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NCT03512197 Clinical Trial

A Global Study of the Efficacy and Safety of Midostaurin + Chemotherapy in Newly Diagnosed Patients With FLT3 Mutation Negative (FLT3-MN) Acute Myeloid Leukemia (AML)

Acute Myeloid Leukemia (AML) Clinical Trial

Official title:
A Phase III, Randomized, Double-blind Study of Chemotherapy With Daunorubicin or Idarubicin and Cytarabine for Induction and Intermediate Dose Cytarabine for Consolidation Plus Midostaurin (PKC412) or Chemotherapy Plus Placebo in Newly Diagnosed Patients With FLT-3 Mutation Negative Acute Myeloid Leukemia (AML)

Clinical Trial Details — Status: Completed

Administrative data
NCT number NCT03512197
Other study ID # CPKC412E2301
Secondary ID 2017-003540-21
Status Completed
Phase Phase 3
First received
Last updated
Start date July 20, 2018
Est. completion date February 12, 2021

Study information
Verified date August 2023
Source Novartis
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study was to confirm the preliminary evidence from early clinical trials that midostaurin may provide clinical benefit not only to AML patients with the FLT3-mutations but also in FLT3-MN (SR<0.05) AML (FLT3 mutant to wild type signal ratio below the 0.05 clinical cut-off). This study evaluated the efficacy and safety of midostaurin in combination with daunorubicin or idarubicin and cytarabine for induction and intermediate-dose cytarabine for consolidation, and midostaurin single agent post-consolidation therapy in newly diagnosed patients with FLT3-MN (SR<0.05) AML.

Description:

This was a multi-center, multinational, randomized, double-blind Phase III study using a group sequential design. Subjects were stratified according to age (<60 vs. ≥ 60 years). Subjects within each stratum were randomized in a 1:1 ratio into one of two treatment arms: Midostaurin + chemotherapy 'or' Placebo + chemotherapy. The study consisted of the following phases: Screening/randomization phase: Subjects had to sign informed consent form before screening for enrollment. Subjects started chemotherapy at day 1 and were randomized at day 8. Induction phase: All subjects received at least one cycle (28 days) of induction therapy with continuous infusion cytarabine (D1 - D7) and daunorubicin or idarubicin (D1 - D3) (induction 1). Subjects who did not achieve CR or CRi with adequate blood count recovery after Induction 1 received a second cycle with intermediate-dose cytarabine (D1 - D3) and daunorubicin or idarubicin (D1 - D3) (induction 2). Subjects who did not achieve CR or CRi with adequate blood recovery after induction 2 discontinued study treatment and were followed for survival. Consolidation phase: Subjects who achieved CR or CRi with adequate blood count recovery after induction with one or two cycles of induction proceeded to consolidation therapy with either 3 or 4 cycles respectively of intermediate-dose cytarabine (D1 - D3), or to Hematopoietic Stem Cells Transplantation (HSCT) with or without preceding consolidation cycles. Post-consolidation phase: Subjects who maintained CR or CRi with adequate blood count recovery at the end of the consolidation phase received 12 cycles (28 days/cycle) of continuous therapy with midostaurin or placebo twice daily at 50 mg. Subjects who underwent HSCT after achieving CR or CRi with adequate blood count recovery received midostaurin or placebo twice daily 50 mg post-transplant therapy, continuously, for up to 12 cycles (28 days/cycle). Post HSCT post-consolidation therapy began >30 days but not later than 100 days following HSCT. Follow-up phase: All enrolled subjects were followed through the treatment period and until relapse/treatment failure, thereafter for start of new line of therapy and survival.

Recruitment information / eligibility
Status Completed
Enrollment 511
Est. completion date February 12, 2021
Est. primary completion date February 12, 2021
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: 1. Diagnosis of AML (=20% blasts in the bone marrow based on WHO 2016 classification). Patients with APL with PML-RARA are not eligible. 2. Suitability for intensive induction chemotherapy in the judgment of the investigator 3. Documented absence of an ITD and TKD activating mutation at codons D835 and I836 in the FLT3 gene, as determined by analysis in a Novartis designated laboratory using a validated clinical trial assay with clinical cutoff of 0.05 mutant to wild type signal ratio 4. Age =18 years 5. Laboratory values that indicate adequate organ function assessed locally at the screening visit Exclusion Criteria: 1. Central nervous system (CNS) leukemia 2. Therapy-related secondary AML 3. Isolated extramedullary leukemia 4. Prior therapy for leukemia or myelodysplasia 5. AML after antecedent myelodysplasia (MDS) with prior cytotoxic treatment (e.g., azacytidine or decitabine) 6. Prior treatment with a FLT3 inhibitor (e.g., midostaurin, quizartinib, sorafenib)

