OCU Andrew Ko PPT - SFBAONS Membership Update
Transcription
OCU Andrew Ko PPT - SFBAONS Membership Update
What’s New in Gastrointestinal Cancers? Pancreatic cancer: The past, present and future Andrew H. Ko, MD Division of Hematology/ Oncology GI Malignancies Program, UCSF Estimated new cancer cases and deaths, United States, 2014 (Siegel, CA Cancer J Clin 2014;64:9-29) Estimated new cases Estimated deaths Esophagus 18,170 15,450 Stomach 22,220 10,990 Small intestine 9,160 1,210 Colon 96,830 50,310 Rectum 40,000 Anus 7,210 950 Liver/intrahepatic bile duct 33,190 23,000 Gallbladder and other biliary 9,810 3,630 Pancreas 46,420 39,590 Other digestive 5,760 2,130 Total digestive system 289,610 147,260 Overall total 1,665,540 585,720 Stage Stage classification classification Localized Localized BORDERLINE Locally RESECTABLE advanced/ Locally unresectable advanced/ unresectable Metastatic Metastatic % % at at diagnosis diagnosis 8 8 5-year 5-year survival survival ? 31 ? 8% 31 8% 61 61 2% 2% 20% 20% Point #1: Current therapies for pancreatic cancer produce survival times of often greater than one year, even for patients with metastatic disease. Treatment of Metastatic Disease: Moving Beyond Gemcitabine Monotherapy • Gemcitabine originally approved in 1997 for first-line therapy of advanced PDAC – Median survival (vs. bolus 5-FU): 5.65 vs. 4.41 months (p=0.0025) – 1-year survival: 18% vs. 2% – Clinical benefit response: 23.8% vs. 4.8% ** – RR 5.4% vs. 0% Survival with treatment with gemcitabine and 5-FU gemcitabine 5-FU ** Composite of performance status, weight change, and analgesic requirement. Burris et al, J Clin Oncol 1997. Previous phase III trials in advanced pancreatic cancer # Patients Overall Survival Control arm (gemcitabine alone) Overall Survival Study arm (combined) Gemcitabine + cisplatin 192 6.0 months 7.5 months Gemcitabine + oxaliplatin 313 7.1 months 9.0 months Gemcitabine + 5-FU 322 5.4 months 6.7 months Gemcitabine + capecitabine 533 6.2 months 7.1 months Gemcitabine + pemetrexed 565 6.3 months 6.2 months Gemcitabine + irinotecan 360 6.6 months 6.3 months Gemcitabine + tipifarnib 688 6.3 months 6.0 months Gemcitabine + erlotinib 569 6.0 months 6.4 months Gemcitabine + bevacizumab 602 6.1 months 5.8 months Gemcitabine + cetuximab 735 5.9 months 6.4 months Gemcitabine + axitinib 632 8.3 months 8.5 months Gemcitabine vs.: FOLFIRINOX emerges as a new gold standard: Results of the PRODIGE 4/ACCORD 11 Trial Gemcitabine (n=171) 1,000 mg/m2 weekly x 7 of 8, then weekly x 3 of 4 Metastatic PDAC Stratified by ECOG PS (0 vs. 1), center, tumor location (head vs. other) FOLFIRINOX (n=171) Oxaliplatin 85 mg/m2 Irinotecan 180 mg/m2 leucovorin 400 mg/m2 5-FU bolus 400 mg/m2, then 2,400 mg/m2 infusional over 46 hours 6 months of chemo planned for each arm Conroy et al, NEJM 2011. Demographics: Representative of Real-World Population? Characteristic FOLFIRINOX (n=171) Gemcitabine (n=171) Age (median) 61 y.o. 61 y.o. 0 37.4% 38.6% 1 61.9% 61.4% 2 0.6% 0% Head 39.2% 36.8% Body 31.0% 33.9% Tail 26.3% 26.3% 15.8 / 84.2% 12.9 / 87.1% ECOG PS Tumor location Biliary stent – yes/no Conroy et al, NEJM 2011. Efficacy Results FOLFIRINOX Gemcitabine ORR 31.6% 9.4% Median PFS 6.4 months 3.3 months Median survival* 11.1 months 6.8 months 1 year survival 48.4% 20.6% * HR 0.57, p<0.001. Median follow-up = 26.6 months Conroy et al, NEJM 2011. Survival Curves Showing Benefit of FOLFIRINOX vs. Gemcitabine Conroy et al, NEJM 2011. Safety and Toxicity Results Event FOLFIRINOX (n=171) Gemcitabine (n=171) P value Neutropenia 45.7%* 21.0% < 0.001 Febrile neutropenia 5.4% 1.2% 0.03 Thrombocytopenia 9.1% 3.6% 