A Study Of Combined C- MET Inhibitor And PAN-HER Inhibitor (PF-02341066 And PF-00299804) In Patients With Non- Small Cell Lung Cancer
Primary Purpose
Non Small Cell Lung Cancer
Status
Completed
Phase
Phase 1
Locations
International
Study Type
Interventional
Intervention
PF-02341066
PF-00299804
PF-02341066
PF-00299804
Sponsored by

About this trial
This is an interventional treatment trial for Non Small Cell Lung Cancer focused on measuring Phase 1 acquired resistance to erlotinib or gefitinib cMET inhibitor EGFR inhibitor panHER inhibitor combination trial Crizotinib
Eligibility Criteria
Inclusion Criteria:
- advanced non small cell lung cancer (dose escalation phase)
- acquired resistance to erlotinib or gefitinib (expansion phase)
- mandatory entrance biopsy (expansion phase)
Exclusion Criteria:
- interstitial lung disease
- unstable brain metastases
- leptomeningeal disease
Sites / Locations
- Clinical Trials Office University of Colorado Hospital (CTO)
- DRUG SHIPMENT: University of Colorado Cancer Center
- Rocky Mountain Lions Eye Institute
- University of Colorado Hospital
- CCR, National Cancer Institute
- Drug Shipment Only
- Massachusetts General Hospital
- Brigham & Women's Hospital
- Drug Shipment Only
- Peter MacCallum Cancer Centre, Division of Haematology and Medical Oncology
Arms of the Study
Arm 1
Arm 2
Arm Type
Experimental
Experimental
Arm Label
Arm 1
Arm 2
Arm Description
PF-02341066 AND PF-00299804: Patients will be treated with combined cMET inhibitor (PF-02341066) and panHER inhibitor (PF-00299804).
PF-00299804 FOLLOWED BY COMBINED PF-02341066 AND PF-00299804: Patients will be treated with single agent panHER inhibitor (PF-00299804) until disease progression and then with the maximum tolerated combined dose of cMET inhibitor (PF-02341066) and panHER inhibitor (PF-00299804).
Outcomes
Primary Outcome Measures
Overview of Treatment-emergent All Causalities Adverse Events (AEs) in Escalation Phase
AE was any untoward medical occurrence with study drug/ device in a trial participant. Serious adverse event (SAE) was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using National Cancer Institute (NCI) Common Terminology Criteria for AEs (CTCAE) v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Overview of Treatment-emergent All Causalities AEs in Expansion Phase
AE was any untoward medical occurrence with study drug/ device in a trial participant. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Overview of Treatment-emergent, Treatment-related AEs in Escalation Phase
An AE was any untoward medical occurrence attributed to study treatment in a participant who received study treatment. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Overview of Treatment-emergent, Treatment-related AEs in Expansion Phase
An AE was any untoward medical occurrence attributed to study treatment in a participant who received study treatment. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Number of Participants With Dose Limiting Toxicities (DLTs) in Escalation Phase
DLTs were those AEs which occurred in Cycle 1 of treatment in Dose Escalation Phase which may be attributed to study drug [combined Crizotinib (PF-02341066) plus Dacomitinib (PF-00299804)] without a clear alternative explanation and despite the use of adequate/maximal medical intervention as dictated by local institutional clinical practices or the judgment of the investigator. The following events were considered DLTs (using CTCAE version 4.02);1. Grade ≥4 hematologic events. 2. Grade ≥3 non-hematological events (except Grade 3/4 asymptomatic hypophosphatemia and Grade 3/4 hyperuricemia without signs and symptoms of gout). Nausea, vomiting or diarrhea had to have persisted at Grade 3 or 4 despite maximal medical therapy. Grade 3 hypertension will be considered a DLT only if the event is unmanageable by standard approved pharmacologic agents or if the symptomatic sequelae are identified despite appropriate medical intervention.
