On December 10, 2017 ZIOPHARM Oncology, Inc. (Nasdaq:ZIOP), a biopharmaceutical company developing new gene and cell-based immunotherapies for cancer, reported data supporting its non-viral approach to rapid manufacture of chimeric antigen receptor (CAR)-modified T cells to treat patients with cancers were presented at the 59th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition in Atlanta (Press release, Ziopharm, DEC 10, 2017, View Source [SID1234522501]).

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ZIOPHARM is advancing its non-viral Sleeping Beauty (SB) platform towards point-of-care (P-O-C) for very rapid manufacturing of genetically modified CAR+ T cells. Data presented from first- and second-generation SB clinical trials demonstrate safety, tolerability, disease response, long-term survival, and persistence of infused CD19-specific CAR+ T cells. Preclinical studies showed that P-O-C CAR+ T cells co-expressing membrane-bound interleukin-15 (mbIL15) and a control switch manufactured within two days do not require activation or propagation in tissue culture to achieve anti-tumor effects and prolonged T-cell survival. Building on these data, the Company plans to initiate its first P-O-C clinical trial in 2018.

"Together, these results underpin the paradigm-shifting potential of our P-O-C platform by demonstrating the persistence of our Sleeping Beauty-modified T cells, optimization of the CAR, and pro-survival effect resulting from mbIL15 expression. This reinforces our plans to deliver genetically modified products in less than two days," said Laurence Cooper, M.D., Ph.D., Chief Executive Officer of ZIOPHARM Oncology. "The need for a non-viral approach for commercialization of cell therapy is becoming increasingly evident as the challenges of lengthier, more complex, and more expensive viral-based approaches are scaled up. We look forward to advancing Sleeping Beauty and our P-O-C approach with the goal of producing genetically modified T cells to fight cancers at a fraction of current costs and manufacturing time."

These ASH (Free ASH Whitepaper) presentations are based on clinical trials and research being conducted in collaboration with The University of Texas MD Anderson Cancer Center and Intrexon Corporation (NYSE:XON). The three posters and slides for one oral presentation are available in the Presentations and Publications section of the Company’s website, www.ziopharm.com.

Poster Presentation: "Long Term Follow up after Adoptive Transfer of CD19-Specific CAR+ T Cells Genetically Modified Via Non-Viral Sleeping Beauty System Following Hematopoietic Stem-Cell Transplantation (HSCT)"

Partow Kebriaei, M.D., Professor, Department of Stem Cell Transplantation & Cellular Therapy, The University of Texas MD Anderson Cancer Center, presented updated results, building upon findings previously published in the Journal of Clinical Investigation. Two trials demonstrated that first-generation SB-modified CD19-specific CAR+ T cells appear to provide long-term cancer control when infused after hematopoietic stem-cell transplantation (HSCT) for patients with advanced CD19+ malignancies and could be detected years after administration in some recipients. All seven patients with advanced CD19+ non-Hodgkin’s lymphoma (NHL) that received autologous T cells were alive at a median survival of 40 months since infusion, with progression-free survival (PFS) reported at 86% and overall survival (OS) at 100%. For 19 patients with advanced CD19+ acute lymphoblastic leukemia (ALL) and NHL infused with allogeneic T cells following HSCT, nine patients were alive with a median survival of 31 months. The PFS rate and OS rates are 32% and 49%, respectively. Of the subset of eight patients who received donor-derived T cells after haploidentical HSCT, PFS and OS rates are 50% and 63%, respectively. Persistence of circulating SB-modified CAR+ T cells was demonstrated at two years in an autologous and allogeneic patient and for four years in two autologous patients.

Oral Presentation: "Shortening the Time to Manufacture CAR+ T Cells with Sleeping Beauty System Supports T-Cell Engraftment and Anti-Tumor Effects in Patients with Refractory CD19+ Tumors"

Dr. Kebriaei presented interim data from an ongoing second-generation trial demonstrating that the manufacture of SB-modified T cells could be shortened from four weeks to two weeks and that autologous T cells infused after lymphodepleting chemotherapy could be detected, and exhibited anti-tumor effects and an encouraging safety profile in patients with relapsed/refractory CD19+ malignancies. Complete responses at one month were reported in four of eight patients with either ALL (n=5), chronic lymphocytic leukemia (n=1), or diffuse large B-cell lymphoma (n=2), with two morphologic complete responses at three months. Follow up blood tests demonstrated sustained persistence of infused T cells and targeting of malignant and normal B cells. There were no dose limiting toxicities with only grade 1 or 2 adverse events being reported. T-cell dose escalation continues.

Poster Presentation, "CD19-Specific Chimeric Antigen Receptor-Modified T Cells with Safety Switch Produced Under ‘Point-Of-Care’ Using the Sleeping Beauty System for the Very Rapid Manufacture and Treatment of B-Cell Malignancies"

Rutul Shah, interim Head of Operations, Intrexon Human Therapeutics, presented preclinical findings showing T cells expressing CD19-specific CAR, mbIL15, and control (safety) switch were generated under P-O-C using the SB system. These T cells were manufactured in less than two days and did not require ex vivo activation or propagation and demonstrated potent anti-tumor effect and sustained CAR+ T-cell persistence in mice. These data support clinical evaluation of genetically modified T cells very rapidly manufactured using the SB system.

Poster Presentation, "Autologous T Cells Modified to Co-express CD33-Specific Chimeric Antigen Receptor and a Kill Switch for Treatment of CD33+ Acute Myeloid Leukemia"

Tim Chan, PhD, Senior Director, Intrexon Human Therapeutics, presented preclinical data supporting an ongoing Phase 1 study of CD33-specific CAR+ T-cell therapy for the treatment of relapsed or refractory acute myeloid leukemia. In vitro analyses demonstrated that CAR+ T cells exhibited redirected specificity for CD33. Co-expression of a kill switch was shown to eliminate CAR+ T cells by cetuximab-mediated antibody-dependent cellular cytotoxicity both in vitro and in vivo.

On December 10, 2017 Verastem, Inc. (NASDAQ: VSTM), focused on discovering and developing drugs to improve the survival and quality of life of cancer patients, reported the presentation of the results from the Phase 3 DUO study evaluating the efficacy and safety of duvelisib in patients with relapsed or refractory chronic lymphocytic leukemia (CLL)/small lymphocytic lymphoma (SLL) at the American Society of Hematology (ASH) (Free ASH Whitepaper) 2017 Annual Meeting held December 9-12, 2017 in Atlanta (Press release, Verastem, DEC 10, 2017, View Source;p=RssLanding&cat=news&id=2321965 [SID1234522500]). Duvelisib is a first-in-class oral dual inhibitor of phosphoinositide-3-kinase (PI3K)-delta and PI3K-gamma which is currently being developed for the treatment of CLL/SLL and follicular lymphoma (FL). In addition, duvelisib is being studied in other hematologic malignancies including peripheral T cell lymphoma (PTCL).