0.04 Fatigue 23.6% 17.8% NS Vomiting 14.5% 8.3% NS Diarrhea 12.7% 1.8% < 0.001 Sensory neuropathy 9.0% 0.0% <0.001 Hematologic Non-hematologic *No 1o prophylaxis with G-CSF, but 42.5% on FOLFIRINOX used at some point. Conroy et al, NEJM 2011. QoL Assessment on FOLFIRINOX Study • Time until definitive deterioration >20 points, EORTC-C30 global health STATUS/QoL questionnaire Prolongation of QoL in patients treated with FOLFIRINOX compared to gemcitabine, despite greater toxicity – longer time to deterioration in: – Global health score – Physical, cognitive, and social functioning – Symptoms such as fatigue, N/V, pain, and anorexia Gourgou-Bourgade et al, J Clin Oncol 2013. A second new first-line option for metastatic pancreatic cancer: Gemcitabine/nab-Paclitaxel ALBUMIN-BOUND PACLITAXEL www.drugdiscovery.com Phase III trial (MPACT) in Advanced Pancreatic Cancer Pancreatic cancer (locally advanced or metastatic) N = 861 Gemcitabine 1,000 mg/m2 weekly x 7 of 8 (cycle 1), then weekly x 3 of 4 (cycle 2 and subsequent cycles) Von Hoff et al, NEJM 2013. Stratification by KPS, region, liver metastases Gemcitabine 1,000 mg/m2 plus nab-paclitaxel 125 mg/m2 weekly x 3 of 4 Study Results: Efficacy Gemcitabine/ nab-paclitaxel (n=431) Gemcitabine (n = 430) 8.5 months 6.7 months 35% 22% 5.5 months 3.7 months 6-month PFS 44% 25% Response rate 23% 7% Treatment duration 3.9 months (range, 0.1-21.9) 2.8 months (range, 0.1-21.5) 80.6% 75.2% --84.6% Overall survival One-year survival Progression-free survival % protocol dose - nab-paclitaxel - Gemcitabine Von Hoff et al, NEJM 2013. HR 0.72 (p<0.001) HR 0.69 (p<0.001) p<0.001 Gemcitabine/nab-Paclitaxel Confers Improvement in Overall Survival Von Hoff et al, NEJM 2013. Study Results: Safety Grade 3/4 AEs Gemcitabine/ Nab-paclitaxel Gemcitabine Neutropenia 38% 27% Febrile neutropenia 3% 1% Received growth factors 26% 15% Thrombocytopenia 13% 9% Fatigue 17% 7% Peripheral neuropathy 17% 1% Diarrhea 6% 1% Von Hoff et al, NEJM 2013. Comparison: FOLFIRINOX vs. Gemcitabine/nab-Paclitaxel phase III trials FOLFIRINOX Gemcitabine/nab-paclitaxel Sample size 342 861 Locations France N America, Eastern + Western Europe, Australia Eligibility criteria, PS ECOG 0-1 KPS 70-100 % head/non-head (location) 39%/61% 44%/56% Survival, median (months) % at one-year 11.1 months 48% 8.5 months 35% Toxicity (grade 3/4) Fatigue 23.6% Neutropenia 45.7% Fatigue 17% Neutropenia 38% QoL data? Yes No 1. Will (or should) a head-to-head comparison between these two regimens ever be performed? 2. Can we now start thinking about sequencing regimens in pancreatic cancer? 3. Are these regimens appropriate to use in earlier-stage (e.g. adjuvant) settings? Point #2: Although we have an expanding array of therapeutic options for advanced pancreatic cancer, currently there is NO established standard of care for patients who have progressed on first-line treatment – but some intriguing possibilities are coming down the pike. 1st line Gemcitabine-based (e.g. gemcitabine, gem/erlotinib, gem/nab-paclitaxel) FOLFIRINOX 2nd line (PS 0-1): FOLFOX, CapOx, maybe FOLFIRINOX (PS 2 or less): Capecitabine; BSC (PS 0-1): Gemcitabine/nabpacitaxel (PS 2 or less): Gemcitabine monotherapy; BSC 3rd line Current approach in treatment sequencing for advanced pancreatic cancer (PS 0-1): Irinotecan-based regimen if no prior exposure ?? Regimen for refractory advanced pancreatic cancer Sample Median PFS/TTP size (months) Median OS (months) OFF (oxaliplatin, 5-FU, folinic acid)1 76 3.0 6.1 FOLFOX2 46 3.7 5.8 CapOx3 41 2.3 5.4 FOLFIRI4 63 3.0 6.6 Irinotecan5 56 2.9 5.3 Capecitabine6 39 2.3 7.6 MM-398 (nanoliposomal