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K.A. Gold



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    MA07 - ALK-ROS1 in Advanced NSCLC (ID 385)

    • Event: WCLC 2016
    • Type: Mini Oral Session
    • Track: Advanced NSCLC
    • Presentations: 1
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      MA07.02 - Updated Efficacy and Safety Data from the Phase 2 NP28761 Study of Alectinib in ALK-Positive Non-Small-Cell Lung Cancer (ID 4918)

      11:00 - 12:30  |  Author(s): K.A. Gold

      • Abstract
      • Presentation
      • Slides

      Background:
      Alectinib, a CNS-active and highly selective ALK inhibitor, has efficacy in patients with ALK-positive NSCLC with and without previous crizotinib treatment. Updated efficacy and safety from the alectinib phase 2 North American NP28761 study (NCT01871805) of patients with ALK-positive NSCLC previously treated with crizotinib, with 15 months’ additional follow-up from the primary analysis and 9 months’ additional follow-up from the previous analysis are presented.

      Methods:
      Patients ≥18 years old with ALK-positive NSCLC (FDA-approved FISH test), disease progression following crizotinib, and ECOG PS ≤2 were enrolled. Patients received oral alectinib (600mg) twice daily until progression, death or withdrawal. Primary endpoint: overall response rate (ORR) by independent review committee (IRC; RECIST v1.1.) Secondary endpoints: investigator-assessed ORR; progression-free survival (PFS); overall survival (OS), CNS ORR (CORR); disease control rate (DCR); safety.

      Results:
      At the updated cut-off (22 January 2016) an additional 15 months' follow-up from the primary analysis, 87 patients were enrolled. Median follow-up: 17.0 months (range 1.1–28.6). ORR in the response evaluable population (REP; n=67) by IRC: 52.2% (95% CI 39.7–64.6), median duration of response: 14.9 months. Median PFS and OS: 8.0 and 22.7 months, respectively. Table 1 presents other efficacy endpoints. Grade ≥3 AEs were reported in 41% of the safety population (n=87); most common: elevated levels of blood creatine phosphokinase (8%), alanine aminotransferase (6%), aspartate aminotransferase (5%). Two patients withdrew due to AEs; 28% had AEs leading to dose modification/interruption. Mean dose intensity was 92.0%.

      IRC REP Responders, n CR, n (%) PR, n (%) SD, n (%) PD, n (%) Missing/NE, n (%) DCR, % (95% CI) n=67[*] 35 0 (0) 35 (52.2) 18 (26.9) 11 (16.4) 3 (4.5) 79.1 (67.4,88.1)
      Investigator REP Responders, n ORR, % (95% CI) n=87 [46[†]] 52.9 (41.9, 63.7)
      Measurable baseline CNS lesions (IRC)‖ Responders, n CORR, % (95% CI) Measurable/non-measurable baseline CNS lesions (IRC) Responders CORR,[‖] % (95% CI) n=16 12[‡] 75.0 (47.6, 92.7) n=52 21[§] 40.4 (27.0, 54.9)
      *n=20 did not have measurable disease per IRC and were not included in the IRC REP; [†]2 CR;[ ‡]4 CR;[ §]13 CR; [‖]non-measurable disease classified as CR, non-CR/non-PD or PD; NE=not evaluable/estimable

      Conclusion:
      Alectinib demonstrated durable responses, encouraging OS findings, good tolerability and an acceptable safety profile consistent with previous reports in this update of the NP28761 study with extended follow-up.

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    MA14 - Immunotherapy in Advanced NSCLC: Biomarkers and Costs (ID 394)

    • Event: WCLC 2016
    • Type: Mini Oral Session
    • Track: Advanced NSCLC
    • Presentations: 1
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      MA14.03 - The Impact of Genomic Landscape of EGFR Mutant NSCLC on Response to Targeted and Immune Therapy (ID 6242)

      16:00 - 17:30  |  Author(s): K.A. Gold

      • Abstract
      • Presentation
      • Slides

      Background:
      EGFR mutations define a distinct subset of NSCLC characterized by clinical benefit from tyrosine kinase inhibitors. The impact of genomic alterations that coexist with EGFR mutations is not fully understood. In addition, the responsiveness of EGFR mutant NSCLC to immune checkpoint blockade is not well defined.

      Methods:
      We queried our prospectively collected MD Anderson Lung Cancer Moon Shot GEMINI Database to identify EGFR mutant NSCLC patients. We analyzed the genomic landscape of these tumors derived from next generation sequencing, performed as part of routine clinical care, to comprehensively describe the concurrent genomic aberrations in EGFR mutant NSCLC and their impact on clinical outcomes. We used log rank and Fisher’s exact tests to identify associations between co-concurrent mutations and clinical outcomes.

