On July 12, 2018 Genentech, a member of the Roche Group (SIX: RO, ROG; OTCQX: RHHBY), reported submission of a supplemental New Drug Application (sNDA) to the 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 leukemia (AML) who are ineligible for intensive chemotherapy (Press release, Genentech, JUL 12, 2018, View Source [SID1234527681]). 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 Genentech, a member of the Roche Group. It is jointly commercialized by the companies in the U.S. and commercialized 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, M.D., chief medical officer and head of Global Product Development. "AML is an aggressive disease with the lowest survival rate of all leukemias, 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 percent in patients treated with Venclexta at a dose of 400 mg. 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 percent CI: 12.3-not reached). The most common Grade 3-4 adverse events (occurring in 10 percent or more patients) were low white blood cell count with fever, low white blood cell count, anemia, low platelet count and decreased potassium levels.

Additionally, results from the Phase Ib/II M14-387 study of Venclexta in combination with LDAC showed a CR/CRi rate of 62 percent in patients treated with Venclexta at a dose of 600 mg. After more than a year of follow-up, the observed median OS was 11.4 months (95 percent CI: 5.7-15.7). The most common Grade 3-4 adverse events (occurring in 10 percent 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).

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 leukemia (CLL) or small lymphocytic lymphoma (SLL), with or without 17p deletion, who have received at least one prior therapy. A robust clinical development program 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 AML

Acute myeloid leukemia (AML) is the most common type of aggressive leukemia in adults, which has the lowest survival rate for all types of leukemia. In 2018, it is estimated there will be nearly 20,000 new cases of AML diagnosed in the U.S.

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 signaling system that tells cells, including cancer cells, to self-destruct. Venclexta is being developed by AbbVie and Genentech, a member of the Roche Group. It is jointly commercialized by the companies in the U.S. and commercialized 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.

Venclexta Indication

Venclexta is a prescription medicine used to treat people with chronic lymphocytic leukemia (CLL) or small lymphocytic lymphoma (SLL), with or without 17p deletion, who have received at least one prior treatment.

It is not known if Venclexta is safe and effective in children.

Important Safety Information:

Venclexta can cause serious side effects, including:

Tumor lysis syndrome (TLS). TLS is caused by the fast breakdown of cancer cells. TLS can cause kidney failure, the need for dialysis treatment, and may lead to death. A patient’s doctor will do tests for TLS. It is important for patients taking Venclexta to keep their appointments for blood tests. Patients will receive other medicines before starting and during treatment with Venclexta to help reduce the risk of TLS. Patients may also need to receive intravenous (IV) fluids into their vein. Patients taking Venclexta must tell their doctor right away if they have any symptoms of TLS during treatment with Venclexta, including fever, chills, nausea, vomiting, confusion, shortness of breath, seizures, irregular heartbeat, dark or cloudy urine, unusual tiredness, or muscle or joint pain.

Patients should drink plenty of water when taking Venclexta to help reduce the risk of getting TLS.

Patients should drink 6 to 8 glasses (about 56 ounces total) of water each day, starting 2 days before their first dose, on the day of their first dose of Venclexta, and each time the dose is increased.

Certain medicines must not be taken when patients first start taking Venclexta and while their dose is being slowly increased because of the risk of increased tumor lysis syndrome.

Patients must tell their doctor about all the medicines they take, including prescription and over-the-counter medicines, vitamins, and herbal supplements. Venclexta and other medicines may affect each other, causing serious side effects.
Patients must not start new medicines during treatment with Venclexta without first talking with their doctor.
Before taking Venclexta, patients must tell their doctor about all of their medical conditions, including if they:

Have kidney or liver problems.
Have problems with their body salts or electrolytes, such as potassium, phosphorus, or calcium.
Have a history of high uric acid levels in their blood or gout.
Are scheduled to receive a vaccine. Patients should not receive a "live vaccine" before, during, or after treatment with Venclexta until their doctor tells them it is okay. If a patient is not sure about the type of immunization or vaccine, they should ask their doctor. These vaccines may not be safe or may not work as well during treatment with Venclexta.
Are pregnant or plan to become pregnant. Venclexta may harm an unborn baby. If a patient is able to become pregnant, the doctor should do a pregnancy test before they start treatment with Venclexta, and they should use effective birth control during treatment and for 30 days after the last dose of Venclexta.
Are breastfeeding or plan to breastfeed. It is not known if Venclexta passes into breast milk. Patients should not breastfeed during treatment with Venclexta.
Patients should not drink grapefruit juice or eat grapefruit, Seville oranges (often used in marmalades), or starfruit while they are taking Venclexta. These products may increase the amount of Venclexta in the patient’s blood.