CPT11)7 40 2.4 5.2 Erlotinib8 50 1.6 4.1 Capecitabine/erlotinib9 30 3.4 6.5 Sunitinib10 77 1.3 3.7 Selumetinib/erlotinib11 46 1.9 7.5 1. Pelzer, J Clin Oncol 2008 (abstract); 2. Berk, Hepatogastroent 2012; 3. Xiong, Cancer 2008; 4. Neuzillet, World J Gastroent 2012; 5.Takahara, Cancer Chemother Pharmacol 2013; 6. Boeck, Oncology 2007; 7. Ko, Br J Cancer 2013; 8. Tang, J Clin Oncol 2009 (abstract); 9. Kulke, J Clin Oncol 2007; 10. O’Reilly, Oncologist 2010; 11. Ko, J Clin Oncol 2013 (abstract). Novel Drugs in Development for Advanced/Metastatic Pancreatic Cancer • Next-generation cytotoxic agents – Example: MM-398 (nanoliposomal irinotecan) • Novel signaling pathway inhibitors – Example: Ruxolitinib (JAK-STAT inhibitor) • Immunotherapeutic approaches – Example: CRS-207 (attenuated Listeria vaccine) Novel Cytotoxic Agents: MM-398 Taking the old, and making it better A • Novel nanoliposomal encapsulation of irinotecan with improved pharmacokinetics and tumour bio-distribution Drummond et al, Cancer Res 2006 Phase III NAPOLI-1 Trial (NCT01494506) Metastatic pancreatic cancer N = 417 s/p gemcitabine-based chemotherapy MM-398 (120 mg/m2 q3 weeks IV) Stratified by: - Baseline albumin - KPS - Ethnicity 5-FU (2000 mg/m2 IV x 24 hrs) 5-FU (2400 mg/m2 IV x 46 hrs) + LV 400 mg/m2 IV) LV (200 mg/m2 IV) + MM-398 (80 mg/m2 IV) Weekly x 4 of 6 weeks Every 2 weeks Primary endpoint: overall survival Phase III NAPOLI-1 trial results 5-FU/LV MM-398 MM-398 + 5-FU/LV ORR 1% 6% 16% CA19-9 decline > 50% 12% 31% 36% Von Hoff, ESMO World Congress on GI Cancer, 2014 (abstract) Where will MM-398 fit into the treatment paradigm for advanced PDAC? • Currently under review for FDA approval – would be the first agent indicated for use in the salvage setting for metastatic pancreatic cancer • Is newer really better? – How much better is MM-398/5-FU/LV compared to, say, FOLFIRI? • How will a drug in this setting be priced? What is the cost value relative to clinical benefit? Seeking novel targets in pancreatic cancer Figure adapted from Ryan DP, N Engl J Med 2010 Enter ruxolitinib, an inhibitor of JAK-STAT signaling • Janus kinases (JAKs): mediate cytokine signaling by activating STAT transcription factors Inflammatory Cytokines • Persistent activation of Stat3 is oncogenic and prevalent in many solid tumors1 • In mouse models of pancreatic cancer, JAKSTAT signaling is required for cancer progression2 and contributes to cancerrelated cachexia3 • Pancreatic cancer: clinical hallmarks of weight loss, cachexia, anorexia all reflect systemic inflammation JAK1 JAK2, JAK3,TYK2 P P STAT • Ruxolitinib reduced levels of inflammatory cytokines and improved symptoms and 1) Hedvat, Cancer Cell 2009. 2) Lesina Cancer Cell. 2011; 4-5 3) Gilabert, J Cell Physiol 2014; 4) Verstovsek S, N Engl J Med 2012; overall survival in myelofibrosis 28 5) Harrison C, et al. N Engl J Med 2012. RECAP study design Patient Eligibility • Histologically confirmed metastatic PDAC • Karnofsky PS ≥60 • Failed gemcitabine R A N D O M I Z E D n=64 Ruxolitinib (15 mg BID, days 1–21) Capecitabine (1000 mg/m2 BID, days 1– 14) 1:1 Placebo (BID, days 1–21) n=63 Capecitabine (1000 mg/m2 BID, days 1– 14) Endpoints • Primary: OVERALL SURVIVAL • Secondary: Clinical benefit response, ORR (RECIST), PFS, QoL, safety • Prospectively defined subgroup analyses, including C-reactive protein, albumin, and performance status, were conducted to explore an inflammation hypothesis Entire study population (n=127) Med OS 136.5 v 129.5 days 6-mo surv 42% v 35% HR 0.79 (p=0.25) CRP > 13 mg/L (n=60) Med OS 83 v 55 days 6-mo surv 42% vs 11% HR 0.47 (p=0.01) Is C-reactive protein