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B.J. Solomon



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    ED 13 - The EGF Receptor and Targeting T790M (ID 13)

    • Event: WCLC 2015
    • Type: Education Session
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      ED13.01 - Biological Background and Controversies (ID 1824)

      14:15 - 15:45  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Abstract:
      The ability to identify and therapeutically target specific mutations (typically exon 19 deletions and L858R) in the Epidermal Growth Factor Receptor (EGFR) gene marked the beginning of personalized medicine for NSCLC. Phase III clinical trials with the EGFR tyrosine kinase inhibitors gefitinib, erlotinib and afatinib demonstrated superiority of these agents over chemotherapy establishing these agents as standard therapy for EGFR mutation positive NSCLC. However, resistance to therapy invariably occurs through multiple, heterogeneous mechanisms of which a secondary gatekeeper mutation in EGFR, T790M, is the most frequent, being identified in 50-60% of patients at the time ofprogression after initial EGFR TKI. EGFR T790M is thought to result in resistance by increasing the affinity for ATP rather than simple stearic hinderance. Recently novel irreversible inhibitors, structurally distinct to earlier generation compounds, have been developed that inhibit T790M while having relatively less potency against wildtype EGFR including rocelitnib (C01686) and AZD9291. Phase I/II studies have demonstrated responses to rocilitinib (CO1686) and AZD9291 in about 60% of patients with T790M positive disease. Preliminary data indicates the degree of response may correlate with the allelic frequency of T790, with greater degrees of responses in patients with higher proportions of T790M. Resistance to these compounds has been described clinically and includes loss of T790M, small cell transformation as well asdevelopment of tertiary mutations C7957 (resistance to AZD9291).

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    MINI 03 - PD1 Axis Inhibition and EGFR (ID 101)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      MINI03.10 - Rociletinib in NSCLC Patients with Negative Central Testing for T790M in TIGER-X (ID 951)

      16:45 - 18:15  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      Rociletinib (CO-1686) is a novel, oral, irreversible tyrosine kinase inhibitor for the treatment of patients with mutant epidermal growth factor receptor (EGFR) non-small cell lung cancer (NSCLC). Rociletinib has demonstrated efficacy against activating mutations (L858R and Del19) and the dominant acquired resistance mutation (T790M), while sparing wild-type EGFR. New insights into mutEGFR NSCLC suggest clonal heterogeneity – activating EGFR mutations are truncal (present in all tumor clones) and T790M is a dominant branch mutation with variable clonal frequency between patients and over time. The extent of this clonal heterogeneity may relate to rociletinib efficacy. Here we present preliminary findings to evaluate this hypothesis from an ongoing Phase 1/2 clinical trial.

      Methods:
      TIGER-X (NCT01526928) is a Phase I/II open-label, safety, pharmacokinetics and preliminary efficacy study of rociletinib in patients with metastatic or unresectable locally advanced EGFR mutation-positive NSCLC with progressive disease after ≥1 EGFR tyrosine kinase inhibitor (TKI). Screening included mandatory tumor biopsy and T790M testing. For Phase 1, patients could be T790M negative, positive or unknown. For Phase 2, T790M negative patients (by validated central testing) could have a contemporaneous local T790M+ result.

      Results:
      As of March 2015, 36 patients were enrolled in TIGER-X who were T790M central negative by cobas® or Qiagen therascreen® and evaluable for efficacy. Sensitivity analysis indicated that the 2 assay platforms were comparable for T790M detection. 69% (25/36) were T790M negative centrally but positive locally; 4/36 (11%) were negative by both central and local testing; and 7/36 (19%) were centrally negative with no local result. Median number of previous TKIs was 1 and median number of previous therapies was 2; 81% (29/36) were treated with a TKI as their most recent prior therapy. In central negative/local+ patients the ORR was 40% (10/25). In central negative/local negative patients the ORR was 25% (1/4). The most common treatment emergent adverse events in this subset (all grades) were fatigue, diarrhea, nausea and hyperglycemia.