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"In the Phase 3 DUO study, oral duvelisib monotherapy achieved a statistically significant improvement in Progression-Free Survival (PFS) versus the approved standard of care treatment ofatumumab, along with a well characterized and manageable safety profile, in patients with previously treated CLL/SLL," said Ian Flinn, MD, PhD, Director of the Blood Cancer Research Program at Sarah Cannon Research Institute and lead investigator of the DUO study. "Similar PFS advantages were also observed across all analyzed patient subgroups, including patients with 17p deletion, a genotype that historically correlates with poorer clinical outcomes. Duvelisib also achieved a statistically significant improvement in Overall Response Rate (ORR) and significantly reduced lymph node burden in the vast majority of patients. These data are encouraging for patients with CLL/SLL who progress or relapse following initial treatment."
"CLL/SLL mostly affects elderly patients and many are unable or unwilling to be hospitalized or come into the clinic for frequent IV infusions. The CLL/SLL treatment landscape therefore is moving away from chemotherapies and toward more targeted, preferably oral regimens," said Diep Le, MD, PhD, Chief Medical Officer of Verastem. "While patients are living longer many will be intolerant to, or relapse following, their initial therapy emphasizing the need for new options. Oral duvelisib is the first PI3K inhibitor to show efficacy as an oral monotherapy in a randomized Phase 3 study in patients with relapsed or refractory CLL/SLL and may offer an appealing alternative for patients who have progressed or relapsed. We remain on track to submit a New Drug Application (NDA) to the U.S. Food and Drug Administration (FDA) during the first quarter of 2018 requesting full approval of duvelisib for the treatment of patients with relapsed or refractory CLL/SLL and accelerated approval for the treatment of patients with relapsed or refractory follicular lymphoma (FL)."

DUO Efficacy Results
The DUO study met its primary endpoint with oral duvelisib monotherapy achieving a statistically significant improvement in median PFS (mPFS) compared to ofatumumab in patients with relapsed or refractory CLL/ SLL per a blinded Independent Review Committee (IRC) using iwCLL or revised IWG Response Criteria (modified iwCLL/IWG; 13.3 months vs 9.9 months, respectively; HR=0.52; p<0.0001), representing a 48% reduction in the risk of progression or death. Similar efficacy of duvelisib was observed regardless of whether patients had 17p deletion (del[17p]). The primary outcome of mPFS via IRC review in the del[17p] subpopulation significantly favored duvelisib over ofatumumab (12.7 months vs 9.0 months, respectively; HR=0.41; p=0.0011), representing a 59% reduction in the risk of progression or death. Per investigator assessment, duvelisib demonstrated a mPFS of 17.6 months, compared to 9.7 months for ofatumumab (HR=0.40, p<0.0001). Duvelisib maintained a PFS advantage in all patient subgroups analyzed as a subset of pre-specified sensitivity analyses.

The secondary efficacy outcome of ORR via IRC assessment according to modified iwCLL/IWG, significantly favored duvelisib over ofatumumab (73.8% vs 45.3%, respectively; p<0.0001), and reduced lymph node burden >50% in most patients vs ofatumumab (85% vs 16%). In the del[17p] subpopulation of patients, ORR was also significantly higher for duvelisib compared to ofatumumab, 70.0% versus 43.0%, respectively (p=0.0182). The Overall Survival (OS) in the ITT population was similar for those randomized to duvelisib and to ofatumumab during the study (HR=0.99; p=0.4807), demonstrating no detrimental effect on OS and was likely due to other available therapies following progression. Patients who progressed in the DUO study were given option to enroll in a crossover study to receive the opposite treatment. In the optional crossover study, 89 patients who were previously treated with ofatumumab in DUO and experienced disease progression were subsequently treated with duvelisib monotherapy. As in the parent DUO study, duvelisib demonstrated robust clinical activity in this crossover study with an ORR of 73%, a median duration of response of 12.7 months and a mPFS of 15 months by investigator assessments.

DUO Safety Results
Duvelisib monotherapy demonstrated a manageable safety profile, with results from this study consistent with the well-characterized safety profile of duvelisib monotherapy in patients with advanced hematologic malignancies in previous studies. For duvelisib-treated patients, the median time on treatment was 50.3 weeks (range, 0.9 – 160.0) compared to 23.1 weeks (range, 0.1 – 26.1) for ofatumumab. The most common Grade ≥3 treatment-emergent hematologic adverse events (occurring in >10% of patients) were neutropenia (30%) and anemia (13%). The most common Grade ≥3 non-hematologic treatment-emergent adverse events (occurring in >10% of patients) were diarrhea (15%), pneumonia (14%) and colitis (12%). The rate of severe opportunistic infections was 6%, including 2 patients (1%) with Pneumocystis jirovecii pneumonia (PJP), neither of whom was on prophylaxis for PJP at the time of the event. 35% of patients discontinued duvelisib treatment due to an adverse event; ~40% of patients treated with duvelisib remained on treatment for over 18 months, with a median total follow-up of nearly 2 years. Adverse Events of Interest infrequently led to discontinuation of duvelisib treatment (e.g., diarrhea (5.1%), colitis (5.1%), pneumonitis (1.9%), neutropenia (1.3%), pneumonia (1.3%), transaminase elevations (0.6%), and rash (0.6%). Duvelisib treatment-related AEs leading to death (n=4) include general physical health deterioration (n=1); pneumonia staphylococcal (n=2) and sepsis (n=1)).

A copy of the DUO oral presentation will be available here following the conclusion of the session.
Regulatory Plan

Verastem plans to submit a NDA to the U.S. FDA requesting full approval of duvelisib for the treatment of patients with relapsed or refractory CLL/SLL, and accelerated approval for the treatment of patients with relapsed or refractory FL. The Company expects to submit the duvelisib NDA during the first quarter of 2018. Along with the clinical data from the DUO study, the duvelisib NDA submission will also contain the results from the Phase 2 DYNAMO study in patients with indolent non-Hodgkin’s lymphoma that are double-refractory to both rituximab and chemotherapy or radioimmunotherapy.

About the Phase 3 DUO Study Design
In the Phase 3 DUO study, 319 patients were randomized 1:1 to receive either duvelisib 25mg orally twice daily or ofatumumab monotherapy, an approved standard of care treatment for use in CLL/SLL, per its label with an initial infusion of 300 mg followed by 7 weekly infusions and 4 monthly infusions of 2,000 mg. In addition to the primary endpoint of PFS per IRC in the ITT population, additional analyses to evaluate the outcome in several patient subgroups, including those with 17p deletion CLL/SLL, a known poor prognostic subgroup, were also conducted. PFS and other efficacy endpoints were analyzed using response determinations per the IRC using modified iwCLL/IWG criteria.

