On July 12, 2018 Vertex Pharmaceuticals Incorporated (Nasdaq: VRTX) reported that it will report its second quarter 2018 financial results on Wednesday, July 25, 2018 after the financial markets close (Press release, Vertex Pharmaceuticals, JUL 12, 2018, View Source [SID1234527679]). The company will host a conference call and webcast at 4:30 p.m. ET. To access the call, please dial (866) 501-1537 (U.S.) or +1 (720) 545-0001 (International).

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The conference call will be webcast live and a link to the webcast can be accessed through Vertex’s website at www.vrtx.com in the "Investors" section. To ensure a timely connection, it is recommended that participants register at least 15 minutes prior to the scheduled webcast. An archived webcast will be available on the company’s website.

On July 12, 2018 EUSA Pharma reported that a decision by the National Institute for Health and Care Excellence (NICE) to recommend the use of the targeted cancer immunotherapy, QARZIBA (dinutuximab beta) to treat children with high-risk neuroblastoma within the NHS in England and Wales (Press release, EUSA Pharma, JUL 12, 2018, View Source [SID1234527662]).[i] High-risk neuroblastoma is an aggressive form of neuroblastoma – the most common solid tumour of childhood that originates outside of the brain.[ii] Dinutuximab beta is the first targeted cancer immunotherapy approved for use on the NHS to treat this disease. It has been shown in a post-hoc analysis to improve overall survival (OS) outcomes compared to historically treated patients who did not receive immunotherapy as part of their care. Dinutuximab beta, when used in the maintenance phase of treatment for patients who did not receive prior immunotherapy, is also used to keep this cancer from returning or progressing in some children with high-risk neuroblastoma.ii

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"Today’s decision by NICE is a vital step forward in the treatment of young children with this aggressive type of cancer," said Dr Juliet Gray, Associate Professor in Paediatric Oncology at the Cancer Immunology Centre, University of Southampton. "By harnessing the body’s own immune system, dinutuximab beta has shown it can target and attack this cancer very effectively in some patients. For some children this could mean extra weeks or months with their families, for others it may even lead to them becoming cancer-free for a long period of time."

Dinutuximab beta is a monoclonal antibody (a type of protein) that binds to a specific target which is overexpressed on neuroblastoma cells, called GD2.[iii] This induces dual immune mechanisms that then enable the immune system to lead the destruction of neuroblastoma cancer cells.ii In the key phase III clinical study (APN311-302), a post hoc comparison of dinutuximab beta, used in the maintenance phase of the first-line treatment of high-risk neuroblastoma (n=367) , showed improved survival outcomes, with a 12% improvement in OS rate at three years versus using no immunotherapy in a historical control group of similar patients (n=450).ii The dinutuximab beta treated patients had an OS rate of around 65% at 5 years versus 50% compared to the historical control group (p=<0.0001).ii

Tony Heddon, Chair of Neuroblastoma UK commented: "Ensuring that children and families facing high-risk neuroblastoma have access to the medicines and care they need is absolutely critical. Today’s recommendation is a bold and forward-thinking decision from NICE and we applaud them, EUSA Pharma and all those across the community who have worked together to make this medicine available. This decision offers the hope that these children with high-risk neuroblastoma, may now have a better future in front of them."

On average, every week, two families in the UK will learn that their child has neuroblastoma, with approximately 100 children diagnosed each year.[iv] It is the most frequently-occurring solid tumour in infants under the age of one, accounting for around a fifth (22%) of all cancers diagnosed at this age.[v] Children with high-risk disease to whom this approval applies, account for approximately 40% of all neuroblastoma cases.[vi] Children with high-risk neuroblastoma typically undergo many rounds of complex and intensive treatment, usually comprising several cycles of chemotherapy, surgery, stem cell transplant and radiotherapy.[vii]

The recommendation from NICE within its Final Appraisal Determination (FAD) is that dinutuximab beta be used as an option for treating high-risk neuroblastoma after at least a partial response from induction chemotherapy, followed by myeloablative therapy and stem cell transplant in people aged 12 months and over, if the person has not had previous anti-GD2 immunotherapy.i

Lee Morley, CEO of EUSA Pharma added: "Today’s decision is the result of strong collaboration between NICE, EUSA Pharma and the neuroblastoma community, who have each worked tirelessly to ensure that every eligible child has the option to benefit from this potentially life-changing treatment. Our long-standing commitment has always been to secure access to dinutuximab beta for all eligible children with high-risk neuroblastoma, across the UK and today’s decision is a key part of that journey. Beyond England and Wales, we are continuing to work closely with the Scottish and Northern Irish health authorities with the aim of making this medicine available in those countries as quickly as possible."