Secondary Outcome Measures
Number of Participants With Stable Disease and Stable Disease Duration in Escalation Phase
If a participant had not achieved an objective response with confirmed complete response (CR) or partial response (PR) according to Response Evaluation Criteria in Solid Tumors (RECIST) - 1.1 as determined by the investigators, relative to the response evaluable population, but remained stable for at least 6 weeks after first dose, then the best overall response for such a participant was considered as stable disease.
Number of Participants With Stable Disease and Stable Disease Duration in Expansion Phase
If a participant had not achieved an objective response with confirmed complete response (CR) or partial response (PR) according to RECIST (1.1) as determined by the investigators, relative to the response evaluable population, but remained stable for at least 6 weeks after first dose, then the best overall response for such a participant was considered as stable disease.
Number of Participants With Objective Response Rate (ORR) in Escalation Phase
ORR was defined as the percent of participants with CR or PR according to Response Evaluation Criteria in Solid Tumors (RECIST 1.1) determined by study physicians, relative to the response evaluable population. Participants were considered non-responders until proven otherwise. Thus, participants who: 1) Did not have CR or PR while on study, or 2) Did not have a post-baseline tumor evaluation, or 3) Received anti-tumor treatment other than the study medication prior to reaching a CR or PR, or 4) Died, in progress, or drop out for any reason prior to reaching a CR or PR, were counted as non-responders in the assessment of ORR. To be assigned a status of PR or CR, changes in tumor measurements in participants with responding tumors were confirmed by repeated tumor assessment that were performed 4 weeks after the criteria for response were first met.
Number of Participants With ORR in Expansion Phase
ORR was defined as the percent of participants with CR or PR according to Response Evaluation Criteria in Solid Tumors (RECIST 1.1) determined by study physicians, relative to the response evaluable population. Participants were considered non-responders until proven otherwise. Thus, participants who: 1) Did not have CR or PR while on study, or 2) Did not have a post-baseline tumor evaluation, or 3) Received anti-tumor treatment other than the study medication prior to reaching a CR or PR, or 4) Died, in progress, or drop out for any reason prior to reaching a CR or PR, were counted as non-responders in the assessment of ORR. To be assigned a status of PR or CR, changes in tumor measurements in participants with responding tumors were confirmed by repeated tumor assessment that were performed 4 weeks after the criteria for response were first met.
Duration of Response for the Only Participant Shown Partial Response in Expansion Phase
This outcome measure presented the duration of response for one participant in expansion cohort 1 who showed partial response.
Progression Free Survival (PFS) in Escalation Phase
PFS was defined as the time from the date of the first dose to the date of the first documentation of objective tumor progression according to RECIST 1.1 or death on study due to any cause, whichever occurred first. If tumor progression data included more than 1 date, the first date was used.
Progression Free Survival (PFS) in Expansion Phase
PFS was defined as the time from the date of the first dose to the date of the first documentation of objective tumor progression according to RECIST 1.1 or death on study due to any cause, whichever occurred first. If tumor progression data included more than 1 date, the first date was used.
Expression Analysis of Tumor Biomarkers (HGF, EGFR, and c-Met ) at Baseline Using Immunohistochemistry (IHC) Method
Tumor biomarkers such as HGF, EGFR, and c-Met were analyzed in tumor cells (neoplastic compartment) of tumor specimens from both expansion cohorts 1 and 2 by IHC. The H score was derived by summing the percentages of cells staining at each intensity multiplied by the weighted intensity of staining (0, 1+, 2+, 3+, where 3+ indicates the strongest staining, 2+ indicates medium staining, 1+ indicates weak staining, and 0 indicates no staining). Minimum calculated score of 0 to maximum calculated score of 300, where 0 correspond to no expression and maximum score of 300 indicates the strongest expression. However, the biomarker expression level (higher or lower) was not a predictor of outcome.
Expression Analysis of Tumor Biomarkers (EGFR, and c-Met) at Baseline Using Fluorescent in Situ Hybridization (FISH) Method
Expression of tumor biomarkers EGFR and cMet at Baseline (using FISH method) are presented in this outcome measure.