Verastem to Host R&D Event and Webcast at ASH (Free ASH Whitepaper) 2017
On Sunday, December 10, 2017, Verastem will host a Research and Development event, which will feature a slide presentation and moderated panel discussion with recognized experts in the treatment of hematologic malignancies, including CLL/SLL, in a live Q&A session. Confirmed key opinion leader speakers include:
Ian Flinn, MD, PhD, Sarah Cannon Research Institute
Steven Horwitz, MD, Memorial Sloan Kettering Cancer Center
Lori Kunkel, MD, Verastem Clinical and Scientific Advisory Board; former CMO, Pharmacyclics
In addition, Steve Bloom, Verastem’s Chief Strategy Officer, will also participate, and Robert Forrester, Verastem’s President and Chief Executive Officer will moderate.
The event will take place during the ASH (Free ASH Whitepaper) 2017 annual meeting and interested parties can access a live webcast of the event beginning Sunday, December 10, 2017 at 8:15 p.m. ET on the "Presentations" page of the company’s website at View Source;p=irol-calendar. A replay of the webcast will be archived on the company’s website for 90 days following the event.

About Duvelisib
Duvelisib is a first-in-class investigational, dual inhibitor of phosphoinositide 3-kinase (PI3K)-delta and PI3K-gamma, two enzymes known to help support the growth and survival of malignant B-cells and T-cells. PI3K signaling may lead to the proliferation of malignant B- and T-cells and is thought to play a role in the formation and maintenance of the supportive tumor microenvironment.1,2,3 Duvelisib is currently being evaluated in late- and mid-stage extension trials, including DUO, a randomized, Phase 3 monotherapy study in patients with relapsed or refractory chronic lymphocytic leukemia (CLL)/small lymphocytic lymphoma (SLL),4 and DYNAMO, a single-arm, Phase 2 monotherapy study in patients with refractory indolent non-Hodgkin lymphoma (iNHL).5 Both DUO and DYNAMO achieved their primary endpoints and Verastem intends to submit a New Drug Application (NDA) requesting the full approval of duvelisib for the treatment of patients with relapsed or refractory CLL/SLL, and accelerated approval for the treatment of patients with relapsed or refractory follicular lymphoma (FL). Duvelisib is also being developed by Verastem for the treatment of peripheral T-cell lymphoma (PTCL), and is being investigated in combination with other agents through investigator-sponsored studies.6 Information about duvelisib clinical trials can be found on www.clinicaltrials.gov.

On December 10, 2017 Syros Pharmaceuticals (NASDAQ: SYRS), a biopharmaceutical company pioneering the discovery and development of medicines to control the expression of disease-driving genes, reported initial clinical data from its ongoing Phase 2 trial of SY-1425, its first-in-class oral, selective retinoic acid receptor alpha (RARα) agonist, in genomically defined subsets of patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS) (Press release, Syros Pharmaceuticals, DEC 10, 2017, View Source [SID1234522499]). The data are being presented at the 59th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition.

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"I’m encouraged with the single-agent activity and tolerability of SY-1425 in difficult-to-treat leukemia and MDS patients who have few treatment options," said Joseph G. Jurcic, Professor of Medicine at Columbia University Medical Center and Director of the Hematologic Malignancies Section of the Division of Hematology/Oncology. "We saw improved blood counts and reduced blast counts in conjunction with differentiation of cancer cells in genomically defined patients. These data, along with the mechanistic and preclinical data supporting combinations with azacitidine and with daratumumab, suggest SY-1425 could be a meaningful combination agent with the potential to address a substantial unmet need for patients with AML and MDS."

"The biologic and clinical activity seen in patients selected by our proprietary RARA and IRF8 biomarkers provide validation of our platform’s ability to enrich for patients most likely to respond to gene control therapies," said Nancy Simonian, M.D., Chief Executive Officer of Syros. "These data support continued development of SY-1425 in combination, which will be our focus going forward. Our preclinical data showing the tumor-killing activity of SY-1425 in combination with azacitidine and with daratumumab support the ongoing development of SY-1425 in combination with these therapies, and we plan to present initial clinical data on these two combinations in 2018."

Data from the Ongoing Phase 2 Clinical Trial
The ongoing Phase 2 clinical trial of SY-1425 is assessing the safety and efficacy as both a single agent and a combination agent in AML and MDS patients who are positive for either the RARA or IRF8 biomarkers, or both. The data being presented at ASH (Free ASH Whitepaper) are from two of the five cohorts in the ongoing trial. As of the data cutoff at the end of October 2017, 58 patients had been treated with SY-1425 in two single-agent cohorts, consisting of 29 patients in the relapsed or refractory AML and higher-risk MDS cohort and 29 patients in the lower-risk transfusion-dependent MDS cohort.

The relapsed or refractory AML and higher-risk MDS cohort had a median age of 72 years with more than half the patients having poor risk cytogenetics and 45% having two or more prior therapies, and the lower-risk MDS cohort had a median age of 76 years. Target enrollment has been reached in both cohorts.

Initial Safety Data

Chronic daily dosing of SY-1425 administered at 6 mg/m2 orally divided in two doses was generally well-tolerated, with a median treatment duration of 80 days, and patients treated up to eight months and remaining on study.
The majority of adverse events (AEs) were Grade 1 or Grade 2.
Across all grades and causality, the most commonly reported AEs included hypertriglyceridemia (36%), fatigue (31%), and dermatologic effects (28%).
The most common Grade 3 or 4 AE was hypertriglyceridemia (16%).
Initial Clinical Activity Data

As of the data cutoff, 48 patients were evaluable for response assessment, including 23 patients in the relapsed or refractory AML and higher-risk MDS cohort and 25 patients in the lower-risk transfusion-dependent MDS cohort.

Ten of the 23 (43%) evaluable relapsed or refractory AML and higher-risk MDS patients and two of the 25 (8%) evaluable transfusion-dependent lower-risk MDS patients had evidence of clinical activity, including:.
Nine with improvements in hematological parameters. Of those, four achieved hematological improvement lasting at least eight weeks, as defined by Revised International Working Group (IWG) criteria.
Five with reductions in bone marrow blasts. Of those, one relapsed or refractory higher-risk MDS patient achieved a marrow complete response as defined by IWG criteria. The patient had been on treatment 238 days and remained on treatment as of the data cutoff.
13 of the 23 (57%) evaluable relapsed or refractory AML and higher-risk MDS patients had stable disease.
11 of 13 (85%) of patients with pre- and post-treatment immunophenotyping samples showed increased expression of CD38, a marker of cell differentiation, on bone marrow blasts after one 28-day cycle of treatment.
No patients with lower-risk MDS achieved transfusion independence.
Additionally, myeloid cell differentiation in the bone marrow, as measured by morphologic evaluation, FISH analysis and immunophenotyping, was observed, consistent with the underlying mechanism of action of SY-1425 as a differentiating agent. The induction of CD38 observed in bone marrow blasts from patients treated with SY-1425 supports the combination cohort with daratumumab recently added to the Phase 2 trial.