      Conclusion:
      These preliminary findings suggest that patients who test negative for T790M using a sensitive tissue test may still benefit from treatment with rociletinib. In part, this clinical activity may be driven by T790M tumor heterogeneity, demonstrated by the discordant T790M results described. In addition, inhibition of IGF-1R/IR by the previously reported (Soria 2014) rociletinib metabolite M502 may also be driving some of the activity observed. This possible explanation is important, since the response rates reported herein are higher than described for other T790M inhibitors in T790M-negative patients. Furthermore, TKI re-treatment effect is unlikely to be a major driver of these results, since the majority of patients came on study directly after progression on another EGFR TKI. To further explore these findings, the open-label TIGER-2 (NCT02147990) and the randomized Phase 3 TIGER-3 (NCT02322281) studies include T790M negative patients.

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    MINI 05 - EGFR Mutant Lung Cancer 1 (ID 103)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      MINI05.14 - Discussant for MINI05.10, MINI05.11, MINI05.12, MINI05.13 (ID 3324)

      16:45 - 18:15  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Abstract not provided

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    MINI 16 - EGFR Mutant Lung Cancer 2 (ID 130)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 2
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      MINI16.03 - Dose Optimization of Rociletinib for EGFR Mutated NSCLC (ID 967)

      16:45 - 18:15  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      Rociletinib (CO-1686) is a novel, oral, irreversible mutant selective tyrosine kinase inhibitor for the treatment of patients with mutant epidermal growth factor receptor (EGFR) non-small cell lung cancer (NSCLC). Rociletinib has demonstrated efficacy against activating mutations (L858R and Del19) and the dominant acquired resistance mutation (T790M), while sparing wild-type EGFR. A maximum tolerated dose was not identified in Phase 1 with 1000 mg BID the highest dose studied. Here we assess the efficacy and safety of the three doses of rociletinib (500 mg BID, 625 mg BID and 750 mg BID) selected for Phase 2 study.

      Methods:
      TIGER-X (NCT01526928) is a Phase 1/2 open-label, safety, pharmacokinetics and preliminary efficacy study of rociletinib in patients with advanced EGFR mutant NSCLC progressing after ≥1 EGFR tyrosine kinase inhibitor (TKI). Efficacy is assessed using RECIST. Safety is evaluated using standard adverse event (AE) reporting.

      Results:
      As of April 2015, a total of 231 central T790M positive patients were evaluable for efficacy and 343 for safety (any T790M). All patients were enrolled in the USA (85%), Europe (9%) and Australia (6%). Baseline characteristics were similar in each dose group. The median number of prior therapies was 2. 85% had EGFR TKI as their most recent prior therapy and 10% had a history of diabetes/hyperglycemia. Immature ORRs are 53% (500 mg BID), 52% (625 mg BID) and 43% (750 mg BID), with disease control rates of 89% (500 mg BID), 87% (625 mg BID) and 82% (750 mg BID). The most common ≥grade 3 treatment-related AE was hyperglycemia [16% (500 mg BID), 25% (625 mg BID) and 35% (750 mg BID)] which was managed with oral hypoglycemic agents. Only one patient discontinued the study for hyperglycemia. Grade 3 QTc prolongation was uncommon, occurring in 2% (500 mg BID), 7% (625 mg BID) and 10% (750 mg BID) of patients, and demonstrated a relationship to dose. There were no clinically relevant cutaneous toxicities with 7 cases of grade 1 rash and 4 cases of grade 1 stomatitis (no dose relationship) and no paronychia.

      Conclusion:
      All 3 Phase 2 doses of rociletinib are active and well tolerated in a Western patient population with advanced NSCLC. The lack of cutaneous toxicities confirms the selectivity of rociletinib for mutant forms of EGFR and is an important contributor to QOL and maintaining dose intensity (Lacouture et al. 2011). Overall, the adverse event frequency appears to be related to dose, but antitumor activity does not, thus the risk/benefit profile may be optimal at the lowest dose studied.