Venclexta can cause serious side effects, including:

Low white blood cell count (neutropenia). Low white blood cell counts are common with Venclexta but can also be severe. A doctor will do blood tests to check a patient’s blood counts during treatment with Venclexta. Patients must tell their doctor right away if they have a fever or any signs of an infection.
The most common side effects of Venclexta when used in combination with rituximab include low white blood cell count, diarrhea, upper respiratory tract infection, cough, tiredness, and nausea.

The most common side effects of Venclexta when used alone include low white blood cell count, diarrhea, nausea, upper respiratory tract infection, low red blood cell count, tiredness, low platelet count, muscle and joint pain, swelling of the arms, legs, hands, and feet, and cough.

Venclexta may cause fertility problems in males. This may affect the ability to father a child. Patients should talk to their doctor if they have concerns about fertility.

These are not all the possible side effects of Venclexta. Patients must tell their doctor if they have any side effect that bothers them or that does not go away.

Report side effects to the FDA at (800) FDA-1088 or View Source Patients and caregivers may also report side effects to Genentech at (888) 835-2555.

Please visit View Source for the Venclexta full Prescribing Information, including Patient Information, for additional Important Safety Information.

Rituxan Indications

Rituxan (rituximab) injection, for intravenous use, is indicated for the treatment of:

Low-grade or follicular CD20-positive non-Hodgkin’s lymphoma as a single-agent therapy in patients whose disease recurred or did not respond to initial treatment
Follicular CD20-positive non-Hodgkin’s lymphoma as an initial treatment with chemotherapy, and in patients whose initial treatment was successful, as a single-agent follow-up therapy
Low-grade CD20-positive non-Hodgkin’s lymphoma as a single-agent follow-up therapy for patients who did not progress on initial treatment with CVP chemotherapy
CD20-positive diffuse large B-cell non-Hodgkin’s lymphoma as an initial treatment in combination with CHOP chemotherapy
CD20-positive chronic lymphocytic leukemia in combination with FC chemotherapy as an initial treatment or as a treatment after disease has recurred
It is not known if Rituxan is safe and effective in children.

Important Safety Information:

Rituxan can cause serious side effects that can lead to death, including:

Infusion Reactions: Infusion reactions are very common side effects of Rituxan treatment. Serious infusion reactions can happen during the patient’s infusion or within 24 hours after the patient’s infusion of Rituxan. The patient’s doctor should give the patient medicines before infusion of Rituxan to decrease the chance of having a severe infusion reaction.

Patients must tell their doctor or get medical help right away about any of these symptoms during or after an infusion of Rituxan:
Hives (red itchy welts) or rash
Itching
Swelling of the lips, tongue, throat, or face
Sudden cough
Shortness of breath, difficulty breathing, or wheezing
Weakness
Dizziness or feel faint
Palpitations (feel like the heart is racing or fluttering)
Chest pain
Severe Skin and Mouth Reactions: Patients must tell their doctor or get medical help right away about any of these symptoms at any time during treatment with Rituxan:
Painful sores or ulcers on the skin, lips, or in the mouth
Blisters
Peeling skin
Rash
Pustules
Hepatitis B Virus (HBV) Reactivation: Before receiving Rituxan treatment, the patient’s doctor will do blood tests to check for HBV infection. If the patient has had hepatitis B or is a carrier of hepatitis B virus, receiving Rituxan could cause the virus to become an active infection again. Hepatitis B reactivation may cause serious liver problems, including liver failure, and death. The patient’s doctor will monitor for hepatitis B infection during and for several months after the patient stops receiving Rituxan.