As presented at the European School of Haematology’s 4th International Conference on Acute Myeloid Leukemia in October 2017, approximately 40% of 201 patients screened for the clinical trial as of the end of August 2017 were biomarker-positive, including approximately one-third of relapsed or refractory AML and higher-risk MDS patients. In blood samples taken from patients upon screening and treated ex vivo with SY-1425, a positive biomarker status was significantly correlated with SY-1425 induced myeloid cell differentiation, supporting the predictive value of the biomarker test for patient selection.

Preclinical Combination Data for SY-1425
SY-1425 has shown synergistic tumor-killing activity in combination with azacitidine, a standard-of-care therapy in AML and MDS, as well as with daratumumab, an anti-CD38 antibody approved to treat multiple myeloma, in preclinical models of RARA biomarker-positive AML. In combination with azacitidine, SY-1425 demonstrated greater clearance of tumor cells in bone marrow and other tissues and greater depth and duration of tumor response, compared to either azacitidine or SY-1425 alone. In combination with daratumumab, SY-1425 triggered robust immune cell-mediated tumor death. Notably, AML cells do not normally express high levels of CD38. Syros has shown that by inducing CD38 expression, SY-1425 sensitizes biomarker-positive AML models to the tumor-killing effects of daratumumab.

Clinical Development Plans for SY-1425
Syros plans to focus its ongoing Phase 2 clinical trial on assessing the safety and efficacy of SY-1425 in combination with other therapies. Syros is continuing to enroll patients in a cohort evaluating SY-1425 in combination with azacitidine in newly diagnosed AML patients who are not suitable candidates for standard chemotherapy. Syros recently added a cohort in relapsed or refractory AML and higher-risk MDS patients to evaluate SY-1425 in combination with daratumumab and expects to begin enrolling patients in that cohort in early 2018. All patients enrolled or to be enrolled in the trial are prospectively selected using the Company’s RARA or IRF8 biomarkers. Syros expects to report initial clinical data from each combination cohort in 2018. Syros does not plan to pursue further development of SY-1425 as a single agent and is stopping enrollment in the single-agent cohort in newly diagnosed AML patients who are not suitable candidates for standard chemotherapy. Additional details about the trial can be found using the identifier NCT02807558 at www.clinicaltrials.gov.

Investor Event and Webcast Information
Syros will host an investor event on Monday, December 11 beginning at 12:00 p.m. ET in Atlanta to discuss the initial SY-1425 clinical data presented at ASH (Free ASH Whitepaper). The event can be accessed by dialing 866-595-4538 (domestic) or 636-812-6496 (international) and providing the passcode 8887999. A live webcast will also be available and can be accessed under "Events & Presentations" in the Investors section of the Company’s website at View Source A replay of the webcast will be available approximately two hours after the event and will be available for 30 days following the event.

On December 10, 2017 Syros Pharmaceuticals (NASDAQ: SYRS), a biopharmaceutical company pioneering the discovery and development of medicines to control the expression of disease-driving genes, reported that new preclinical data on SY-1365, its first-in-class selective cyclin-dependent kinase 7 (CDK7) inhibitor currently in a Phase 1 clinical trial in advanced solid tumors, show anti-tumor activity in in vitro and in vivo models of blood cancers (Press release, Syros Pharmaceuticals, DEC 10, 2017, View Source [SID1234522498]). Additionally, the data point to a potential biomarker of response to SY-1365 and synergistic activity with a BCL2 inhibitor in preclinical models of acute myeloid leukemia (AML). These data are being presented at the 59th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition.

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"We believe SY-1365 represents a promising therapeutic approach across a number of solid tumors and blood cancers," said Eric R. Olson, Ph.D., Chief Scientific Officer of Syros. "These new preclinical data underscore the power of our gene control platform to elucidate the underlying biology and mechanism of action of SY-1365, furthering our ability to identify biomarkers to select the patients most likely to respond and to identify rational combination approaches with the potential to provide a profound benefit for patients."

Syros scientists analyzed the anti-tumor activity of SY-1365 in a broad panel of leukemia and lymphoma cell lines, as well as in primary cell cultures from leukemia patients. They then grouped the cell lines according to sensitivity to SY-1365 and looked for markers of response using Syros’ gene control platform. Based on the findings, Syros evaluated SY-1365 in combination with venetoclax, a BCL2 inhibitor, in preclinical studies. The data showed that:

SY-1365 inhibited proliferation in vitro in leukemia and lymphoma cells, as well as in leukemia cells from primary patient cultures.
SY-1365 induced cell death in the majority of AML, leukemia and lymphoma cell lines tested.
SY-1365 inhibited tumor growth, including inducing tumor regression, using biweekly dosing in preclinical mouse models of AML.
Sensitivity to SY-1365 was associated with low expression of the mitochondrial apoptosis antagonist BCL2L1 in AML and other leukemia cell lines.
SY-1365 lowered expression of MCL1, a gene in the mitochondrial apoptosis pathway that is known to inhibit apoptosis.
SY-1365 synergized with venetoclax in AML cell lines in vitro and increased tumor growth inhibition when combined with venetoclax, compared to either SY-1365 or venetoclax alone.
The Phase 1 trial of SY-1365 is a multi-center, open-label trial enrolling patients with advanced solid tumors. The primary objective of the trial is to assess the safety and tolerability of escalating doses of SY-1365, with the goal of establishing a maximum tolerated dose and a recommended Phase 2 dose and regimen. The dose-escalation phase is open and expected to enroll approximately 35 solid tumor patients for whom standard curative or palliative measures do not exist or are no longer effective. Following the dose-escalation phase, expansion cohorts are planned to further evaluate the safety and anti-tumor activity of SY-1365 in patients with transcriptionally driven tumors and to enroll patients with tumors of any histology in a cohort focused on analyzing biopsied tumor tissue. Additional details about the trial can be found using the identifier NCT03134638 at www.clinicaltrials.gov. Syros expects to present initial clinical data from this study in 2018.

On December 10, 2017 Takeda Pharmaceutical Company Limited (TSE:4502) and Seattle Genetics, Inc. (NASDAQ: SGEN) reported that data from the Phase 3 ECHELON-1 clinical trial evaluating ADCETRIS (brentuximab vedotin) as part of a frontline combination chemotherapy regimen in untreated advanced classical Hodgkin lymphoma will be presented in the Plenary Scientific Session at the 59th American Society of Hematology (ASH) (Free ASH Whitepaper) annual meeting on Sunday, December 10, 2017 (Press release, Seattle Genetics, DEC 10, 2017, View Source;p=RssLanding&cat=news&id=2321955 [SID1234522497]). The data were also simultaneously published online in the New England Journal of Medicine and will be published in the print edition on January 25, 2018. Topline data were reported in June 2017 demonstrating the ECHELON-1 trial met its primary endpoint of a statistically significant improvement in modified progression-free survival (modified PFS) per Independent Review Facility (IRF) versus the control arm. ADCETRIS is an antibody-drug conjugate (ADC) directed to CD30, a defining marker of classical Hodgkin lymphoma. ADCETRIS is currently not approved as a frontline therapy for Hodgkin lymphoma.