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      MINI16.04 - Activity of Rociletinib in EGFR Mutant NSCLC Patients with a History of CNS Involvement (ID 965)

      16:45 - 18:15  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      Rociletinib (CO-1686) is a novel, oral, irreversible tyrosine kinase inhibitor for the treatment of patients with mutant epidermal growth factor receptor (EGFR) non-small cell lung cancer (NSCLC) with activity against the activating mutations (L858R and Del19) and the dominant acquired resistance mutation (T790M), while sparing wild-type EGFR. TIGER-X (NCT01526928) is a Phase I/II open-label, safety, pharmacokinetics and preliminary efficacy study of rociletinib in patients with advanced EGFR mutation-positive NSCLC with progressive disease after ≥1 EGFR tyrosine kinase inhibitor (TKI). An overall response rate of 67% has previously been reported in this trial for T790M positive patients treated with the 500 and 625 mg BID doses (Soria 2014). Here we provide preliminary data on the activity of rociletinib in the subgroup of patients with a history of CNS disease.

      Methods:
      Patients with a history of CNS disease were permitted if asymptomatic and stable, as defined by steroid requirements. The primary activity endpoint was RECIST overall response rate. However, patients who developed progressive disease (PD) while on study treatment were allowed to continue therapy with rociletinib if deemed clinically beneficial by the investigator.

      Results:
      As of 16 March 2015, a total of 401 patients received therapeutic dose levels of rociletinib (500, 625 and 750 mg BID) including 170 (42%) patients with a history of CNS metastases. Based on this interim analysis, the RECIST overall response rate among these patients with a history of CNS disease is 41%. To date, 42 patients with a history of CNS disease have continued therapy with rociletinib post-progression. Of those who continued for at least 14 days the average treatment duration beyond PD was 89 days (range: 14 - 336 days). Twenty-two of the 42 patients with a history of CNS disease with PD also received brain radiation and continued rociletinib treatment for an average of 120 days (range: 22 – 336 days) after PD. Rociletinib is held on radiation days only. Progression-free survival data for these subgroups is not yet mature. The three most common adverse events in the patient population with a history of CNS disease are similar to those found in the general TIGER-X patient population: hyperglycemia, diarrhea and nausea.

      Conclusion:
      In patients with a history of CNS disease, a factor associated with poor prognosis, rociletinib is active with a RECIST response rate of 41%. Local CNS radiation has been administered safely with rociletinib held on radiation days and continued afterwards. Prolonged use of rociletinib post CNS radiation suggests ongoing systemic benefit is still experienced by these patients. The role of rociletinib in NSCLC patients with CNS involvement is being further explored in the ongoing TIGER clinical development program.

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    MINI 31 - ALK (ID 158)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 2
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      MINI31.04 - Intracranial Efficacy of First-Line Crizotinib vs. Chemotherapy in ALK-Positive NSCLC (ID 1238)

      18:30 - 20:00  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      The ongoing multicenter, randomized, open-label phase III study PROFILE 1014 recently demonstrated superior efficacy of crizotinib compared with chemotherapy in patients with previously untreated advanced ALK-positive NSCLC (Solomon et al, N Engl J Med 2014). Intracranial efficacy of crizotinib vs. chemotherapy was compared prospectively in this trial.