Number of Participants With c-Met, HER2, EGFR Amplification and ALK Rearrangement at Baseline Using FISH Method
Participants showed amplification of c-Met, HER2, and EGFR in the tumor cells and gene rearrangement of ALK are presented in this outcome measure.
Plasma Concentration of sMet by Study Visits
This outcome measure presented the plasma concentration of sMet at different study visits. s-Met was analyzed using an enzyme-linked immunosorbent assay (ELISA).
Number of Participants With EGFR Mutation at Baseline
Sample analyses were performed in accordance to Good Laboratory Practice (GLP) guidance and included mutation detection for EGFR gene.
Number of Participants With KRAS Mutation (GLY12CYS) at Baseline
Sample analyses were performed in accordance to GLP guidance and included mutation detection for KRAS gene.
Number of Participants With PIK3CA Mutation at Baseline
Sample analyses were performed in accordance to GLP guidance and included mutation detection for PIK3CA gene.
Number of Participants With ROS1 Gene Translocation at Baseline
Sample analyses were performed in accordance to GLP guidance and included translocation detection (RNA based) for ROS1 gene.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Area Under the Plasma Concentration-time Profile From Time Zero to the Last Quantifiable Concentration (AUClast)
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUClast for crizotinib and PF-06260182. AUClast was calculated using Linear/Log trapezoidal method.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Area Under the Plasma Concentration-time Curve 10 (AUC10)
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). AUC10 was calculated using Linear/Log trapezoidal method. The below analysis table included geometric Mean and Geometric Coefficient of Variation of AUC10 for crizotinib and PF-06260182. Arithmetic mean was presented if the n=2.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Maximum Plasma Concentration (Cmax)
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Cmax for crizotinib and PF-06260182. Cmax was observed directly from data.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Time of Last Quantifiable Concentration (Tlast)
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tlast for crizotinib and PF-06260182. Tlast was observed directly from data.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase -Time to Maximum Plasma Concentration (Tmax)
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tmax for crizotinib and PF-06260182. Tmax was observed directly from data as time of first occurrence.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - AUClast
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUClast for dacomitinib and PF-05199265. AUClast was calculated using Linear/Log trapezoidal method.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - AUC24
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUC24 for dacomitinib and PF-05199265. AUC24 was calculated using Linear/Log trapezoidal method.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Cmax
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Cmax for dacomitinib and PF-05199265. Cmax was observed directly from data.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Tlast
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tlast for dacomitinib and PF-05199265. Tlast was observed directly from data.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Tmax
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tmax for dacomitinib and PF-05199265. Tmax was observed directly from data as time of first occurrence.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - AUClast
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for AUClast. AUClast was calculated using Linear/Log trapezoidal method.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - AUC10
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for AUC10. AUC10 was calculated using Linear/Log trapezoidal method.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Cmin
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Cmin. Cmin was observed directly from data.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Cmax
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Cmax. Cmax was observed directly from data.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Tlast
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Tlast. Tlast was observed directly from data.
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Tmax
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Tmax. Tmax was observed directly from data as time of first occurrence.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - AUClast
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (AUClast) following dacomitinib alone and in combination with crizotinib are summarized in the below table. AUClast was calculated using Linear/Log trapezoidal method.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - AUC24
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (AUC24) following dacomitinib alone and in combination with crizotinib are summarized in the below table. AUC24 was calculated using Linear/Log trapezoidal method.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Cmin
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Cmin) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Cmin was observed directly from data.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Cmax
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Cmax) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Cmax was observed directly from data.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Tlast
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Tlast) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Tlast was observed directly from data.
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Tmax
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Tmax) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Tmax was observed directly from data as time of first occurrence.