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"For patients with advanced stage Hodgkin lymphoma, approximately one in three do not achieve long-term remission after standard frontline therapy, which is why the results of ECHELON-1 could be important to this group of patients," said Jesús Gomez Navarro, M.D., Vice President, Head of Oncology Clinical Research and Development, Takeda. "The trial demonstrated that combination treatment with ADCETRIS resulted in a statistically significant improvement in modified progression-free survival versus the control arm. For patients treated with ADCETRIS+AVD, there was a 23 percent reduction in the occurrence of an event, defined as progression, death or need for subsequent anti-cancer therapy for patients not in a complete response, compared to those who were treated with ABVD. We are excited about these clinical trial results and the potential impact ADCETRIS may have in the treatment of patients with advanced stage Hodgkin lymphoma if approved by health authorities for frontline use."

"The standard of care in the treatment of Hodgkin lymphoma has not changed over the last several decades and there remains an unmet need for additional regimens in frontline treatment. Current regimens include bleomycin, which is known to be associated with unpredictable and potentially fatal pulmonary toxicity," said Joseph M. Connors, M.D., FRCPC, Clinical Director, Center for Lymphoid Cancer at BC Cancer in Vancouver, Canada. "Increasing the durable response rate with a frontline therapy that also removes bleomycin from the regimen, represents a major step forward for the Hodgkin lymphoma community. Reducing the risk of relapse, is an important concern for patients and their physicians. In the trial, 33 percent fewer patients treated in the ADCETRIS containing regimen required subsequent salvage chemotherapy or high dose chemotherapy and transplant compared to the patients treated with ABVD. Lastly, the safety profile of ADCETRIS+AVD in the trial was generally consistent with that known for the single-agent components of the regimen."

"The ECHELON-1 Phase 3 clinical trial results were selected by ASH (Free ASH Whitepaper) as one of only six abstracts to be featured in the Plenary Scientific Session, and the data were also published simultaneously today in the New England Journal of Medicine. This study represents a bold effort that began more than five years ago to improve upon the current standard of care regimen that has not significantly changed in more than four decades. We’d like to thank the many patients and physicians who participated in this landmark trial," said Clay Siegall, Ph.D., President and Chief Executive Officer of Seattle Genetics. "These data demonstrate statistically superior activity of an ADCETRIS-containing regimen over ABVD, the current standard of care, including the primary endpoint of modified PFS per IRF, and secondary endpoints trended in favor of the ADCETRIS-containing regimen as well. Importantly, patients treated with the ADCETRIS-containing regimen required fewer subsequent therapies after frontline treatment. The results of the ECHELON-1 study supported FDA Breakthrough Therapy Designation for ADCETRIS in combination with chemotherapy for frontline advanced classical Hodgkin lymphoma, and we recently submitted a supplemental Biologics License Application to the FDA. Our goal is to make this regimen available to patients in the U.S. with advanced Hodgkin lymphoma in the first half of 2018."

Brentuximab Vedotin Plus Doxorubicin, Vinblastine, Dacarbazine (A+AVD) as Frontline Therapy Demonstrates Superior Modified Progression-Free Survival versus ABVD in Patients with Previously Untreated Stage III or IV Hodgkin Lymphoma (HL): The Phase 3 ECHELON-1 Study (Plenary Scientific Session on Sunday, December 10, 3:40 p.m. ET at the Georgia World Congress Center, Building C, Level 1, Hall C2 – C3)

Key findings, which will be presented by Dr. Joseph M. Connors and published in the New England Journal of Medicine, include:

The trial achieved its primary endpoint with the combination of ADCETRIS+AVD resulting in a statistically significant improvement in modified PFS versus the control arm of ABVD as assessed by an Independent Review Facility (IRF) (HR 0.77; p-value=0.035). This corresponds to a 23 percent reduction in the risk of progression, death or need for additional anticancer therapy.
Per IRF assessment, the two-year modified PFS rate for patients in the ADCETRIS+AVD arm was 82.1 percent compared to 77.2 percent in the control arm.
Per investigator assessment, the two-year modified PFS rate for patients in the ADCETRIS+AVD arm was 81.0 percent compared to 74.4 percent in the control arm (HR 0.73; p-value=0.007). This corresponds to a 27 percent reduction in the risk of progression, death or need for additional anticancer therapy.
All secondary endpoints trended in favor of the ADCETRIS+AVD arm, including interim analysis of overall survival (OS; HR 0.72; p-value=0.19). Other secondary endpoints include:
Complete response (CR) rate at the end of randomized regimen in the ADCETRIS+AVD arm was 73 percent compared to 70 percent in the control arm (p-value=0.22).
Objective response rate (ORR) at the end of randomized regimen in the ADCETRIS+AVD arm was 86 percent compared to 83 percent in the control arm (p-value=0.12).
Deauville score ≤2 after completion of frontline therapy was 85 percent in the ADCETRIS+AVD arm compared to 80 percent in the control arm (p-value=0.03).
Certain pre-specified subgroups of patients appeared to benefit more with ADCETRIS+AVD versus ABVD including: patients treated in North America; patients with involvement of >1 extranodal site; patients with International Prognostic Score (IPS) 4 – 7; males; patients with Stage IV disease; and patients aged <60 years.
In the ADCETRIS+AVD arm, 33 percent fewer patients received subsequent salvage chemotherapy or high-dose chemotherapy and transplant.
The safety profile of ADCETRIS+AVD in the ECHELON-1 trial was generally consistent with that known for the single-agent components of the regimen.
The most common clinically relevant adverse events of any grade that occurred in at least 15 percent of patients in the ADCETRIS+AVD and ABVD arms were: neutropenia (58 and 45 percent, respectively), constipation (42 and 37 percent, respectively), vomiting (33 and 28 percent, respectively), fatigue (both 32 percent), peripheral sensory neuropathy (29 and 17 percent, respectively), diarrhea (27 and 18 percent, respectively), pyrexia (27 and 22 percent, respectively), peripheral neuropathy (26 and 13 percent, respectively), abdominal pain (21 and 10 percent, respectively) and stomatitis (21 and 16 percent, respectively). In both the ADCETRIS+AVD and ABVD arms, the most common Grade 3 or 4 events were neutropenia, febrile neutropenia and neutrophil count decrease.
Febrile neutropenia was reduced through the use of prophylactic growth factors (G-CSF) in a subset of patients. In the ADCETRIS+AVD arm of the study, the rate of febrile neutropenia without the use of G-CSF was 21 percent and with the use of G-CSF was reduced to 11 percent. G-CSF primary prophylaxis with ADCETRIS+AVD resulted in overall comparable safety profile to ABVD, decreasing incidence of febrile neutropenia, neutropenia and serious adverse events. Primary prophylaxis with G-CSF was recommended for all patients.
On the ADCETRIS+AVD arm, peripheral neuropathy events were observed in 67 percent of patients compared to 43 percent on the control arm. In the ADCETRIS+AVD arm, the majority of peripheral neuropathy events were Grade 1 or 2. Grade ≥3 events were reported in 11 percent of patients and Grade 4 events were reported in less than one percent of patients. In the control arm, Grade ≥3 events were reported in two percent of patients and there were no Grade 4 events. Two-thirds of the patients with peripheral neuropathy in the ADCETRIS+AVD arm reported resolution or improvement at last follow-up.
Pulmonary toxicity was reported in two percent of patients in the ADCETRIS+AVD arm versus seven percent of patients in the ABVD arm; Grade ≥3 events were reported in less than one percent versus three percent, in the ADCETRIS and control arms respectively.
Nine on study deaths occurred in the ADCETRIS+AVD arm, of which seven were due to neutropenia or associated complications (all occurred in patients who had not received primary prophylaxis with G-CSF with the exception of one patient who entered the trial with pre-existing neutropenia). The remaining two deaths were due to myocardial infarction. In the control arm, there were 13 on study deaths, of which 11 were due to or associated with pulmonary-related toxicity, one was due to cardiopulmonary failure and one death had unknown cause.
ECHELON-1 Trial Design