Study Design

Related Conditions & MeSH terms

Intervention

Drug:
Midostaurin
Midostaurin was provided as 25 mg capsules 8PC, was supplied as double-blind in blister packs and taken orally.
Placebo
Placebo was provided as 25 mg soft gelatin capsules 8PC, was supplied as double-blind in blister packs and taken orally.
Chemotherapy
Along with the study drug/placebo, chemotherapy was given as well: either Daunorubicin or Idarubicin and Cytarabine - all taken by i.v.

Locations
Country Name City State
Argentina Novartis Investigative Site Caba Buenos Aires
Australia Novartis Investigative Site Murdoch Western Australia
Australia Novartis Investigative Site Prahran Victoria
Australia Novartis Investigative Site Westmead New South Wales
Australia Novartis Investigative Site Woolloongabba Queensland
Austria Novartis Investigative Site Linz
Austria Novartis Investigative Site Vienna
Austria Novartis Investigative Site Wien
Belgium Novartis Investigative Site Antwerpen
Belgium Novartis Investigative Site Brugge
Belgium Novartis Investigative Site Roeselare
Brazil Novartis Investigative Site Porto Alegre RS
Brazil Novartis Investigative Site Sao Paulo SP
Brazil Novartis Investigative Site Sao Paulo
Bulgaria Novartis Investigative Site Sofia
Czechia Novartis Investigative Site Brno - Bohunice
Czechia Novartis Investigative Site Plzen-Bory
France Novartis Investigative Site Angers Cedex 1
France Novartis Investigative Site Avignon
France Novartis Investigative Site Bayonne Bayonne Cedex
France Novartis Investigative Site Dijon
France Novartis Investigative Site Lille Cedex
France Novartis Investigative Site Nantes Cedex 1
France Novartis Investigative Site Paris
France Novartis Investigative Site Pierre Benite
France Novartis Investigative Site Toulouse
Germany Novartis Investigative Site Bad Saarow
Germany Novartis Investigative Site Berlin
Germany Novartis Investigative Site Berlin
Germany Novartis Investigative Site Berlin
Germany Novartis Investigative Site Berlin
Germany Novartis Investigative Site Bochum
Germany Novartis Investigative Site Bonn
Germany Novartis Investigative Site Braunschweig
Germany Novartis Investigative Site Darmstadt
Germany Novartis Investigative Site Duesseldorf
Germany Novartis Investigative Site Duisburg
Germany Novartis Investigative Site Eschweiler
Germany Novartis Investigative Site Essen Werden
Germany Novartis Investigative Site Flensburg
Germany Novartis Investigative Site Giessen
Germany Novartis Investigative Site Gottingen
Germany Novartis Investigative Site Hamburg
Germany Novartis Investigative Site Hamburg
Germany Novartis Investigative Site Hannover
Germany Novartis Investigative Site Homburg
Germany Novartis Investigative Site Karlsruhe
Germany Novartis Investigative Site Kiel
Germany Novartis Investigative Site Leipzig
Germany Novartis Investigative Site Luebeck
Germany Novartis Investigative Site Magdeburg
Germany Novartis Investigative Site Mainz
Germany Novartis Investigative Site Muenchen
Germany Novartis Investigative Site Osnabrueck
Germany Novartis Investigative Site Paderborn
Germany Novartis Investigative Site Regensburg Bavaria
Germany Novartis Investigative Site Rostock
Germany Novartis Investigative Site Schwerin Brandenburg
Germany Novartis Investigative Site Siegen
Germany Novartis Investigative Site Stuttgart
Germany Novartis Investigative Site Stuttgart
Germany Novartis Investigative Site Ulm
Germany Novartis Investigative Site Wuerzburg
Germany Novartis Investigative Site Zwickau
Israel Novartis Investigative Site Haifa
Israel Novartis Investigative Site Petach Tikva