Patients must tell their doctor right away about worsening tiredness, or yellowing of the skin or white part of the eyes during treatment with Rituxan.
Progressive Multifocal Leukoencephalopathy (PML): PML is a rare, serious brain infection caused by a virus that can happen in people who receive Rituxan. People with weakened immune systems can get PML. PML can result in death or severe disability. There is no known treatment, prevention, or cure for PML.

Patients must tell their doctor right away about new or worsening symptoms or if anyone close to the patient notices these symptoms:
Confusion
Dizziness or loss of balance
Difficulty walking or talking
Decreased strength or weakness on one side of the body
Vision problems, such as blurred vision or loss of vision
What should patients tell their doctor before receiving Rituxan?

Before receiving Rituxan, patients should tell their doctor if they:

Have had a severe reaction to Rituxan or a rituximab product
Have a history of heart problems, irregular heartbeat, or chest pain
Have lung or kidney problems
Have had an infection, currently have an infection, or have a weakened immune system
Have or have had any severe infections including:
Hepatitis B virus (HBV)
Hepatitis C virus (HCV)
Cytomegalovirus (CMV)
Herpes simplex virus (HSV)
Parvovirus B19
Varicella zoster virus (chickenpox or shingles)
West Nile Virus
Have had a recent vaccination or are scheduled to receive vaccinations. Patients should not receive certain vaccines before or during treatment with Rituxan
Have any other medical conditions
Are pregnant or plan to become pregnant. Patients must talk to their doctor about the risks to the patient’s unborn baby if receiving Rituxan during pregnancy. Females who are able to become pregnant should use effective birth control (contraception) during treatment with Rituxan and for 12 months after the last dose of Rituxan. Patients should talk to their doctor about effective birth control. Patients should tell their doctor right away if they become pregnant or think that they are pregnant during treatment with Rituxan
Are breastfeeding or plan to breastfeed. It is not known if Rituxan passes into the breast milk. Do not breastfeed during treatment and for at least 6 months after the last dose of Rituxan
Are taking any medications, including prescription and over-the-counter medicines, vitamins, and herbal supplements
What are the possible side effects of Rituxan?

Rituxan can cause serious side effects, including:

Tumor Lysis Syndrome (TLS): TLS is caused by the fast breakdown of cancer cells. TLS can cause the patient to have:
Kidney failure and the need for dialysis treatment
Abnormal heart rhythm
TLS can happen within 12 to 24 hours after an infusion of Rituxan. The patient’s doctor may do blood tests to check for TLS. The patient’s doctor may give medicine to help prevent TLS. Patients must tell their doctor right away if they have any of the following signs or symptoms of TLS:
Nausea
Vomiting
Diarrhea
Lack of energy
Serious Infections: Serious infections can happen during and after treatment with Rituxan, and can lead to death. Rituxan can increase the patient’s risk of getting infections and can lower the ability of the patient’s immune system to fight infections. Types of serious infections that can happen with Rituxan include bacterial, fungal, and viral infections. After receiving Rituxan, some people have developed low levels of certain antibodies in their blood for a long period of time (longer than 11 months). Some of these patients with low antibody levels developed infections. People with serious infections should not receive Rituxan. Patients must tell their doctor right away if they have any symptoms of infection:
Fever
Cold symptoms, such as runny nose or sore throat that do not go away
Flu symptoms, such as cough, tiredness, and body aches
Earache or headache
Pain during urination
Cold sores in the mouth or throat
Cuts, scrapes, or incisions that are red, warm, swollen, or painful
Heart Problems: Rituxan may cause chest pain, irregular heartbeats, and heart attack. The patient’s doctor may monitor the patient’s heart during and after treatment with Rituxan if they have symptoms of heart problems or have a history of heart problems. Patients must tell their doctor right away if they have chest pain or irregular heartbeats during treatment with Rituxan.
Kidney Problems: especially if the patient is receiving Rituxan for NHL. Rituxan can cause severe kidney problems that lead to death. The patient’s doctor should do blood tests to check how well their kidneys are working.
Stomach and Serious Bowel Problems That Can Sometimes Lead to Death: Bowel problems, including blockage or tears in the bowel can happen if the patient receives Rituxan with chemotherapy medicines. Patients must tell their doctor right away if they have any stomach-area (abdomen) pain or repeated vomiting during treatment with Rituxan.
The patient’s doctor will stop treatment with Rituxan if they have severe, serious, or life-threatening side effects.