ECHELON-1 is a randomized, open-label, two-arm, multi-center Phase 3 study designed to compare ADCETRIS and AVD (Adriamycin, vinblastine and dacarbazine) to ABVD (Adriamycin, bleomycin, vinblastine and dacarbazine) as frontline therapy in patients with previously untreated advanced classical Hodgkin lymphoma.
The primary endpoint is modified PFS per IRF. Modified PFS is defined as time to progression, death, or evidence of non-complete response after completion of frontline therapy per IRF followed by subsequent anticancer therapy.
The key secondary endpoint is OS. Other secondary objectives include assessment of CR rate, ORR, event-free survival (EFS), disease-free survival (DFS), duration of response (DOR), rate of Cycle 2 PET negativity, quality of life measures (EORTC QLQ C-30) and safety profile in the ADCETRIS+AVD versus ABVD arms.
The study enrolled 1,334 patients who had histologically-confirmed diagnosis of Stage III or IV Hodgkin lymphoma and had not been previously treated with systemic chemotherapy or radiotherapy. The median age of the patients enrolled in the study was 35 in the ADCETRIS+AVD arm and 37 in the ABVD arm.
Patients received ADCETRIS+AVD or ABVD on Days 1 and 15 of each 28-day cycle for up to six cycles.
The multi-center trial was conducted at 218 sites in 21 countries across North America, Europe, South America, Australia, Asia and Africa.
The U.S. Food and Drug Administration (FDA) granted Breakthrough Therapy Designation for ADCETRIS in combination with chemotherapy for the frontline treatment of patients with advanced classical Hodgkin lymphoma. Seattle Genetics submitted a supplemental Biologics License Application to the FDA on November 1, 2017. Takeda has begun to submit data from the ECHELON-1 trial to regulatory agencies in its territories, starting with the European Medicines Agency (EMA) on November 29, 2017.

About Classical Hodgkin Lymphoma

Lymphoma is a general term for a group of cancers that originate in the lymphatic system. There are two major categories of lymphoma: Hodgkin lymphoma and non-Hodgkin lymphoma. Classical Hodgkin lymphoma is distinguished from other types of lymphoma by the presence of one characteristic type of cell, known as the Reed-Sternberg cell. The Reed-Sternberg cell expresses CD30.

According to the American Cancer Society, approximately 8,260 cases of Hodgkin lymphoma will be diagnosed in the United States during 2017 and more than 1,000 will die from the disease. According to the Lymphoma Coalition, over 62,000 people worldwide are diagnosed with Hodgkin lymphoma each year and approximately 25,000 people die each year from this cancer.

About ADCETRIS

ADCETRIS is being evaluated broadly in more than 70 clinical trials, including three Phase 3 studies: the ECHELON-1 trial in frontline classical Hodgkin lymphoma that supported the recent FDA Breakthrough Therapy Designation and submission of the supplemental Biologics License Application (BLA) for use in this setting, the ongoing ECHELON-2 trial in frontline mature T-cell lymphomas, and the ongoing CHECKMATE 812 trial of ADCETRIS in combination with Opdivo (nivolumab) for relapsed/refractory Hodgkin lymphoma.

ADCETRIS is an ADC comprising an anti-CD30 monoclonal antibody attached by a protease-cleavable linker to a microtubule disrupting agent, monomethyl auristatin E (MMAE), utilizing Seattle Genetics’ proprietary technology. The ADC employs a linker system that is designed to be stable in the bloodstream but to release MMAE upon internalization into CD30-positive tumor cells.

ADCETRIS injection for intravenous infusion has received FDA approval for four indications: (1) regular approval for adult patients with pcALCL or CD30-expressing MF who have received prior systemic therapy, (2) regular approval for the treatment of patients with classical Hodgkin lymphoma after failure of autologous hematopoietic stem cell transplantation (auto-HSCT) or after failure of at least two prior multi-agent chemotherapy regimens in patients who are not auto-HSCT candidates, (3) regular approval for the treatment of classical Hodgkin lymphoma patients at high risk of relapse or progression as post-auto-HSCT consolidation, and (4) accelerated approval for the treatment of patients with systemic anaplastic large cell lymphoma (sALCL) after failure of at least one prior multi-agent chemotherapy regimen. The sALCL indication is approved under accelerated approval based on overall response rate. Continued approval for the sALCL indication may be contingent upon verification and description of clinical benefit in confirmatory trials.

Health Canada granted ADCETRIS approval with conditions for relapsed or refractory Hodgkin lymphoma and sALCL in 2013, and non-conditional approval for post-ASCT consolidation treatment of Hodgkin lymphoma patients at increased risk of relapse or progression.

ADCETRIS was granted conditional marketing authorization by the European Commission in October 2012 for two indications: (1) for the treatment of adult patients with relapsed or refractory CD30-positive Hodgkin lymphoma following autologous stem cell transplant (ASCT), or following at least two prior therapies when ASCT or multi-agent chemotherapy is not a treatment option, and (2) the treatment of adult patients with relapsed or refractory sALCL. The European Commission extended the current conditional marketing authorization of ADCETRIS and approved ADCETRIS for the treatment of adult patients with CD30-positive Hodgkin lymphoma at increased risk of relapse or progression following ASCT.

ADCETRIS has received marketing authorization by regulatory authorities in 69 countries for relapsed or refractory Hodgkin lymphoma and sALCL. See important safety information below.

Seattle Genetics and Takeda are jointly developing ADCETRIS. Under the terms of the collaboration agreement, Seattle Genetics has U.S. and Canadian commercialization rights and Takeda has rights to commercialize ADCETRIS in the rest of the world. Seattle Genetics and Takeda are funding joint development costs for ADCETRIS on a 50:50 basis, except in Japan where Takeda is solely responsible for development costs.

ADCETRIS (brentuximab vedotin) Important Safety Information (European Union)

CONTRAINDICATIONS

ADCETRIS is contraindicated for patients with hypersensitivity to brentuximab vedotin and its excipients. In addition, combined use of ADCETRIS with bleomycin is contraindicated as it causes pulmonary toxicity.