      Results:
      1958 non-squamous NSCLC patients were identified in the GEMINI database. The frequency of EGFR mutations was 14.1% (n=276). Among EGFR mutant patients, 188 underwent targeted next generation sequencing of a minimum of 46 cancer related genes. The majority of EGFR mutant patients (77.6%, n=146) had at least one coexisting mutation. The most frequent co-mutations identified were TP53 (47%, n=88), CTNNB1 (7.5%, n= 14) and PIK3CA (6.5%, n=12). ALK and ROS1 translocations were found to coexist with EGFR mutations in one patient each. Of patients treated with a first or second generation TKI, concurrent TP53 mutations were associated with a shorter progression free survival (HR= 1.81, P= 0.039). Eight patients with EGFR/CTNNB1 co-mutations developed acquired TKI resistance with T790M secondary mutation being the resistance mechanism in six (75%) of them suggesting that coexisting mutation can dictate emerging resistance mechanisms. Twenty patients were treated with anti PD1/PD-L1 agents (nivolumab n= 18, pembrolizumab n=2). Only two (10%) patients achieved confirmed radiological response, one lasting for 6 months and the second ongoing at 6 months. Both patients were never smokers, one with EGFR exon 20 insertion and no concurrent mutations, and the other with EGFR exon 19 deletion and TP53 mutation. Sixteen patients developed confirmed progressive disease. Finally, one patient with 17 pack-year smoking history, EGFR G719/S768I double mutation and concurrent PIK3CA mutation achieved stable disease lasting for four months. The median progression free survival for the cohort treated with immunotherapy was 2 months (range: 1-not reached).

      Conclusion:
      Concurrent genomic aberrations may predict response duration to TKIs and may be associated with particular emerging resistance mechanisms to TKIs in EGFR mutant NSCLC. Immunotherapy results in durable clinical benefit in a subset of EGFR mutant NSCLC patients.

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    OA08 - Targeted Therapies in Brain Metastases (ID 381)

    • Event: WCLC 2016
    • Type: Oral Session
    • Track: Advanced NSCLC
    • Presentations: 1
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      OA08.06 - Brigatinib Activity in Patients with ALK+ NSCLC and Intracranial CNS Metastases in Two Clinical Trials (ID 4374)

      16:00 - 17:30  |  Author(s): K.A. Gold

      • Abstract
      • Presentation
      • Slides

      Background:
      Patients treated with crizotinib often experience disease progression in the brain. Brigatinib, an investigational next-generation ALK inhibitor, is being evaluated in an ongoing phase 1/2 trial (Ph1/2) and an ongoing pivotal phase 2 trial (ALTA).

      Methods:
      In Ph1/2, patients with advanced malignancies, including ALK+ NSCLC, received 30–300 mg brigatinib per day. In ALTA, patients with crizotinib-resistant advanced ALK+ NSCLC received 90 mg qd (arm A) or 180 mg qd with a 7-day lead-in at 90 mg (arm B). Efficacy (in both trials) and safety (in ALTA) are reported for ALK+ NSCLC patients with brain metastases at baseline.

      Results:
      In Ph1/2 and ALTA, 50/79 (63%; IRC-assessed) and 154/222 (69%; investigator-assessed) of ALK+ NSCLC patients, respectively, had baseline brain metastases. In Ph1/2 (n=50), median age was 53 years, 76% received prior chemotherapy, and 8% were crizotinib-naive. In ALTA (n=154), median age was 52 years; 75% received prior chemotherapy. As of November 16, 2015, 25/50 (50%) patients were receiving brigatinib in Ph1/2; as of February 29, 2016, 101/154 (66%) patients were receiving brigatinib in ALTA. For patients with measurable lesions, confirmed iORR was 53% in Ph1/2 and 42%/67% in ALTA A/B (Table). Among patients with only nonmeasurable lesions (Ph1/2, n=31; ALTA A/B, n=54/n=55), 35% had confirmed complete resolution of lesions in Ph1/2; 7%/18% had confirmed complete resolution in ALTA A/B. For all evaluable patients with baseline brain metastases, median intracranial PFS was 15.6 months in Ph1/2 (n=46) and 15.6/12.8 months in ALTA A/B (n=80/n=73). Most common treatment-emergent adverse events in ALTA in patients with baseline brain metastases (n=151 treated): nausea (A/B, 32%/43%), headache (30%/30%), diarrhea (18%/36%), cough (21%/30%), vomiting (25%/26%); grade ≥3 (excluding neoplasm progression): increased blood CPK (1%/11%), hypertension (4%/7%), increased lipase (3%/3%), pneumonia (1%/4%).

      Conclusion:
      Brigatinib has demonstrated substantial clinical activity in ALK+ NSCLC patients with brain metastases in both Ph1/2 and ALTA.

      IRC-Assessed Confirmed Intracranial Response Rates for Patients With Measurable Brain Metastases at Baseline
      Any No rad/active[a]
      Ph1/2[b] n=15 n=9
      iORR 8(53) 6(67)
      iDCR 13(87) 8(89)
      ALTA[c]
      Arm A n=26 n=19
      iORR 11(42) 8(42)
      iDCR 22(85) 16(84)
      Arm B n=18 n=15
      iORR 12(67) 11(73)
      iDCR 15(83) 14(93)
      Data are n(%) iDCR=intracranial disease control rate iORR=intracranial objective response rate IRC=independent review committee [a]No prior brain radiotherapy (Ph1/2); active (untreated or treated and progressed) brain lesions (ALTA) [b]NCT01449461; last scan date: October 8, 2015 [c]NCT02094573; last scan date: April 14, 2016


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