Full Information
1. Study Identification
Unique Protocol Identification Number
NCT01121575
Brief Title
A Study Of Combined C- MET Inhibitor And PAN-HER Inhibitor (PF-02341066 And PF-00299804) In Patients With Non- Small Cell Lung Cancer
Official Title
A Phase 1, Open-label, Dose Escalation Study To Evaluate Safety, Pharmacokinetics And Pharmacodynamics Of Combined Oral C-met/Alk Inhibitor (Pf-02341066) And Pan-her Inhibitor (Pf-00299804) In Patients With Advanced Non-small Cell Lung Cancer
Study Type
Interventional
2. Study Status
Record Verification Date
October 2015
Overall Recruitment Status
Completed
Study Start Date
August 2010 (undefined)
Primary Completion Date
February 2014 (Actual)
Study Completion Date
February 2014 (Actual)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor
Name of the Sponsor
Pfizer
4. Oversight
Data Monitoring Committee
No
5. Study Description
Brief Summary
Lung cancer tumors become resistant to the first generation epidermal growth factor receptor (EGFR) inhibitors erlotinib or gefitinib by changing and increasing the activity of two cell signaling pathways: the cMET pathway and the EGFR pathway. Both resistance mechanisms can occur at the same time, in the same patient and even in the same tumor. This study combines a second generation EGFR inhibitor and a cMET inhibitor to block both these pathways in order to overcome resistance and treat this disease.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Non Small Cell Lung Cancer
Keywords
Phase 1 acquired resistance to erlotinib or gefitinib cMET inhibitor EGFR inhibitor panHER inhibitor combination trial Crizotinib
7. Study Design
Primary Purpose
Treatment
Study Phase
Phase 1
Interventional Study Model
Parallel Assignment
Masking
None (Open Label)
Allocation
Non-Randomized
Enrollment
70 (Actual)
8. Arms, Groups, and Interventions
Arm Title
Arm 1
Arm Type
Experimental
Arm Description
PF-02341066 AND PF-00299804: Patients will be treated with combined cMET inhibitor (PF-02341066) and panHER inhibitor (PF-00299804).
Arm Title
Arm 2
Arm Type
Experimental
Arm Description
PF-00299804 FOLLOWED BY COMBINED PF-02341066 AND PF-00299804: Patients will be treated with single agent panHER inhibitor (PF-00299804) until disease progression and then with the maximum tolerated combined dose of cMET inhibitor (PF-02341066) and panHER inhibitor (PF-00299804).
Intervention Type
Drug
Intervention Name(s)
PF-02341066
Other Intervention Name(s)
cMET inhibitor
Intervention Description
Arm 1: The starting dose will be 200 mg by mouth, twice a day of PF 02341066 in tablet form The dose of each drug in the combination [PF-02341066 and PF-00299804] will be escalated or de-escalated until the maximum tolerated combined dose is reached. Patients will then be treated with the maximum tolerated combined dose.
Intervention Type
Drug
Intervention Name(s)
PF-00299804
Other Intervention Name(s)
panHER inhibitor
Intervention Description
Arm 1: The starting dose will be 30 mg by mouth once a day of PF-0029804 in tablet form. The dose of each drug in the combination [PF-02341066 and PF-00299804] will be escalated or de-escalated until the maximum tolerated combined dose is reached. Patients will then be treated with the maximum tolerated combined dose.
Intervention Type
Drug
Intervention Name(s)
PF-02341066
Other Intervention Name(s)
cMET inhibitor
Intervention Description
Arm 2: With progressive disease the maximum tolerated combined dose of PF-02341066 (given by mouth twice a day in tablet form) and PF-00299804 (given by mouth once a day in tablet form).
Intervention Type
Drug
Intervention Name(s)
PF-00299804
Other Intervention Name(s)
panHER inhibitor
Intervention Description
Arm 2: The dose of 45 mg by mouth once a day of PF-00299804 in tablet form until progressive disease and then the maximum tolerated combined dose of PF-02341066 (given by mouth twice a day in tablet form) and PF-00299804 (given by mouth once a day in tablet form).