a reasonable predictive biomarker? • C-reactive protein Well-characterized and sensitive marker of systemic inflammation and tissue damage • First acute-phase protein to be described (originally identified in serum of patients with Strep pneumoniae – precipitates the somatic C-polysaccharide of bacteria) • Classic examples in predictive biomarkers in cancer therapy: HER2 trastuzumab; KRAS cetuximab; BRAF vemurafenib • Advantage sof CRP: • Blood-based rather than tissue-based • Separate companion diagnostic test would not need to be developed! Dancey, Clin Cancer Res 2010. Objective response rate (ORR) and clinical benefit response (CBR) Ruxolitinib + Cape Placebo + Cape ITT, n (%) Overall response (CR + PR) CR PR Stable disease (SD) 64 63 5 (7.8) 1 (1.6) 4 (6.3) 21 (32.8) 1 (1.6) 0 1 (1.6) 22 (34.9) Disease control (CR + PR + SD) 26 (40.6) 23 (36.5) Clinical benefit response* 8 (12.5) 1 (1.6) 31 29 Overall response (CR + PR) CR PR 2 (6.5) 0 2 (6.5) 1 (3.4) 0 1(3.4) Stable disease (SD) 9 (29.0) 5 (17.2) Disease control (CR + PR + SD) 11 (35.5) 6 (20.7) Clinical benefit response* 6 (19.4) 1 (3.4) CRP > 13 mg/L, n (%) 32 * Composite of pain, weight, and performance status Grade 3 or 4 Adverse Events Adverse event, n (%) Ruxolitinib + Cape (n = 59) Placebo + Cape (n = 60) Mean exposure, days 99.6 67.4 Anemia 9 (15.3) 1 (1.7) Thrombocytopenia 1 (1.7) 2 (3.3) 0 1 (1.7) 44 (74.6) 49 (81.7) Neutropenia Patients with any grade ≥ 3 AE 33 Recapping RECAP • Smart trial design and drug development strategy! Start with enrollment of broader, unselected patient population, but with pre-planned analysis of subgroup(s) of interest (those with higher levels of systemic inflammation as reflected by elevated CRP levels) Phase III registrational trials (JANUS-1 and -2) now ongoing, limited to this select subgroup of patients • Survival benefit of ruxolitinib may relate to alleviating cachexia and inanition, as much as reducing tumor burden Immunotherapy Platforms in Pancreatic Cancer GVAX Pancreas Irradiated, whole-cell tumor vaccine GVAX CRS-207 (Aduro Biosciences) Live-attenuated Listeria monocytogenes • Dendritic Cell GM-CSF Potent activation of innate and antigenspecific immune response ΔactA ΔinlB Tumor antigens Antigen uptake & Activation Tumor Cell Destruction T Cell Le et al, Gastrointestinal Cancers Sympsosium 2014. - Deletion of virulence genes (actA, inlB) - Insertion of mesothelin expression cassette – validated immune target Phase 2 Study of GVAX/CRS-207 vs. GVAX Alone in Metastatic Pancreatic Cancer CY/GVAX CRS-207 Arm A, n=60 24 months follow-up Subjects with metastatic pancreatic cancer; failed or refused chemotherapy R R 20-wk treatment Course*: 6 doses, q3w 2:1 Arm B, n=30 randomization 24 months follow-up Primary objective: overall survival Le et al, Gastrointestinal Cancers Sympsosium 2014. * Additional courses if clinically stable Overall Survival – Full Analysis Set Median OS, Full analysis set: Arm A: 6.0 months Arm B: 3.4 months p=0.0057, HR 0.4477 Median OS, Per-protocol set (subjects receiving at least one dose of CRS-207): Arm A: 9.7 months Arm B: 4.6 months p=0.0167, HR 0.5290 Toxicities related to CRS-207: transient fevers, rigors, lymphopenia Phase II ECLIPSE Trial (NCT02004262) (Recruiting) Metastatic pancreatic cancer s/p 1+ prior lines of rx (Stratified: 2nd line vs. 3rd-plus line) GVAX/Cy (weeks 1, 4) CRS-207 (weeks 7, 10, 13, 16) CRS-207 (weeks 1, 4, 7, 10, 13, 16) Single-agent chemotherapy (Physician’s choice) Primary endpoint = overall survival Point #3: As is frequently the case in oncology, more does not always mean better in pancreatic cancer (case in point: radiation). Locally advanced pancreatic cancer: unresolved questions WHAT WE KNOW WHAT WE STILL DON’T KNOW ChemoRT is superior to RT alone1 (GITSG 1981) Does radiation improve patient outcomes? Biology and outcomes are If so, when should it be given? different from those with Most studies to date have examined metastatic disease – initial chemoRT, with very mixed should be studied in results3-6 separate clinical trials, or There may be a better rationale for stratified within a given delaying radiation until later7 Greatest impact on patient survival: eradicating study2 micrometastatic disease Select out patients who develop metastases during initial chemotherapy, avoid morbidities associated with radiation (13-35% in select series)7-10 1. Moertel, Cancer 1981; 2. Philip, J Clin Oncol 2009; 3. J Natl Cancer Instit 1988; 4. Klaassen, J Clin Oncol 1985; 3:373. 5. Chauffert, Ann Oncol 2008; 6. Loehrer, J Clin Oncol 2011; 7. Huguet, J Clin Oncol 2007; 8. Ko, Int J Radiat Oncol Biol Phys 2007; 9. Crane, J Clin Oncol 2011; 10. Mukherjee, Lancet Oncol 2013. LAP-07 was the largest trial conducted for patients with locally advanced pancreatic cancer MEDIAN OS 16.4 mos MEDIAN PFS 8.4 mos After 4 months: 442 enrolled, received induction chemotherapy (gemcitabine +/erlotinib) 136 continued with chemo alone 269 randomized 133 went on to receive chemoRT 173 dropped out (mainly due to progressive dz) Hammel, J Clin Oncol 2013, 31 (suppl):LBA 4003. MEDIAN OS 15.2 mos MEDIAN PFS 9.9 mos Updated LAP-07 data reveal other differences in patient outcomes when radiation is given Patterns of progression Chemotherapy (n= 125) Chemoradiation (n= 111) Local progression only 58 (46%) 35 (32%) Metastatic progression 55 (44%) 67 (60%) Non-evaluable 12 (10%) 9 (8%) Median time without treatment Chemotherapy (n= 101) Chemoradiation (n= 81) 3.2 months 5.2 months Implications here that better local control, as well as more time off therapy, may translate into better QoL -- but this assumption not confirmed by patient-reported outcomes (PRO) Implications/unresolved issues of LAP-07 • Do we conclude from this study that radiation should or should not be routinely given to patients with locally advanced pancreatic cancer? Do more effective systemic therapies (FOLFIRINOX, gemcitabine/nab-paclitaxel) attenuate, or accentuate, any survival benefit that radiation might offer? As chemotherapy improves to better sterilize distant disease, locoregional control with RT may become more important… but only up to a point Beyond this point, chemorx can control both distant and locoregional disease therefore, importance of RT would decline Marks and Prosnitz, Int J Rad Onc Bio Phys, 2000; 48:625-27. Finding the ‘sweet spot’ where both chemotherapy and radiation impact overall survival Locally advanced pancreatic cancer Could FOLFIRINOX, or gemcitabine/nabpaclitaxel, be here on the curve? Or here? Gemcitabine/erlotinib Punglia et al, N Engl J Med 2007;356:2399-405. Other recent examples in GI oncology demonstrating this principle that more does not always equal better • Use of EGFR inhibitors (cetuximab, panitumumab) in metastatic colorectal cancer – Expanded KRAS testing shows that we may still be overtreating some patients with this class of agents who are unlikely to benefit! • Adjuvant sorafenib in hepatocellular carcinoma – No benefit yet identified in patients following resection, ablation, or embolization Ciardello, J Clin Oncol 2014 (suppl); 32:5s, abstr 3506;. Bokemeyer, J Clin Oncol 2014 (suppl); 32:5s, abstr 3505. Bruix, J Clin Oncol 2014 (suppl) 32:5s, abstr 4006. Lencioni, J Clin Oncol 2012 (suppl); 30:4, abstr LBA154).