This medicinal product is subject to additional monitoring. This will allow quick identification of new safety information. Adverse events should be reported. Reporting forms and information can be found at www.mhra.gov.uk/yellowcardreporting. Adverse events should also be reported to EUSA Pharma. Email: [email protected] Fax: +44(0)3305 001167

About dinutuximab beta

How it works

Dinutuximab beta is a monoclonal antibody (a type of protein) that has been designed to recognise and attach to a tumour-associated carbohydrate structure, called GD2, which is present in high amounts on the surface of neuroblastoma cells.ii When dinutuximab beta attaches to the neuroblastoma cells, it induces dual immune system mechanisms (the complement-dependant and antibody-dependant cell-mediated immune pathways) and makes them a target for the body’s immune system. This then mounts an attack to kill the cancer cells, using the body’s natural killer immune cells, and the complement protein system.ii

It’s development and approval

Dinutuximab beta is the result of a considered science–pharma collaboration. Dinutuximab beta was developed by Apeiron Biologics with a number of partners (in particular the SIOPEN academic neuroblastoma group) and acquired by EUSA Pharma in 2016, to bring the treatment to market. Dinutuximab beta received European approval in May 2017, first under the brand names dinutuximab beta Apeiron and Dinutuximab beta EUSA and subsequently under its new name, QARZIBA, approved by the European Medicines Agency in November 2017.iii

How it is taken

Dinutuximab beta is given as an infusion (drip) into a vein. Each course of treatment with the medicine is given for 5 or 10 days every 35 days. It is given for a total of 5 courses. The recommended dose depends on the patient’s weight and height.iii

Data supporting its use

Dinutuximab beta has been investigated in a number of clinical trials for high-risk neuroblastoma.ii During the NICE appraisal, the primary clinical evidence came from APN311-302, a multinational, open-label, randomised, controlled Phase III trial comparing dinutuximab beta plus isotretinoin (n=189) with dinutuximab beta plus isotretinoin plus interleukin-2 (n=190).i,ii The primary outcome in the trial was event-free survival at three years (disease progression or relapse, death and secondary tumour defined as events) with OS, overall response, and incidence of relapsed or refractory disease included as secondary outcomes.ii This study consisted of up to five different comparison phases, one of which was treatment with dinutuximab beta with or without interleukin-2 (IL-2) during the maintenance phase , in the first line setting.ii

In APN311-302, the 3-year event free survival (primary endpoint) showed rates of 55% without IL-2 and 61% with IL-2 (p=0.3202) while the 3-year OS rates were 64% and 69%, respectively (p=0.6114).i A comparison to an historical control group obtained from an earlier patient enrolment within the APN311-302 study (between 2002 and 2010) was performed using 450 high-risk neuroblastoma patients, who did not receive immunotherapy. Given the relatively high number of patients it is expected that these patients are representative of patients with high-risk neuroblastoma seen in clinical practice during this period. This comparison showed that the percentage of patients that were still alive after three years of follow-up was 12% higher after dinutuximab beta treatment (with or without IL-2) than for patients who did not receive immunotherapy, a difference considered clinically relevant.ii It also showed an OS rate of around 65% at 5 years with dinutuximab beta versus 50% in the historical control group (p=<0.0001).ii

At marketing authorisation, the European Medicines Agency considered that the available data set was not comprehensive and that measures were necessary to generate additional efficacy and safety data. EUSA Pharma is committed to this and is continuing to collect further data to widen the body of efficacy and safety information available on this medicine.ii

Side effects

Side effects with dinutuximab beta are common. In general, the most common side effects with dinutuximab beta (which may affect more than 7 in 10 people) are pyrexia (fever) and pain. Other side effects (which may affect more than 3 in 10 people) are hypersensitivity (allergy), vomiting, diarrhoea, capillary leak syndrome (leakage of fluid from blood vessels that can cause swelling and a drop in blood pressure) and hypotension (low blood pressure).iii

In the APN311-302 study, 98.9% of patients (362 of 366) in both treatment group experienced toxicities. Serious adverse events were reported more frequently in patients receiving IL-2 (46% of 183 patients) compared to patients not receiving IL-2 (27% of 183 patients). Serious adverse events leading to discontinuation of treatment were more frequent in the IL2 arm than the group without IL2,17% vs 6% of patients, respectively.ii

On July 12, 2018 Incyte Corporation (Nasdaq:INCY) reported that it has scheduled its second quarter 2018 financial results conference call and webcast for 8:00 a.m. ET on Tuesday, July 31, 2018 (Press release, Incyte, JUL 12, 2018, View Source [SID1234527680]).