      Methods:
      Patients with previously untreated advanced non-squamous ALK-positive NSCLC (N=343) were randomized 1:1 to receive crizotinib 250 mg orally BID (n=172) or intravenous chemotherapy (pemetrexed 500 mg/m[2 ]+ cisplatin 75 mg/m[2] or carboplatin at AUC 5–6; all q3w for ≤6 cycles; n=171). Patients with treated brain metastases that were stable for ≥2 weeks with no ongoing requirement for corticosteroids were eligible. Treatment was continued until PD. Continuation of, or crossover to, crizotinib after PD (per independent radiology review [IRR]) was allowed for patients randomized to crizotinib or chemotherapy, respectively. Brain scanning was performed every 6 weeks in patients with baseline brain metastases and every 12 weeks in those without baseline brain metastases. Protocol-specified efficacy endpoints included PFS (primary endpoint), ORR, OS, and 12- and 18-month OS, as well as intracranial TTP. Intracranial DCR at 12 and 24 weeks was also evaluated. Efficacy was evaluated in the ITT population and in two subgroups of patients: those with and without baseline brain metastases.

      Results:
      Of 343 patients in the ITT population, 79 had brain metastases at baseline identified by IRR (23%) and 263 did not (77%; data not reported for one patient). Baseline characteristics of patients randomized to receive crizotinib or chemotherapy were generally well balanced within these two patient subgroups. Among the patients with baseline brain metastases, a significantly higher proportion achieved intracranial disease control with crizotinib than with chemotherapy at 12 weeks (33/39 [85%] vs. 18/40 [45%], respectively; P=0.0003) and at 24 weeks (22/39 [56%] vs. 10/40 [25%]; P=0.006). There was a numerical improvement in prospectively measured intracranial TTP with crizotinib in the ITT population (HR 0.60, P=0.069), as well as in patients either with baseline brain metastases (HR 0.45, P=0.063) or without baseline brain metastases (HR 0.69, P=0.323). The frequency of progression in the brain was low in the ITT population (15%) and in patients with and without baseline brain metastases (27% and 11%, respectively). Overall PFS was significantly longer with crizotinib than with chemotherapy in both subgroups (brain metastases present: HR 0.40, P=0.0007, median 9.0 vs. 4.0 months; brain metastases absent: HR 0.51, P≤0.0001, median 11.1 vs. 7.2 months), as it was in the ITT population (HR 0.45, P<0.0001, median 10.9 vs. 7.0 months). Twenty-five patients in the crizotinib arm of the study experienced intracranial PD; 22 of these patients received crizotinib for ≥3 weeks beyond PD and 19 also received intracranial radiotherapy.

      Conclusion:
      In this prospective assessment of intracranial efficacy, crizotinib demonstrated significantly greater intracranial disease control and overall efficacy compared with chemotherapy in patients with baseline brain metastases. These findings provide further confirmation of crizotinib as the standard of care for patients with previously untreated advanced ALK-positive NSCLC, including those patients with brain metastases at baseline.

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      MINI31.12 - Quality of Life for Crizotinib vs. Chemotherapy in Asian ALK-Positive NSCLC Patients (ID 845)

      18:30 - 20:00  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      PROFILE 1014 compared the efficacy and safety of the ALK inhibitor crizotinib with platinum based chemotherapy in previously untreated advanced ALK-positive advanced NSCLC (Pfizer; NCT01154140). The primary endpoint was progression-free survival. The main objective of this post-hoc analysis was to compare patient-reported symptom and global quality of life (QOL) between crizotinib and chemotherapy in the subgroup of patients of Asian ethnicity in the ongoing study PROFILE 1014.

      Methods:
      Patients in the ongoing PROFILE 1014 study were randomized to crizotinib (250 mg PO bid; n= 172) or chemotherapy (pemetrexed 500 mg/m[2] + either cisplatin 75 mg/m[2] or carboplatin AUC 5–6; all IV q3w for ≤6 cycles; n= 171). Patient-reported outcomes were assessed at baseline, day 7 and day 15 of cycle 1, day 1 of subsequent 3-week cycles and end of treatment using the validated cancer specific questionnaire EORTC QLQ-C30 and its lung cancer module QLQ-LC13. Validated translations of the questionnaires in Asian languages (Japanese, Chinese, Korean etc) were made available. Higher scores (range 0−100) indicated higher symptom severity or better functioning/QOL. A positive change from baseline score indicates improvement for global QOL/functioning and deterioration in symptoms. Repeated measures mixed-effects analyses were performed to compare change from baseline scores between the treatment arms, with no adjustments made for multiple comparisons.