Primary Outcome Measure Information:
Title
Overview of Treatment-emergent All Causalities Adverse Events (AEs) in Escalation Phase
Description
AE was any untoward medical occurrence with study drug/ device in a trial participant. Serious adverse event (SAE) was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using National Cancer Institute (NCI) Common Terminology Criteria for AEs (CTCAE) v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Time Frame
Up to Maximum of treatment duration + 28 days for each participant (could be 295 days)
Title
Overview of Treatment-emergent All Causalities AEs in Expansion Phase
Description
AE was any untoward medical occurrence with study drug/ device in a trial participant. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Time Frame
Up to Maximum of treatment duration + 28 days for each participant (could be 295 days)
Title
Overview of Treatment-emergent, Treatment-related AEs in Escalation Phase
Description
An AE was any untoward medical occurrence attributed to study treatment in a participant who received study treatment. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Time Frame
Up to Maximum of treatment duration + 28 days for each participant (could be 295 days)
Title
Overview of Treatment-emergent, Treatment-related AEs in Expansion Phase
Description
An AE was any untoward medical occurrence attributed to study treatment in a participant who received study treatment. SAE was an AE resulting in death, initial or prolonged inpatient hospitalization, life-threatening experience, persistent or significant disability/incapacity, congenital anomaly. Treatment-emergent AEs were those with initial onset or that worsen in severity after the first dose of study medication. AEs were reported from signing of informed consent until 28 days after the last dose of study medication. SAEs were reported after this time frame if considered to be treatment related. The severity of AEs were graded by the investigator using NCI CTCAE v.4.02 and was assessed as Grade 0: no change from normal or reference range; Grade 1: mild; Grade 2: moderate; Grade 3: severe; Grade 4: life-threatening or disabling; Grade 5: death related to AE. However the below table included Grade 3, 4, and 5 AEs.
Time Frame
Up to Maximum of treatment duration + 28 days for each participant (could be 295 days)
Title
Number of Participants With Dose Limiting Toxicities (DLTs) in Escalation Phase
Description
DLTs were those AEs which occurred in Cycle 1 of treatment in Dose Escalation Phase which may be attributed to study drug [combined Crizotinib (PF-02341066) plus Dacomitinib (PF-00299804)] without a clear alternative explanation and despite the use of adequate/maximal medical intervention as dictated by local institutional clinical practices or the judgment of the investigator. The following events were considered DLTs (using CTCAE version 4.02);1. Grade ≥4 hematologic events. 2. Grade ≥3 non-hematological events (except Grade 3/4 asymptomatic hypophosphatemia and Grade 3/4 hyperuricemia without signs and symptoms of gout). Nausea, vomiting or diarrhea had to have persisted at Grade 3 or 4 despite maximal medical therapy. Grade 3 hypertension will be considered a DLT only if the event is unmanageable by standard approved pharmacologic agents or if the symptomatic sequelae are identified despite appropriate medical intervention.
Time Frame
Cycle 1 (4 weeks)
Secondary Outcome Measure Information:
Title
Number of Participants With Stable Disease and Stable Disease Duration in Escalation Phase
Description
If a participant had not achieved an objective response with confirmed complete response (CR) or partial response (PR) according to Response Evaluation Criteria in Solid Tumors (RECIST) - 1.1 as determined by the investigators, relative to the response evaluable population, but remained stable for at least 6 weeks after first dose, then the best overall response for such a participant was considered as stable disease.
Time Frame
From objective response to date of progression or death due to any cause, whichever occurs first (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Number of Participants With Stable Disease and Stable Disease Duration in Expansion Phase
Description
If a participant had not achieved an objective response with confirmed complete response (CR) or partial response (PR) according to RECIST (1.1) as determined by the investigators, relative to the response evaluable population, but remained stable for at least 6 weeks after first dose, then the best overall response for such a participant was considered as stable disease.
Time Frame
From objective response to date of progression or death due to any cause, whichever occurs first (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Number of Participants With Objective Response Rate (ORR) in Escalation Phase
Description
ORR was defined as the percent of participants with CR or PR according to Response Evaluation Criteria in Solid Tumors (RECIST 1.1) determined by study physicians, relative to the response evaluable population. Participants were considered non-responders until proven otherwise. Thus, participants who: 1) Did not have CR or PR while on study, or 2) Did not have a post-baseline tumor evaluation, or 3) Received anti-tumor treatment other than the study medication prior to reaching a CR or PR, or 4) Died, in progress, or drop out for any reason prior to reaching a CR or PR, were counted as non-responders in the assessment of ORR. To be assigned a status of PR or CR, changes in tumor measurements in participants with responding tumors were confirmed by repeated tumor assessment that were performed 4 weeks after the criteria for response were first met.