Israel Novartis Investigative Site Tel Aviv
Italy Novartis Investigative Site Alessandria AL
Italy Novartis Investigative Site Ancona AN
Italy Novartis Investigative Site Bergamo BG
Italy Novartis Investigative Site Brescia BS
Italy Novartis Investigative Site Catania CT
Italy Novartis Investigative Site Milano MI
Italy Novartis Investigative Site Modena MO
Italy Novartis Investigative Site Palermo PA
Italy Novartis Investigative Site Perugia PG
Italy Novartis Investigative Site Pescara PE
Italy Novartis Investigative Site Piacenza PC
Italy Novartis Investigative Site Reggio Calabria RC
Italy Novartis Investigative Site Roma RM
Italy Novartis Investigative Site Roma RM
Italy Novartis Investigative Site Roma RM
Italy Novartis Investigative Site Taranto TA
Italy Novartis Investigative Site Torino TO
Italy Novartis Investigative Site Vicenza VI
Japan Novartis Investigative Site Aomori
Japan Novartis Investigative Site Bunkyo ku Tokyo
Japan Novartis Investigative Site Bunkyo-ku Tokyo
Japan Novartis Investigative Site Fukuoka city Fukuoka
Japan Novartis Investigative Site Fukushima city Fukushima
Japan Novartis Investigative Site Fukuyama Hiroshima
Japan Novartis Investigative Site Gifu shi Gifu
Japan Novartis Investigative Site Hamamatsu Shizuoka
Japan Novartis Investigative Site Hirakata-city Osaka
Japan Novartis Investigative Site Isehara Kanagawa
Japan Novartis Investigative Site Kyoto
Japan Novartis Investigative Site Matsuyama-city Ehime
Japan Novartis Investigative Site Nagasaki-city Nagasaki
Japan Novartis Investigative Site Nagoya-city Aichi
Japan Novartis Investigative Site Okayama city Okayama
Japan Novartis Investigative Site Osaka
Japan Novartis Investigative Site Osaka Sayama Osaka
Japan Novartis Investigative Site Shimotsuke Tochigi
Japan Novartis Investigative Site Tsukuba city Ibaraki
Japan Novartis Investigative Site Yamagata
Norway Novartis Investigative Site Bergen
Norway Novartis Investigative Site Oslo
Poland Novartis Investigative Site Gdansk
Portugal Novartis Investigative Site Lisboa
Portugal Novartis Investigative Site Porto
Spain Novartis Investigative Site Barakaldo Pais Vasco
Spain Novartis Investigative Site Barcelona
Spain Novartis Investigative Site Caceres Extremadura
Spain Novartis Investigative Site Cordoba Andalucia
Spain Novartis Investigative Site Hospitalet de LLobregat Catalunya
Spain Novartis Investigative Site Madrid
Spain Novartis Investigative Site Madrid
Spain Novartis Investigative Site Salamanca Castilla Y Leon
Spain Novartis Investigative Site Sevilla Andalucia
Spain Novartis Investigative Site Valencia
Spain Novartis Investigative Site Zaragoza
Switzerland Novartis Investigative Site Bern
Switzerland Novartis Investigative Site Zurich
Taiwan Novartis Investigative Site Kaohsiung City
Taiwan Novartis Investigative Site Kuei Shan Chiang Taoyuan Taiwan ROC
Taiwan Novartis Investigative Site Putzu City Chiayi Hsien
Taiwan Novartis Investigative Site Taipei
Turkey Novartis Investigative Site Adana
Turkey Novartis Investigative Site Ankara
Turkey Novartis Investigative Site Aydin
United States Dana Farber Cancer Institute Boston Massachusetts
United States University of Chicago Medical Center . Chicago Illinois
United States Oregon Health and Science Univ Portland Oregon

Sponsors (1)
Lead Sponsor Collaborator
Novartis Pharmaceuticals

Countries where clinical trial is conducted

United States,  Argentina,  Australia,  Austria,  Belgium,  Brazil,  Bulgaria,  Czechia,  France,  Germany,  Israel,  Italy,  Japan,  Norway,  Poland,  Portugal,  Spain,  Switzerland,  Taiwan,  Turkey, 