What are the most common side effects during treatment with Rituxan?

Infusion-related reactions
Infections (may include fever, chills)
Body aches
Tiredness
Nausea
Other side effects include:

Aching joints during or within hours of receiving an infusion
More frequent upper respiratory tract infections
These are not all of the possible side effects with Rituxan.

Please see the Rituxan full Prescribing Information, including the Medication Guide, for additional Important Safety Information at View Source

Report side effects to the FDA at (800) FDA-1088 or View Source Report side effects to Genentech at (888) 835-2555.

On July 12, 2018 Immatics Biotechnologies GmbH, a clinical-stage biopharmaceutical company active in the discovery and development of T-cell redirecting cancer immunotherapies, reported that it has entered into a research collaboration and license agreement with Genmab A/S (Nasdaq Copenhagen: GEN) to develop next-generation, T-cell engaging bispecific immunotherapies targeting multiple cancer indications (Press release, Immatics Biotechnologies, JUL 12, 2018, View Source [SID1234569551]).

The companies will conduct joint research, funded by Genmab, to combine Immatics’ XPRESIDENT and Bispecific TCR technology platforms with Genmab’s proprietary antibody technologies to develop multiple bispecific immunotherapies in oncology. The companies will exclusively discover and develop immunotherapies directed against three proprietary targets, which were discovered and developed by Immatics’ XPRESIDENT technology. Genmab has the option to exclusively license up to two additional targets to expand the partnership at predetermined economics.

Genmab will be responsible for development, manufacturing and worldwide commercialization. Immatics will have an option to contribute certain promotion efforts at predetermined levels in selected countries in the EU.

Under the terms of the agreement, Immatics will receive an upfront fee of $54 million and is eligible to receive up to $550 million in development, regulatory and commercial milestone payments for each product and tiered royalties up to a double-digit percentage of net sales.
 
Carsten Reinhardt, M.D., Ph.D., Chief Medical Officer and Managing Director of Immatics, commented: "We are very pleased to join forces with one of the world-leading biotechnology companies to develop and advance novel and highly active cancer therapeutics. This collaboration underpins Immatics’ leadership in intracellular tumor target identification and T-cell receptor engineering." Dr. Reinhardt further said: "Our bispecific TCR technology exhibits exceptional potency and favourable pharmacokinetic properties by combining Immatics’ proprietary T-cell engaging format with our high-affinity and highly specific T-cell receptors as reported at AACR (Free AACR Whitepaper) 20181."

"This collaboration with Immatics gives us the opportunity to combine our unique technologies and expertise to create differentiated novel next-generation therapies. We very much look forward to this exciting partnership in the field of cancer immunotherapy," said Jan van de Winkel, Ph.D., Chief Executive Officer of Genmab.

1 Bunk S, et al. Development of highly potent T-cell receptor bispecifics with picomolar activity against tumor-specific HLA ligands [abstract]. In: Proceedings of the 109th Annual Meeting of the American Association for Cancer Research (AACR) (Free AACR Whitepaper); 2018 Apr 14–18; Chicago, IL. Abstract nr 2789.

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On July 12, 2018 Onxeo S.A. (Euronext Paris, NASDAQ Copenhagen: ONXEO), ("Onxeo" or "the Company"), a clinical-stage biotechnology company specializing in the development of innovative drugs in oncology, in particular against rare or resistant cancers, reported new positive results from preclinical studies of AsiDNA, its first-in-class DNA Repair inhibitor, in combination with PARP inhibitors (PARPi) (Press release, Onxeo, JUL 12, 2018, View Source [SID1234527668]). The results of these extensive studies with different PARPi point to the ability of AsiDNA to prevent the occurrence of resistance and even to reverse the acquired resistance of the tumor cell after PARPi treatments. Furthermore, they show that the combination has a strong synergistic anti-tumor activity in in vitro and in vivo models of solid tumors resistant to PARPi (HR proficient). Together with the preliminary data on the activity and safety of AsiDNA expected in Q4 2018 from the DRIIV-1 clinical trial, these results support clinical development of AsiDNA in combination with PARP inhibitors, which should start from year-end 2018.