Time Frame
From objective response to date of progression or death due to any cause, whichever occurs first (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Number of Participants With ORR in Expansion Phase
Description
ORR was defined as the percent of participants with CR or PR according to Response Evaluation Criteria in Solid Tumors (RECIST 1.1) determined by study physicians, relative to the response evaluable population. Participants were considered non-responders until proven otherwise. Thus, participants who: 1) Did not have CR or PR while on study, or 2) Did not have a post-baseline tumor evaluation, or 3) Received anti-tumor treatment other than the study medication prior to reaching a CR or PR, or 4) Died, in progress, or drop out for any reason prior to reaching a CR or PR, were counted as non-responders in the assessment of ORR. To be assigned a status of PR or CR, changes in tumor measurements in participants with responding tumors were confirmed by repeated tumor assessment that were performed 4 weeks after the criteria for response were first met.
Time Frame
From objective response to date of progression or death due to any cause, whichever occurs first (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Duration of Response for the Only Participant Shown Partial Response in Expansion Phase
Description
This outcome measure presented the duration of response for one participant in expansion cohort 1 who showed partial response.
Time Frame
From objective response to date of progression or death due to any cause, whichever occurs first (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Progression Free Survival (PFS) in Escalation Phase
Description
PFS was defined as the time from the date of the first dose to the date of the first documentation of objective tumor progression according to RECIST 1.1 or death on study due to any cause, whichever occurred first. If tumor progression data included more than 1 date, the first date was used.
Time Frame
From randomization to objective tumor progression or death (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Progression Free Survival (PFS) in Expansion Phase
Description
PFS was defined as the time from the date of the first dose to the date of the first documentation of objective tumor progression according to RECIST 1.1 or death on study due to any cause, whichever occurred first. If tumor progression data included more than 1 date, the first date was used.
Time Frame
From randomization to objective tumor progression or death (up to post treatment follow-up as 28-35 days after last dose of study treatment)
Title
Expression Analysis of Tumor Biomarkers (HGF, EGFR, and c-Met ) at Baseline Using Immunohistochemistry (IHC) Method
Description
Tumor biomarkers such as HGF, EGFR, and c-Met were analyzed in tumor cells (neoplastic compartment) of tumor specimens from both expansion cohorts 1 and 2 by IHC. The H score was derived by summing the percentages of cells staining at each intensity multiplied by the weighted intensity of staining (0, 1+, 2+, 3+, where 3+ indicates the strongest staining, 2+ indicates medium staining, 1+ indicates weak staining, and 0 indicates no staining). Minimum calculated score of 0 to maximum calculated score of 300, where 0 correspond to no expression and maximum score of 300 indicates the strongest expression. However, the biomarker expression level (higher or lower) was not a predictor of outcome.
Time Frame
Baseline
Title
Expression Analysis of Tumor Biomarkers (EGFR, and c-Met) at Baseline Using Fluorescent in Situ Hybridization (FISH) Method
Description
Expression of tumor biomarkers EGFR and cMet at Baseline (using FISH method) are presented in this outcome measure.
Time Frame
Baseline
Title
Number of Participants With c-Met, HER2, EGFR Amplification and ALK Rearrangement at Baseline Using FISH Method
Description
Participants showed amplification of c-Met, HER2, and EGFR in the tumor cells and gene rearrangement of ALK are presented in this outcome measure.
Time Frame
Baseline
Title
Plasma Concentration of sMet by Study Visits
Description
This outcome measure presented the plasma concentration of sMet at different study visits. s-Met was analyzed using an enzyme-linked immunosorbent assay (ELISA).
Time Frame
At screening and Cycle 1 Day 1 (C1D1) (6 hours post dose), and C1D15, C2D1, C2D15 (all predose).