Outcome
Type Measure Description Time frame Safety issue
Primary Event Free Survival (EFS) EFS was defined as the time from randomization to failure to obtain a complete remission (CR) or Complete remission with incomplete hematologic recovery (CRi) with adequate blood count recovery in induction, relapse after CR or CRi with adequate blood count recovery or death due to any cause, whichever occurred first as assessed by the investigator. From date of Randomization up to approx. 30 months
Secondary Overall Survival (OS) (Key Secondary) OS was defined as the time from randomization to date of death due to any cause. Patients entered the survival follow-up phase once they completed the safety follow up period (30 days after the last dose of midostaurin/placebo) in case of induction failure or if they had relapsed during post-treatment follow-up. Patients were then contacted by telephone every 3 months +/- 2 weeks or had a visit to follow up on their survival status, per Kaplan-Meier estimates. Between randomization to date of death up to approx. 30 months
Secondary Percentage of Participants With Complete Remission (CR) and Complete Remission With Incomplete Hematological Recovery (CRi) But With Adequate Blood Count Recovery Rate. Assessment was based on the International Working Group (IWG) criteria for AML as per investigator assessment.
CR: Bone marrow: < 5% blasts no blasts with Auer rods; Peripheral blood: neutrophils = 1.0 x 109/L platelets = 100 x 109/L, no blasts; No evidence of extramedullary disease (such as central nervous system (CNS) or soft tissue involvement); Transfusion independent.
CRi with adequate blood count recovery is defined as the following:
Bone marrow < 5% blasts no blasts with Auer rods Peripheral blood Neutrophils >= 1.0 x 109/L and 50 x 109/L <=platelets < 100 x 109/L no blasts No evidence of extramedullary disease (such as CNS or soft tissue involvement).		 At maximum 93 days from induction therapy start
Secondary Percentage of Participants With Minimal Residual Disease (MRD) Negative Status MRD- rate was defined as the rate of participants reaching MRD at any timepoint. Participants with leukemic blasts below 0.1% were considered as MRD-negative based on leukemia-associated immunophenotype (LAIP).
MRD was derived from bone marrow and blood data using cellular and molecular technologies and MRD status was measured using the flow cytometry assessments for LAIP irrespective of the investigator's overall clinical response assessment.		 from start of treatment up to end of post-consolidation (approximately 17 months)
Secondary Percentage of Participants With Minimal Residual Disease (MRD) Negative Status During Post-consolidation Phase MRD- rate was defined as the rate of participants reaching MRD at any timepoint during Post-consolidation phase. Participants with leukemic blasts below 0.1% were considered as MRD-negative based on leukemia-associated immunophenotype (LAIP).
MRD was derived from bone marrow and blood data using cellular and molecular technologies and MRD status was measured using the flow cytometry assessments for LAIP irrespective of the investigator's overall clinical response assessment.		 from start of post-consolidation to end of post-consolidation phase (up to 12 months)
Secondary Time to Measurable Residual Disease (MRD) Negativity by Flow Cytometry Time to MRD- is defined as time from randomization to first occurrence of MRD-. Participants with leukemic blasts below 0.1% were considered as MRD-negative based on leukemia-associated immunophenotype (LAIP).
MRD was derived from bone marrow and blood data using cellular and molecular technologies and MRD status was measured using the flow cytometry assessments for LAIP irrespective of the investigator's overall clinical response assessment.		 From date of Randomization up to approx. 17 months
Secondary Disease-free Survival (DFS) DFS as measured from the date of first CR or CRi with adequate blood count recovery to relapse or death due to any cause, whichever occurred first. Participants who did not relapse nor die were censored at the last adequate response assessment. Assessment was based on the IWG criteria for AML as per investigator assessment From date of CR or CRi with adequate blood count recovery up to approx. 30 months
Secondary Cumulative Incidence of Relapse (CIR) Cumulative Incidence of Relapse (CIR) was defined for participants with CR or CRi with adequate blood count recovery and was the time from achieving the CR or CRi with adequate blood count recovery until the onset of relapse from CR or CRi with adequate blood recovery. Participants without relapse were censored at the last adequate response assessment. Participants who died without relapse were counted as a competing cause of failure. From date of CR or CRi with adequate blood count recovery up to approx. 30 months