      Results:
      Of 343 patients randomized, 46% were of Asian ethnicity (crizotinib, n=77; chemotherapy, n=80). Completion rates at baseline were ≥95% in each group and scores were balanced. A statistically significantly greater overall improvement from baseline was observed with crizotinib compared with chemotherapy for global QOL (5.6 vs -7.7; p<0.001), emotional functioning (9.5 vs 2.7;p<0.05), physical functioning (5.0 vs - 2.7 p<0.001) and role functioning (3.7 vs. -7.2;p<0.001). A statistically significantly greater overall improvement was observed with crizotinib compared with chemotherapy for cough (-17.3 vs. -11.2; p<0.05), dyspnea (-9.5 vs.-1.1; p<0.001), pain in arm or shoulder (-11.4 vs.-2.2; p<0.001), pain in chest (-7.3 vs.3.3; p<0.001), pain in other parts (-11.2 vs. -0.4;p<0.001), fatigue (-9.9 vs. 3.9; p<0.001), insomnia (-10.3vs. -2.0; p<0.05), pain (-12.2 vs.-1.2; p<0.001) and appetite loss (-5.3 vs. 5.7; p<0.001). A statistically significantly greater overall deterioration was observed in the crizotinib arm for diarrhea (12.6 vs. 2.4; p<0.001) compared with chemotherapy. No statistically significant differences were observed for social functioning, sore mouth, dysphagia, nausea & vomiting, constipation and alopecia between crizotinib and chemotherapy.

      Conclusion:
      Consistent with previously reported results in the overall study population, treatment with crizotinib showed statistically significantly greater overall improvement in patient-reported lung cancer symptoms and global QOL compared with chemotherapy in the subgroup of patients of Asian ethnicity with previously untreated advanced ALK-positive NSCLC.

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    ORAL 06 - Next Generation Sequencing and Testing Implications (ID 90)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      ORAL06.01 - Genomic Characterization of Large-Cell Neuroendocrine Lung Tumors (ID 1667)

      10:45 - 12:15  |  Author(s): B.J. Solomon

      • Abstract
      • Slides

      Background:
      Neuroendocrine lung tumours account for 25% of all lung cancer cases, and they range from low-aggressive pulmonary carcinoids (PCA) to highly malignant small-cell lung cancer (SCLC) and large-cell neuroendocrine lung carcinoma (LCNEC). The last two are strongly associated with heavy smoking and are typically detected at a clinically advanced stage, having a poor survival. Comprehensive genomic analyses in lung neuroendocrine tumours are difficult because of limited availability of tissue. While more effort has been done in the context of SCLC, the detailed molecular features of LCNEC remain largely unknown.

      Methods:
      We conducted 6.0 SNP array analyses of 60 LCNEC tumours, exome sequencing of 55 tumor-normal pairs, genome sequencing of 11 tumour-normal pairs, transcriptome sequencing of 69 tumours, and expression arrays on 60 tumors. Data analyses were performed using in house developed and published pipelines.