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The schedule for the press release and conference call/webcast is as follows:

Q2 2018 Press Release: July 31, 2018 at 7:00 a.m. ET

Q2 2018 Conference Call: July 31, 2018 at 8:00 a.m. ET

Domestic Dial-In Number: 877-407-3042

International Dial-In Number:

201-389-0864

Conference ID Number: 13681303

If you are unable to participate, a replay of the conference call will be available for thirty days. The replay dial-in number for the U.S. is 877-660-6853 and the dial-in number for international callers is 201-612-7415. To access the replay you will need the conference ID number 13681303.

The live webcast with slides can be accessed at www.incyte.com under For Investors, Events and Presentations and will be available for replay for 30 days.

On July 12, 2018 Compass Therapeutics, a biotechnology company committed to the ambitious goal of comprehensively drugging the human immune system, reported the closing of the final $49 million of its $132 million Series A financing. This financing will enable the company to advance its next-generation antibody-based therapeutics into the clinic (Press release, Compass Therapeutics, JUL 12, 2018, View Source [SID1234529743]). The financing was led by OrbiMed Advisors and included F-Prime Capital, Cowen Healthcare Investments, Thiel Capital, Biomatics Capital, Ulysses Holdings, Borealis Ventures, Alexandria Venture Investments and Biomed Realty Ventures.

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Compass is pioneering a new approach to identifying antibody drug candidates that engage all targets in the biologically complex human immune synapse, with an initial focus on T cells, NK cells and macrophages. The company’s antibody discovery and bispecific engineering platforms enable the rapid identification of therapeutic candidates that engage with a broad range of epitopes on every target. Specifically, StitchMabs, a novel and proprietary high-throughput bispecific screening platform, enables the rapid identification of synergistic bispecific activity.

The antibody discovery platform is both robust and efficient. Compass is capable of drugging two new targets per month, and therapeutic candidates are generated in less than two months from antigen to candidate set. To date, the integrated R&D approach has generated therapeutic candidates for more than 30 targets in cancer, inflammation and autoimmune disease. Compass has more than 15 therapeutic candidates advancing through preclinical development and has filed more than 50 patent applications.

CTX-471, the company’s leading immuno-oncology candidate, is in late IND-enabling studies and is expected to enter the clinic in the first half of 2019. It has been tested across multiple in vitro and in vivo models and has consistently shown potent and durable curative activity as a single agent, in combination with other immune-modulatory agents and with tumor-targeting therapies. In addition, in stringent high tumor burden therapeutic models, CTX-471 has led to complete tumor rejections and the generation of long-term, protective immunological memory.

Upon final closing of the financing round, Thomas Schuetz, M.D., Ph.D., the company’s co-founder and chief executive officer, commented: "The proceeds from this round will be used to rapidly advance our first therapeutic candidate, CTX-471, into the clinic, and to nominate two additional clinical candidates by the end of this year. I am grateful for our strong investor syndicate that has continued to support the company since its inception."

Carl Gordon, Ph.D., a board member and managing partner at OrbiMed Advisors, commented: "In the three years since the initial Series A closing, Compass has built a portfolio of antibody discovery, bispecific engineering and functional characterization platforms which has consistently delivered novel and differentiated antibody drug candidates. Compass is positioned to become a leader in the fields of immuno-oncology, inflammation and autoimmune disease."

Compass is also focused on drugging targets at the intersection of the innate and the adaptive immune response. By screening all discovery sets for both activating and inhibiting signaling, Compass is developing a set of novel therapeutics to induce tolerance in patients with autoimmune diseases.

"With every target we pursue, we are pushing the boundaries of its epitopic diversity. We then create multiple formats of antibody-based multispecific drugs to empirically test various therapeutic hypotheses. Our unique StitchMabs technology allows us to screen for bispecific synergies in a high-throughput manner, and the output from our discovery platforms is compatible with highly modular bispecific engineering strategies," said Piotr Bobrowicz, Ph.D., the company’s chief scientific officer.

On July 12, 2018 Roche (SIX: RO, ROG; OTCQX: RHHBY) reported submission of a supplemental New Drug Application (sNDA) to the United States (U.S.) Food and Drug Administration (FDA) for Venclexta (venetoclax), in combination with a hypomethylating agent or in combination with low dose cytarabine (LDAC), for treatment of people with previously untreated acute myeloid leukaemia (AML) who are ineligible for intensive chemotherapy (Press release, Hoffmann-La Roche, JUL 12, 2018, View Source [SID1234527663]). The submission is based on the results of two phase Ib/II studies that evaluated Venclexta in combination with azacitidine or decitabine (M14-358 study) or LDAC (M14-387 study) in this patient population. Venclexta is being developed by AbbVie and Roche. It is jointly commercialised by AbbVie and Genentech, a member of the Roche Group, in the U.S. and commercialised by AbbVie outside of the U.S.