Title
Number of Participants With EGFR Mutation at Baseline
Description
Sample analyses were performed in accordance to Good Laboratory Practice (GLP) guidance and included mutation detection for EGFR gene.
Time Frame
Baseline
Title
Number of Participants With KRAS Mutation (GLY12CYS) at Baseline
Description
Sample analyses were performed in accordance to GLP guidance and included mutation detection for KRAS gene.
Time Frame
Baseline
Title
Number of Participants With PIK3CA Mutation at Baseline
Description
Sample analyses were performed in accordance to GLP guidance and included mutation detection for PIK3CA gene.
Time Frame
Baseline
Title
Number of Participants With ROS1 Gene Translocation at Baseline
Description
Sample analyses were performed in accordance to GLP guidance and included translocation detection (RNA based) for ROS1 gene.
Time Frame
Baseline
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Area Under the Plasma Concentration-time Profile From Time Zero to the Last Quantifiable Concentration (AUClast)
Description
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUClast for crizotinib and PF-06260182. AUClast was calculated using Linear/Log trapezoidal method.
Time Frame
Cycle 1 (C1)/Day 1 (D1), C1D15
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Area Under the Plasma Concentration-time Curve 10 (AUC10)
Description
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). AUC10 was calculated using Linear/Log trapezoidal method. The below analysis table included geometric Mean and Geometric Coefficient of Variation of AUC10 for crizotinib and PF-06260182. Arithmetic mean was presented if the n=2.
Time Frame
C1D1, C1D15
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Maximum Plasma Concentration (Cmax)
Description
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Cmax for crizotinib and PF-06260182. Cmax was observed directly from data.
Time Frame
C1D1, C1D15
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase - Time of Last Quantifiable Concentration (Tlast)
Description
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tlast for crizotinib and PF-06260182. Tlast was observed directly from data.
Time Frame
C1D1, C1D15
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Escalation Phase -Time to Maximum Plasma Concentration (Tmax)
Description
At each designated time point, blood samples (3 mL) for pharmacokinetic (PK) analysis of crizotinib and its metabolite, PF 06260182 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tmax for crizotinib and PF-06260182. Tmax was observed directly from data as time of first occurrence.
Time Frame
C1D1, C1D15
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - AUClast
Description
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUClast for dacomitinib and PF-05199265. AUClast was calculated using Linear/Log trapezoidal method.
Time Frame
C1D1, C1D15
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - AUC24
Description
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included AUC24 for dacomitinib and PF-05199265. AUC24 was calculated using Linear/Log trapezoidal method.
Time Frame
C1D1, C1D15
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Cmax
Description
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Cmax for dacomitinib and PF-05199265. Cmax was observed directly from data.
Time Frame
C1D1, C1D15
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Tlast
Description
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tlast for dacomitinib and PF-05199265. Tlast was observed directly from data.
Time Frame
C1D1, C1D15
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Escalation Phase - Tmax
Description
At each designated time point, blood samples (3 mL) for PK analysis of dacomitinib and its metabolite, PF 05199265 were collected in appropriately labeled collection tubes containing dipotassium ethylenediamine tetra-acetic acid (K2EDTA). The below analysis table included Tmax for dacomitinib and PF-05199265. Tmax was observed directly from data as time of first occurrence.
Time Frame
C1D1, C1D15
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - AUClast
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for AUClast. AUClast was calculated using Linear/Log trapezoidal method.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - AUC10
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for AUC10. AUC10 was calculated using Linear/Log trapezoidal method.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Cmin
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Cmin. Cmin was observed directly from data.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Cmax
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Cmax. Cmax was observed directly from data.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Tlast
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Tlast. Tlast was observed directly from data.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Crizotinib and PF-06260182 Pharmacokinetic Parameter in Expansion Cohort 1 With or Without Co-administration of Dacomitinib - Tmax
Description
Participants were evaluated for the effect of dacomitinib on steady-state PK of crizotinib. PK of crizotinib alone was evaluated on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) after a lead in period of continuous BID dosing of crizotinib for approximately 12 days (±2 days). PK of crizotinib and dacomitinib in combination treatment was evaluated on Day 1 of Cycle 2. Blood samples for crizotinib full PK were to be collected on Day -1 and Day 1 of Cycle 2. The below table included PK data for Tmax. Tmax was observed directly from data as time of first occurrence.