      Results:
      Analyses of chromosomal gene copy number revealed amplifications of MYCL1, FGFR1, MYC, IRS2 and TTF1. We also observed deletions of CDKN2A and PTPRD. TTF1 amplifications are characteristic of lung adenocarcinoma (AD); CDKN2A deletions are frequent alterations in both AD and squamous-cell lung carcinoma (SQ); FGFR1 amplifications are found in SQ and, less frequently, in SCLC; and MYCL1 and IRS2 amplifications are frequent events in SCLC. Similar to the copy number data, we found patterns of mutations characteristic of other lung cancer subtypes: TP53 was the most frequently mutated gene (75%) followed by RB1 (27%), and inactivation of both TP53 and RB1, which is the hallmark of SCLC, occurred in 20% of the cases. Mutations in STK11 and KEAP1-NFE2L2 (frequently seen in AD and SQ) were found in 23% and 22% of the specimens, respectively. Interestingly, mutations in RB1 and STK11/KEAP1 occurred in a mutually exclusive fashion (p-value=0.016). Despite the heterogeneity observed at the mutation level, analysis of the pattern of expression of LCNEC in comparison with the other lung cancer subtypes (AD, SQ, SCLC, and PCA) points to LCNEC as being an independent entity. An average mutation rate of 10.7 mutations per megabase was detected in LCNEC, which is in line with the rate observed in other lung tumours associated with smoking. We found that, similar to SCLC, the mutation signatures associated with APOBEC family of cytidine deaminases, smoking, and age (based on Alexandrov et al 2013) were the predominant ones in LCNEC. However, the contribution of the individual SCLC and LCNEC samples to these three signatures was quite different, and we are currently exploring it.

      Conclusion:
      Taking into account somatic copy number and mutation data, we distinguished two well-defined groups of LCNEC: an SCLC-like group, carrying alterations in MYCL1, ISR2, and in both RB1 and TP53; and a group resembling AD and SQ, with alterations in CDKN2A, TTF1, KEAP1-NFE2L2, and STK11. Although these results suggest that LCNEC might be a mix of different lung cancer subtypes, mutation clonality and expression analyses show that they are likely to be a separate entity, sharing molecular characteristics with the other lung cancer subtypes. Their heterogeneity suggests that LCNEC might represent an evolutionary trunk that can branch to SCLC or AD/SQ.

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    ORAL 33 - ALK (ID 145)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      ORAL33.07 - Clinical Activity and Safety of the ALK/ROS1 TK Inhibitor PF-06463922 in Advanced NSCLC (ID 295)

      16:45 - 18:15  |  Author(s): B.J. Solomon

      • Abstract
      • Presentation
      • Slides

      Background:
      Overcoming acquired resistance in ALK+ and ROS1+ non-small-cell lung cancer (NSCLC) patients (pts) is key to optimizing therapy. PF-06463922 is a selective, brain-penetrant tyrosine kinase inhibitor (TKI) with demonstrated clinical activity against de novo fusions as well as resistance mutations, including ALK G1202R, that arise during treatment with other TKIs.

      Methods:
      In this ongoing phase I study, eligible pts had ALK+ or ROS1+ NSCLC, with or without brain metastases, and were treatment naïve or had disease progression after at least 1 prior TKIs. Pts with central nervous system (CNS) metastases, including untreated asymptomatic metastases, were eligible. Tumor tissue (archival sample or de novo biopsy) was required for enrollment. A modified continual reassessment method was used to estimate the maximum tolerated dose (MTD) and select a recommended phase II dose (RP2D). Once- (QD) or twice-daily (BID) dosing in 21-day cycles was explored. Secondary objectives included efficacy, safety, tolerability, pharmacokinetics (PK), effect on cognitive function, patient-reported outcomes, potential to induce/inhibit CYP3A4, biomarkers of drug response and resistance, and intracranial antitumor activity.

      Results:
      25 ALK+ pts (20 with CNS metastases, 23 previously treated with at least 1 ALK TKIs) and 5 ROS1+ pts (3 with CNS metastases, 3 previously treated with crizotinib) have been enrolled across 7 QD dose levels and 2 BID dose levels. Of 21 patients evaluable for intracranial response, 16 had stable disease or confirmed complete/partial response. The most common treatment-related adverse events (AEs) were hypercholesterolemia, peripheral neuropathy, and peripheral edema, occurring in 47%, 27% and 23% of pts, respectively. Peripheral neuropathy was reversible following treatment delay or dose reduction. The most common grade 3 and higher treatment-related AE was hypercholesterolemia, occurring in 10% of pts, which was well managed with statins. One DLT was reported for a pt at 200 mg QD, who received less than 16 of the 21 planned doses of study drug due to grade 2 CNS effects. To date, 20 pts remain on treatment. Preliminary PK analyses suggest that exposure increased linearly from 10 to 75 mg QD, with a terminal half-life of 20-28 hrs. At doses beyond 75 mg QD, the increase in exposure appeared to be non-proportional. PF-06463922 is considered a moderate inducer of CYP3A4.