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"Nearly 20,000 people will be diagnosed with AML in the U.S. this year, and many of them are not eligible to receive standard intensive chemotherapy," said Sandra Horning, MD, Roche’s Chief Medical Officer and Head of Global Product Development. "AML is an aggressive disease with the lowest survival rate of all leukaemias, and we look forward to working closely with the FDA to bring this potential option to patients with this very difficult-to-treat blood cancer as soon as possible."

Data recently presented from the phase Ib M14-358 study showed Venclexta in combination with azacitidine or decitabine resulted in a complete remission rate (with or without full recovery of normal blood cell count; CR/CRi) of 73% in patients treated with Venclexta at a dose of 400 mg.2 After more than a year of follow-up, the observed median overall survival (OS) across all Venclexta dose groups in the study was 17.5 months (95% CI: 12.3-not reached).2 The most common Grade 3-4 adverse events (occurring in 10% or more patients) were low white blood cell count with fever, low white blood cell count, anaemia, low platelet count and decreased potassium levels.2

Additionally, results from the phase Ib/II M14-387 study of Venclexta in combination with LDAC showed a CR/CRi rate of 62% in patients treated with Venclexta at a dose of 600 mg.3 After more than a year of follow-up, the observed median OS was 11.4 months (95% CI: 5.7-15.7).3 The most common Grade 3-4 adverse events (occurring in 10% or more patients) were low white blood cell count with fever, decreased potassium levels, pneumonia, disease progression, decreased phosphate levels, high blood pressure and sepsis (blood infection).3

The FDA previously granted two breakthrough therapy designations for Venclexta in previously untreated AML ineligible for intensive chemotherapy, either in combination with hypomethylating agents or LDAC, based on results from these two studies. Recently, the FDA approved Venclexta in combination with Rituxan (rituximab) for the treatment of people with chronic lymphocytic leukaemia (CLL) or small lymphocytic lymphoma (SLL), with or without 17p deletion, who have received at least one prior therapy. A robust clinical development programme is ongoing in several other cancer types.

About the M14-358 study
The M14-358 study (NCT02203773) is an open-label, phase Ib dose escalation and expansion study evaluating the safety and efficacy of Venclexta in combination with hypomethylating agents, azacitidine or decitabine, in 212 patients who are 60 years or older with previously untreated AML unfit to receive intensive chemotherapy. Study endpoints included CR/CRi, OS and safety.

About the M14-387 study
The M14-387 study (NCT02287233) is an open-label, phase Ib/II dose escalation and expansion study evaluating the safety and efficacy of Venclexta in combination with LDAC in 94 patients who are 60 years or older with previously untreated AML unfit to receive intensive chemotherapy. Study endpoints included CR/CRi, objective response rate (ORR), OS and safety.

About Venclexta
Venclexta is a small molecule designed to selectively bind and inhibit the BCL-2 protein, which plays an important role in a process called apoptosis (programmed cell death). Overexpression of the BCL-2 protein in AML has been associated with resistance to certain therapies. It is believed that blocking BCL-2 may restore the signalling system that tells cells, including cancer cells, to self-destruct. Venclexta is being developed by AbbVie and Roche. It is jointly commercialised by AbbVie and Genentech, a member of the Roche Group, in the U.S. and commercialised by AbbVie outside of the U.S.

Together, the companies are committed to further research with Venclexta, which is currently being evaluated in phase III clinical trials for several types of blood cancers. In the U.S., Venclexta has been granted four Breakthrough Therapy Designations by the FDA: in combination with Rituxan for people with relapsed or refractory CLL; as a monotherapy for people with relapsed or refractory CLL with 17p deletion; in combination with hypomethylating agents (azacitidine or decitabine) for people with untreated AML ineligible for intensive chemotherapy; and in combination with LDAC for people with untreated AML ineligible for intensive chemotherapy.

About Acute Myeloid Leukaemia
AML is an aggressive form of leukaemia that starts in immature forms of blood-forming cells, known as myeloid cells, found in the bone marrow.4 AML is the most common type of aggressive leukaemia in adults.1 It has the lowest survival rates of all types of leukaemia.5 Even with the best available therapies, older patients aged 65 and over have survival rates comparable to patients with advanced lung cancer, with a five year overall survival rate of <5%.6,7 Approximately 20,000 people in the U.S. and 18,000 in Europe are diagnosed with AML each year.8,9