Time Frame
Day -1 (crizotinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - AUClast
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (AUClast) following dacomitinib alone and in combination with crizotinib are summarized in the below table. AUClast was calculated using Linear/Log trapezoidal method.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - AUC24
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (AUC24) following dacomitinib alone and in combination with crizotinib are summarized in the below table. AUC24 was calculated using Linear/Log trapezoidal method.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Cmin
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Cmin) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Cmin was observed directly from data.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Cmax
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Cmax) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Cmax was observed directly from data.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Tlast
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Tlast) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Tlast was observed directly from data.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
Title
Plasma Dacomitinib and PF-05199265 Pharmacokinetic Parameter in Expansion Cohort 2 With or Without Co-administration of Dacomitinib - Tmax
Description
PK samples for full PK evaluation of dacomitinib were drawn on Day -1 (one day before C1D1 on which the combination treatment of crizotinib and dacomitinib started) and on C2D1. Dacomitinib and PF-05199265 PK parameter (Tmax) following dacomitinib alone and in combination with crizotinib are summarized in the below table. Tmax was observed directly from data as time of first occurrence.
Time Frame
Day -1 (dacomitinib alone), C2D1 (crizotinib + dacomitinib)
10. Eligibility
Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria:
advanced non small cell lung cancer (dose escalation phase)
acquired resistance to erlotinib or gefitinib (expansion phase)
mandatory entrance biopsy (expansion phase)
Exclusion Criteria:
interstitial lung disease
unstable brain metastases
leptomeningeal disease
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Pfizer CT.gov Call Center
Organizational Affiliation
Pfizer
Official's Role
Study Director
Facility Information:
Facility Name
Clinical Trials Office University of Colorado Hospital (CTO)
City
Aurora
State/Province
Colorado
ZIP/Postal Code
80045
Country
United States
Facility Name
DRUG SHIPMENT: University of Colorado Cancer Center
City
Aurora
State/Province
Colorado
ZIP/Postal Code
80045
Country
United States
Facility Name
Rocky Mountain Lions Eye Institute
City
Aurora
State/Province
Colorado
ZIP/Postal Code
80045
Country
United States
Facility Name
University of Colorado Hospital
City
Aurora
State/Province
Colorado
ZIP/Postal Code
80045
Country
United States
Facility Name
CCR, National Cancer Institute
City
Bethesda
State/Province
Maryland
ZIP/Postal Code
20892
Country
United States
Facility Name
Drug Shipment Only
City
Boston
State/Province
Massachusetts
ZIP/Postal Code
02114
Country
United States
Facility Name
Massachusetts General Hospital
City
Boston
State/Province
Massachusetts
ZIP/Postal Code
02114
Country
United States
Facility Name
Brigham & Women's Hospital
City
Boston
State/Province
Massachusetts
ZIP/Postal Code
02115
Country
United States
Facility Name
Drug Shipment Only
City
Boston
State/Province
Massachusetts
ZIP/Postal Code
02215
Country
United States
Facility Name
Peter MacCallum Cancer Centre, Division of Haematology and Medical Oncology
City
East Melbourne
State/Province
Victoria
ZIP/Postal Code
3002
Country
Australia
12. IPD Sharing Statement
Links:
URL
https://trialinfoemail.pfizer.com/pages/landing.aspx?StudyID=A8081006&StudyName=A%20Study%20Of%20Combined%20C-%20MET%20Inhibitor%20And%20PAN-HER%20Inhibitor%20%28PF-02341066%20And%20PF-00299804%29%20In%20Patients%20With%20Non-%20Small%20Cell%20Lung%20Can
Description
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Learn more about this trial
A Study Of Combined C- MET Inhibitor And PAN-HER Inhibitor (PF-02341066 And PF-00299804) In Patients With Non- Small Cell Lung Cancer
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