SPECIAL WARNINGS & PRECAUTIONS

Progressive multifocal leukoencephalopathy (PML): John Cunningham virus (JCV) reactivation resulting in PML and death can occur in patients treated with ADCETRIS. PML has been reported in patients who received ADCETRIS after receiving multiple prior chemotherapy regimens.

Patients should be closely monitored for new or worsening neurological, cognitive, or behavioral signs or symptoms, which may be suggestive of PML. Suggested evaluation of PML includes neurology consultation, gadolinium-enhanced magnetic resonance imaging of the brain, and cerebrospinal fluid analysis for JCV DNA by polymerase chain reaction or a brain biopsy with evidence of JCV. ADCETRIS dosing should be held for any suspected case of PML and should be permanently discontinued if a diagnosis of PML is confirmed.

Pancreatitis: Acute pancreatitis has been observed in patients treated with ADCETRIS. Fatal outcomes have been reported. Patients should be closely monitored for new or worsening abdominal pain, which may be suggestive of acute pancreatitis. Patient evaluation may include physical examination, laboratory evaluation for serum amylase and serum lipase, and abdominal imaging, such as ultrasound and other appropriate diagnostic measures. ADCETRIS should be held for any suspected case of acute pancreatitis. ADCETRIS should be discontinued if a diagnosis of acute pancreatitis is confirmed.

Pulmonary Toxicity: Cases of pulmonary toxicity, some with fatal outcomes, have been reported in patients receiving ADCETRIS. Although a causal association with ADCETRIS has not been established, the risk of pulmonary toxicity cannot be ruled out. New or worsening pulmonary symptoms should be promptly evaluated and treated appropriately.

Serious infections and opportunistic infections: Serious infections such as pneumonia, staphylococcal bacteremia, sepsis/septic shock (including fatal outcomes), and herpes zoster, and opportunistic infections such as Pneumocystis jiroveci pneumonia and oral candidiasis have been reported in patients treated with ADCETRIS. Patients should be carefully monitored during treatment for emergence of possible serious and opportunistic infections.

Infusion-related reactions (IRR): Immediate and delayed IRR, as well as anaphylaxis, have occurred with ADCETRIS. Patients should be carefully monitored during and after an infusion. If anaphylaxis occurs, administration of ADCETRIS should be immediately and permanently discontinued and appropriate medical therapy should be administered. If an IRR occurs, the infusion should be interrupted and appropriate medical management instituted. The infusion may be restarted at a slower rate after symptom resolution. Patients who have experienced a prior IRR should be premedicated for subsequent infusions. IRRs are more frequent and more severe in patients with antibodies to ADCETRIS.

Tumor lysis syndrome (TLS): TLS has been reported with ADCETRIS. Patients with rapidly proliferating tumor and high tumor burden are at risk of TLS. These patients should be monitored closely and managed according to best medical practice.

Peripheral neuropathy (PN): ADCETRIS treatment may cause PN, both sensory and motor. ADCETRIS-induced PN is typically cumulative and reversible in most cases. Patients should be monitored for symptoms of PN, such as hypoesthesia, hyperesthesia, paresthesia, discomfort, a burning sensation, neuropathic pain, or weakness. Patients experiencing new or worsening PN may require a delay and a dose reduction or discontinuation of ADCETRIS.

Hematological toxicities: Grade 3 or Grade 4 anemia, thrombocytopenia, and prolonged (equal to or greater than one week) Grade 3 or Grade 4 neutropenia can occur with ADCETRIS. Complete blood counts should be monitored prior to administration of each dose.

Febrile neutropenia: Febrile neutropenia has been reported. Patients should be monitored closely for fever and managed according to best medical practice if febrile neutropenia develops.

Stevens-Johnson syndrome (SJS): SJS and toxic epidermal necrolysis (TEN) have been reported with ADCETRIS. Fatal outcomes have been reported. If SJS or TEN occurs, treatment with ADCETRIS should be discontinued and appropriate medical therapy should be administered.

Gastrointestinal (GI) Complications: GI complications, some with fatal outcomes, including intestinal obstruction, ileus, enterocolitis, neutropenic colitis, erosion, ulcer, perforation and haemorragh, have been reported. New or worsening GI symptoms should be promptly evaluated and treated appropriately.

Hepatotoxicity: Elevations in alanine aminotransferase (ALT) and aspartate aminotransferase (AST) have been reported. Serious cases of hepatotoxicity, including fatal outcomes, have also occurred. Liver function should be tested prior to treatment initiation and routinely monitored in patients receiving ADCETRIS. Patients experiencing hepatotoxicity may require a delay, dose modification, or discontinuation of ADCETRIS.

Hyperglycemia: Hyperglycemia has been reported during trials in patients with an elevated body mass index (BMI) with or without a history of diabetes mellitus. However, any patient who experiences an event of hyperglycemia should have their serum glucose closely monitored. Anti-diabetic treatment should be administered as appropriate.

Renal and Hepatic Impairment: There is limited experience in patients with renal and hepatic impairment. Available data indicate that MMAE clearance might be affected by severe renal impairment, hepatic impairment, and by low serum albumin concentrations. The recommended starting dose in patients with hepatic impairment or severe renal impairment is 1.2 mg/kg administered as an intravenous infusion over 30 minutes every 3 weeks. Patients with renal or hepatic impairment should be closely monitored for adverse events.

Sodium content in excipients: This medicinal product contains a maximum of 2.1 mmol (or 47 mg) of sodium per dose. To be taken into consideration for patients on a controlled sodium diet.

INTERACTIONS

Patients who are receiving a strong CYP3A4 and P-gp inhibitor, concomitantly with ADCETRIS may have an increased risk of neutropenia and should be closely monitored. Co-administration of ADCETRIS with a CYP3A4 inducer did not alter the plasma exposure of ADCETRIS but it appeared to reduce plasma concentrations of MMAE metabolites that could be assayed. ADCETRIS is not expected to alter the exposure to drugs that are metabolized by CYP3A4 enzymes.

PREGNANCY: Women of childbearing potential should be using two methods of effective contraception during treatment with ADCETRIS and until 6 months after treatment. There are no data from the use of ADCETRIS in pregnant women, although studies in animals have shown reproductive toxicity. ADCETRIS should not be used during pregnancy unless the benefit to the mother outweighs the potential risks to the fetus. If a pregnant woman needs to be treated, she should be clearly advised on the potential risk to the fetus.

LACTATION (breast-feeding): There are no data as to whether ADCETRIS or its metabolites are excreted in human milk, therefore a risk to the newborn/infant cannot be excluded. With the potential risk, a decision should be made whether to discontinue breast-feeding or discontinue/abstain from therapy with ADCETRIS.

FERTILITY: In nonclinical studies, ADCETRIS treatment has resulted in testicular toxicity, and may alter male fertility. Men being treated with this medicine are advised not to father a child during treatment and for up to 6 months following the last dose.