      Conclusion:
      PF-06463922 is a potent ALK/ROS1 TKI that has demonstrated clinical activity in ALK+ and ROS1+ NSCLC pts, most of whom had CNS metastases and had received at least 1 prior TKI. The RP2D has not yet been established.

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    P1.01 - Poster Session/ Treatment of Advanced Diseases – NSCLC (ID 206)

    • Event: WCLC 2015
    • Type: Poster
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      P1.01-084 - A Phase 2 Study of TH-4000 in Patients with EGFR Mutant, T790M-Negative, Advanced NSCLC Progressing on an EGFR TKI (ID 2209)

      09:30 - 17:00  |  Author(s): B.J. Solomon

      • Abstract
      • Slides

      Background:
      While EGFR-TKI therapy is initially effective for patients with EGFR-mutant NSCLC, eventual resistance to EFGR-TKI therapy is expected. For patients with non‑T790M resistance to EGFR-TKIs, the optimal treatment is unclear. Sensitizing mutations in EGFR are often heterozygous with co-expression of both wild type (WT) and mutant EGFR. Tumor hypoxia upregulates WT EGFR signaling through several HIF-dependent mechanisms. Clinical studies indicate that EGFR-mutant NSCLC with WT EGFR present is associated with a poorer response to EGFR-TKIs. NSCLC is known to be a hypoxic tumor; thus, hypoxia-induced activation of WT EGFR signaling may be a mechanism of EGFR-TKI resistance. TH-4000 is a clinical-stage hypoxia-activated prodrug that releases an irreversible pan-ErbB TKI targeting WT EGFR, mutant EGFR and HER2. Hypoxic tumor targeting using TH-4000 may allow a greater therapeutic index with greater intratumoral TKI levels and less dose-limiting systemic toxicity seen with current EGFR-TKIs. In xenograft models of EGFR-mutant NSCLC that co‑express WT EGFR, TH-4000 reverses resistance to current EGFR-TKIs, and is effective as a single‑agent. A Phase 1 study was conducted in patients with advanced solid tumors; the maximum tolerated dose (MTD) of TH-4000 administered as a 1-hour weekly intravenous (IV) infusion was established at 150 mg/m[2]. The most common treatment-related adverse events were dose-dependent and included rash, QT prolongation, nausea, infusion reaction, vomiting, diarrhea and fatigue.

      Methods:
      A multicenter Phase 2 trial was initiated to evaluate the safety and activity of TH-4000 as a single‑agent in patients with EGFR‑mutant, T790M-negative Stage IV NSCLC progressing on an EGFR TKI. Hypoxia PET imaging with [18F]-HX4 and molecular analyses of tumor tissue and plasma are incorporated in the study design to identify potential predictors of response to treatment. The primary endpoint is response rate. Secondary endpoints include progression-free survival, duration of response, overall survival, pharmacokinetics and safety, as well as evaluation of imaging, serum, and tissue biomarkers that may be associated with tumor response. Up to 37 patients will be enrolled with recurrent EGFR-mutant Stage IV NSCLC which has progressed while on treatment with EGFR-TKI, absence of EGFR T790M mutation, measureable disease according to RECIST 1.1, and ECOG performance status 0-1. Eligible patients must also have adequate pre-therapy tumor tissue available to enable tumor biomarker assessment. TH-4000 (150 mg/m[2]) is administered weekly by IV infusion over 60 minutes. The study design incorporates a Simon two-stage design (alpha = 0.10; beta = 0.10). Recruitment is ongoing.

      Results:
      Not applicable

      Conclusion:
      Not applicable

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