Secondary Cumulative Incidence of Death (CID) Cumulative Incidence of Death (CID) was defined for all participants achieving CR or CRi with adequate blood count recovery measured from the date of achievement of CR or CRi until the date of death due to any reason. Participants not known to have died were censored on the last contact date. Participants who experienced relapse were counted as a competing cause of failure. From date of CR or CRi with adequate blood count recovery up to approx. 30 months
Secondary Time to CR or CRi With Adequate Blood Count Recovery Time to CR or CRi with adequate blood count recovery was defined as the time from randomization to CR or CRi with adequate blood count recovery whichever occurred first At maximum 93 days from induction therapy start
Secondary Time to Partial and Full Neutrophil Recovery The time to neutrophil recovery was assessed for the following criteria: Partial neutrophil recovery: Number of days from start of treatment to the first day neutrophils =0.5 x 10^9/L.
Full neutrophil recovery: Number of days from start of treatment to the first day neutrophils =1.0 x 10^9/L		 At maximum 93 days from induction therapy start
Secondary Time to Partial and Full Platelet Recovery Time to platelet recovery was assessed for the following criteria: Partial platelet recovery: Number of days from start of treatment to the first day platelets =50 x 10^9/L.
Full platelet recovery: Number of days from start of treatment to the first day platelets =100 x 10^9/L.		 At maximum 93 days from induction therapy start
Secondary Plasma Concentrations for Midostaurin and Its Metabolites: CGP52421 and CGP62221 for Non-poor Metabolizers Serial pharmacokinetics (PK) samples were collected in Non-poor metabolizer participants to assess the plasma concentrations of midostaurin, CGP52421 and CGP62221. from Induction (IND) phase 0hr (predose) to Post-consolidation phase (POSTCONS) 12hr
Secondary AUC0-t: Pharmacokinetic (PK) Parameter for Midostaurin and Its Metabolites: CGP52421 and CGP62221 at Cycle 1, Day 8 The AUC from time zero to a measurable concentration sampling time (t) (mass x time x volume-1). Note: as the last sampling time was at 12 h, AUC0-12h was determined after the first dose, reported at Cycle 1, Day 8 0 - 12 hrs
Secondary AUClast: Pharmacokinetic (PK) Parameter for Midostaurin and Its Metabolites: CGP52421 and CGP62221 at Cycle 1, Day 8 The AUC from time zero to the last measurable concentration sampling time after the first dose reported at Cycle 1, Day 8 0 - 12 hrs
Secondary Cmax: Pharmacokinetic (PK) Parameter for Midostaurin and Its Metabolites: CGP52421 and CGP62221 at Cycle 1, Day 8 The maximum (peak) observed plasma drug concentration after the first dose administration reported at Cycle 1, Day 8 0 - 12 hrs
Secondary Tmax: Pharmacokinetic (PK) Parameter for Midostaurin and Its Metabolites: CGP52421 and CGP62221 at Cycle 1, Day 8 The time to reach maximum (peak) plasma, blood, serum, or other body fluid drug concentration after single dose administration reported at Cycle 1, Day 8 0 - 12 hrs
Secondary Total Score for Each Time Point for the Functional Assessment of Cancer Therapy-Leukemia (FACT-Leu) The total FACT-Leu score consists of 44 items with total scores ranging from 0 to 176. Higher scores indicate better health-related quality of life ( HRQoL). Negative changes from baseline indicate a worsening of HRQoL while positive changes indicate an improvement in HRQoL. From date of Randomization up to approx. 18 months
Secondary Scores for Each Time Point for the EQ5D-5L (a Visual Analogue Scale (VAS)) The EQ5D-5L questionnaire assesses 5 dimensions: mobility, self-care, usual activities, pain/discomfort and anxiety/depression. Each dimension has 5 response options (no problems, slight problems, moderate problems, severe problems and extreme problems) that reflect increasing levels of difficulty. The patient is asked to indicate his/her current health state by selecting the most appropriate level in each of the 5 dimensions. The questionnaire also included a Visual Analogue Scale (VAS), where the patient is asked to rate current health status on a scale of 0 to 100, with 0 being the worst imaginable health state. From date of Randomization up to approx. 18 months
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