ADVERSE REACTIONS

Serious adverse drug reactions were: pneumonia, acute respiratory distress syndrome, headache, neutropenia, thrombocytopenia, constipation, diarrhea, vomiting, nausea, pyrexia, peripheral motor neuropathy, peripheral sensory neuropathy, hyperglycemia, demyelinating polyneuropathy, tumor lysis syndrome, and Stevens-Johnson syndrome.

In the clinical studies of ADCETRIS, adverse reactions defined as very common (≥1/10) were: infection, upper respiratory tract infection, neutropenia, PN (sensory and motor), cough, dyspneoa, diarrhea, nausea, vomiting, constipation, abdominal pain, alopecia, pruritus, myalgia, arthralgia, fatigue, chills, pyrexia, infusion-related reactions and weight decreased. Adverse reactions defined as common (≥1/100 to <1/10) were: Sepsis/septic shock, herpes zoster, pneumonia, herpes simplex, anemia, thrombocytopenia, hyperglycemia, dizziness, demyelinating polyneuropathy, ALT/AST increased, rash, and back pain.

ADCETRIS (brentuximab vedotin) U.S. Important Safety Information

BOXED WARNING: PROGRESSIVE MULTIFOCAL LEUKOENCEPHALOPATHY (PML)

JC virus infection resulting in PML and death can occur in ADCETRIS-treated patients.

Contraindication

ADCETRIS concomitant with bleomycin due to pulmonary toxicity (e.g., interstitial infiltration and/or inflammation).

Warnings and Precautions

Peripheral neuropathy (PN): ADCETRIS causes PN that is predominantly sensory. Cases of motor PN have also been reported. ADCETRIS-induced PN is cumulative. Monitor for symptoms such as hypoesthesia, hyperesthesia, paresthesia, discomfort, a burning sensation, neuropathic pain, or weakness. Institute dose modifications accordingly.
Anaphylaxis and infusion reactions: Infusion-related reactions (IRR), including anaphylaxis have occurred with ADCETRIS. Monitor patients during infusion. If an IRR occurs, interrupt the infusion and institute appropriate medical management. If anaphylaxis occurs, immediately and permanently discontinue the infusion and administer appropriate medical therapy. Premedicate patients with a prior IRR before subsequent infusions. Premedication may include acetaminophen, an antihistamine, and a corticosteroid.
Hematologic toxicities: Prolonged (≥1 week) severe neutropenia and Grade 3 or 4 thrombocytopenia or anemia can occur with ADCETRIS. Febrile neutropenia has been reported with ADCETRIS. Monitor complete blood counts prior to each ADCETRIS dose. Consider more frequent monitoring for patients with Grade 3 or 4 neutropenia. Monitor patients for fever. If Grade 3 or 4 neutropenia develops, consider dose delays, reductions, discontinuation, or G-CSF prophylaxis with subsequent doses.
Serious infections and opportunistic infections: Infections such as pneumonia, bacteremia, and sepsis or septic shock (including fatal outcomes) have been reported in ADCETRIS-treated patients. Closely monitor patients during treatment for bacterial, fungal, or viral infections.
Tumor lysis syndrome: Closely monitor patients with rapidly proliferating tumor and high tumor burden.
Increased toxicity in the presence of severe renal impairment: The frequency of ≥Grade 3 adverse reactions and deaths was greater in patients with severe renal impairment compared to patients with normal renal function. Avoid use in patients with severe renal impairment.
Increased toxicity in the presence of moderate or severe hepatic impairment: The frequency of ≥Grade 3 adverse reactions and deaths was greater in patients with moderate or severe hepatic impairment compared to patients with normal hepatic function. Avoid use in patients with moderate or severe hepatic impairment.
Hepatotoxicity: Serious cases, including fatal outcomes, have occurred in ADCETRIS-treated patients. Cases were consistent with hepatocellular injury, including elevations of transaminases and/or bilirubin, and occurred after the first ADCETRIS dose or rechallenge. Preexisting liver disease, elevated baseline liver enzymes, and concomitant medications may increase the risk. Monitor liver enzymes and bilirubin. Patients with new, worsening, or recurrent hepatotoxicity may require a delay, change in dose, or discontinuation of ADCETRIS.
PML: JC virus infection resulting in PML and death has been reported in ADCETRIS-treated patients. First onset of symptoms occurred at various times from initiation of ADCETRIS therapy, with some cases occurring within 3 months of initial exposure. Other possible contributory factors other than ADCETRIS include prior therapies and underlying disease that may cause immunosuppression. Consider PML diagnosis in patients with new-onset signs and symptoms of central nervous system abnormalities. Hold ADCETRIS if PML is suspected and discontinue ADCETRIS if PML is confirmed.
Pulmonary toxicity: Noninfectious pulmonary toxicity events including pneumonitis, interstitial lung disease, and acute respiratory distress syndrome, some with fatal outcomes, have been reported. Monitor patients for signs and symptoms, including cough and dyspnea. In the event of new or worsening pulmonary symptoms, hold ADCETRIS dosing during evaluation and until symptomatic improvement.
Serious dermatologic reactions: Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN), including fatal outcomes, have been reported with ADCETRIS. If SJS or TEN occurs, discontinue ADCETRIS and administer appropriate medical therapy.
Gastrointestinal (GI) complications: Acute pancreatitis, including fatal outcomes, has been reported in ADCETRIS-treated patients. Other fatal and serious GI complications, including perforation, hemorrhage, erosion, ulcer, intestinal obstruction, enterocolitis, neutropenic colitis, and ileus have been reported in ADCETRIS-treated patients. Lymphoma with preexisting GI involvement may increase the risk of perforation. In the event of new or worsening GI symptoms, perform a prompt diagnostic evaluation and treat appropriately.
Embryo-fetal toxicity: Based on the mechanism of action and animal studies, ADCETRIS can cause fetal harm. Advise females of reproductive potential of the potential risk to the fetus, and to avoid pregnancy during ADCETRIS treatment and for at least 6 months after the final dose of ADCETRIS.
Most Common (≥20%) Adverse Reactions: peripheral sensory neuropathy, fatigue, nausea, diarrhea, neutropenia, upper respiratory tract infection, and pyrexia.

Drug Interactions

Concomitant use of strong CYP3A4 inhibitors or inducers, or P-gp inhibitors, has the potential to affect the exposure to monomethyl auristatin E (MMAE).

Use in Specific Populations

Moderate or severe hepatic impairment or severe renal impairment: MMAE exposure and adverse reactions are increased. Avoid use.

Advise males with female sexual partners of reproductive potential to use effective contraception during, and for at least 6 months after the final dose of ADCETRIS treatment.

Advise patients to report pregnancy immediately and avoid breastfeeding while receiving ADCETRIS.

For additional Important Safety Information, including BOXED WARNING, please see the full Prescribing Information for ADCETRIS at www.seattlegenetics.com or www.ADCETRIS.com.