on the surface of the leukemic blasts in the majority of patients. The use of these agents has greatly transformed the landscape of available treatment, and it has provided curative therapy in some patients. As the field has matured, we are learning that for most patients, the currently available immunotherapies are not curative. Leukemic resistance to both CD19 and CD22 pressure has been described and is a major component of developed resistance to these therapies. Patients with B-ALL have developed CD19- or CD22-negative B-ALL, and in more rare cases, they have undergone lineage switch to acute myeloid leukemia. Current efforts are focusing on overcoming antigen escape, either by forced antigen expression or by dual-targeting therapies. A functional immune system is also required for maximal benefit of immunotherapy, particularly with chimeric antigen receptor (CAR) T-cell therapies. Data are now being produced that may allow for the prospective identification of patients whose immune deficits may be identified up front and predict failure. Preclinical work is focusing on additional engineering of CAR T cells to overcome these inherent immune deficits. Last, with improved knowledge of which patients are likely to benefit from immunotherapy as definitive treatment, those patients who are predicted to develop resistance may be prospectively recommended to undergo a consolidative hematopoietic cell transplant to lessen the recurrence risk.

scholarly journals Prophylactic administration of imatinib after hematopoietic cell transplantation for high-risk Philadelphia chromosome–positive leukemia

Blood ◽  
2006 ◽  
Vol 109 (7) ◽  
pp. 2791-2793 ◽  
Author(s):  
Paul A. Carpenter ◽  
David S. Snyder ◽  
Mary E. D. Flowers ◽  
Jean E. Sanders ◽  
Theodore A. Gooley ◽  
...  
Keyword(s):  
High Risk ◽  
Cell Transplantation ◽  
Hematopoietic Cell Transplantation ◽  
Lymphoblastic Leukemia ◽  
Philadelphia Chromosome ◽  
Dose Intensity ◽  
Hematopoietic Cell ◽  
Myelogenous Leukemia ◽  
Primary Therapy ◽  
Philadelphia Chromosome Positive

Abstract Relapse occurs frequently after allogeneic hematopoietic cell transplantation (HCT) for treatment of high-risk Philadelphia chromosome–positive (Ph+) leukemia. Administration of imatinib early after HCT might provide an effective approach for preventing recurrent Ph+ leukemia, but the feasibility of this approach has not been systematically tested. Twenty-two patients, 15 with Ph+ acute lymphoblastic leukemia and 7 with high-risk chronic myelogenous leukemia, were enrolled in a prospective study and given imatinib from the time of engraftment until 365 days after HCT. Before day 90, adults (n = 19) tolerated a median average daily imatinib dose of 400 mg/d (range, 200-500 mg/d), and children (n = 3) tolerated 265 mg/m2/d (range, 200-290 mg/m2/d). The most common adverse events related to imatinib administration were grade 1-3 nausea, emesis, and serum transaminase elevations. We conclude that imatinib can be safely administered early after myeloablative allogeneic HCT at a dose intensity comparable to that used in primary therapy.

Imatinib Resistance and/or Intolerance in Clinical Practice in Europe: The “Unmet Needs in CML and Ph+ALL” (UNIC) Study.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 1951-1951 ◽  
Author(s):  
Mauricette Michallet ◽  
Enrica Morra ◽  
Juan Steegmann ◽  
David Marin Costa ◽  
Gert Ossenkoppele ◽  
...  
Keyword(s):  
Chart Review ◽  
Lymphoblastic Leukemia ◽  
Philadelphia Chromosome ◽  
Unmet Need ◽  
Chronic Phase ◽  
Medical Chart ◽  
Imatinib Therapy ◽  
Cross Sectional ◽  
Imatinib Resistance ◽  
Number Of Patients

Abstract Imatinib is widely used for the treatment of chronic myeloid leukemia (CML) and Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph+ALL), and is associated with improved response rates in these patients. However, the management of patients who show resistance or intolerance to imatinib has been identified as an unmet need. The UNIC study aimed to quantify this unmet need. UNIC is a cross-sectional study, with retrospective chart review of patients currently treated for CML or Ph+ALL in Austria, Belgium, France, Italy, Netherlands, Spain, Sweden and UK. Patients were recruited September 2006-March 2007. The study was designed to estimate the proportion of patients ever treated with imatinib and imatinib-treated patients who have experienced imatinib resistance and/or intolerance (primary objectives). A registry was collected of potentially-eligible patients - those aged ≥18 years and treated for CML/Ph+ALL at the participating centers (academic, non-academic, private clinic or other). Case Report Forms (CRFs) were completed for patients who met the inclusion criteria, until the recruitment target was reached. Data were collected at the most recent visit and retrospectively through clinical chart review. Of the 4139 patients in the registry, CRFs were completed for 1716 and analyzable for 1599 (CML, n=1551; Ph+ALL, n=48). Characteristics of the included population were representative of those of the registry. Of the included CML patients, 98% were in chronic phase and 2% were in advanced phases. In total, 1493 (96%) CML and 46 (96%) Ph+ALL patients had received imatinib. By the last observation, 48% of all imatinib-treated patients needed a change in imatinib dose, and &gt;20% discontinued imatinib therapy (CML, 21%; Ph+ALL, 37%). A patient was defined as imatinib resistant if reported as such by the physician in the medical chart, and intolerant to imatinib (or other concurrent treatment) if toxicity led to a change in imatinib use, as reported in the medical chart. Imatinib resistance and treatment intolerance reported during the study are shown in the table. Seven percent of CML and Ph+ALL patients discontinued imatinib due to toxicity. Number (%) of patients [95% confidence interval] according to the physician assessment CML (N=1493) Ph+ALL (N=46) Resistant to imatinib 241 (16.1) [14.3; 18.1] 6 (13.0) [4.9; 26.3] Intolerant to treatment 583 (39.0) [36.6; 41.6] 17 (37.0) [23.2; 52.5] Resistant to imatinib and/or intolerant to treatment 688 (46.1) [43.5; 48.6] 20 (43.5) [28.9; 58.9] Resistant to imatinib and intolerant to treatment 136 (9.1) [7.7; 10.7] 3 (6.5) [1.4; 17.9] This is the largest European observational study of CML/Ph+ALL patients to date. As expected, nearly all patients were exposed to imatinib therapy. Nearly half of all imatinib-treated CML and Ph+ALL patients experienced resistance to imatinib and/or intolerance to treatment including imatinib.

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