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Judith Greciet, Chief Executive Officer of Onxeo, said: "Onxeo is conducting an ambitious development program for AsiDNA, notably translational, in combination with various anti-cancer agents in order to provide strategic information aimed at determining the indications and combinations to target in further clinical development as soon as the first results from DRIIV-1 are available. Assessing the combination of AsiDNA with PARPi is a priority, as their mechanisms of action are very complementary in indications with high unmet medical needs. Sales for the PARPi class are already substantial in ovarian cancer and are expected to increase markedly in the near-term as products gain access to multiple additional oncology indications. Our recent studies indicate that AsiDNA in combination with PARPi could enable PARPi to overcome the requirement of a genetic mutation such as BRCA-, and show a strong synergistic activity versus PARPi alone. Moreover, the combination appears to both prevent the occurrence of resistance to PARPi and reverse the acquired resistance, which may considerably expand treatment duration with PARPi. A treatment combining AsiDNA and PARPi could therefore significantly broaden the patient population eligible to PARPi and improve their efficacy, which is of great interest to the scientific community, the pharmaceutical industry and the patients for its potential to address resistant cancers."

AsiDNA is a first-in-class DNA repair inhibitor in the field of DNA Damage Response (DDR) that mimics double-stranded DNA breaks in tumor cells, activating repair pathways, diverting repair enzymes from the target and finally depleting the cell through a unique mechanism of agonist and decoy.

Data show that in in vitro models of HR proficient TNBC (triple negative breast cancer) and SCLC (small cell lung cancer), AsiDNA maintains PARP1 expression, the repair enzyme inhibited by PARP inhibitors, and abrogates the occurrence of resistance to PARPi, including in models of cancers resistant to PARPi. Down regulation of the PARP1 enzyme is one of the mechanisms that supports the occurrence of resistance to PARPi inhibitors1. As AsiDNA hyper-activates repair enzymes, an up regulation of PARP1 expression following treatment with AsiDNA or with AsiDNA associated to PARPi support the use of AsiDNA to maintain the sensitivity to PARPi treatment.

Furthermore, combination treatment of olaparib with AsiDNA more than doubles the complete response rate observed with olaparib alone (71% vs. 33%) in an in vivo model of HR proficient TNBC model and inhibits tumor growth in a humanized Patient-Derived Xenograft (PDX) mice model of ovarian cancer resistant to olaparib. PDX models are considered highly predictive of clinical behavior2.

The Company will submit the detailed results of these preclinical studies to leading peer-reviewed publications and international scientific conferences.

Francoise Bono, Chief Scientific Officer of Onxeo, concluded: "These most recent data validate our disruptive approach to DNA-targeting and confirm the broad opportunities for our lead molecule thanks to its unique mechanism of action. Our team has built an extremely solid body of preclinical evidence, both in-vitro and in highly predictive humanized in-vivo models, which shows the potential of AsiDNA to reverse the resistance to PARP inhibitors and the strong synergy of their combination. This is the first part of our extensive translational plan which aims at confirming the full potential of AsiDNA in combination with other anticancer agents such as chemotherapies or epigenetic compounds, including belinostat. Additional data on these other possible combinations will be available after the summer to further inform the clinical development of AsiDNA in combinations offering the potential for significant therapeutic improvement."

On July 12, 2018 Genmab A/S (Nasdaq Copenhagen: GEN) reported that it has entered into a research collaboration and exclusive license agreement with privately owned Immatics Biotechnologies GmbH (Immatics), to discover and develop next-generation bispecific immunotherapies to target multiple cancer indications (Press release, Genmab, JUL 12, 2018, View Source [SID1234527670]). The deal strengthens Genmab’s position in immuno-oncology by combining Genmab’s proprietary technologies and antibody know-how with Immatics’ XPRESIDENT targets and T-cell receptor (TCR) capabilities. Genmab will receive an exclusive license to three proprietary targets from Immatics, with an option to license up to two additional targets at predetermined economics. The companies will conduct joint research, funded by Genmab, on multiple antibody and/or TCR-based bispecific therapeutic product concepts.

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Genmab may elect to progress any resulting product candidates, and will be responsible for development, manufacturing and worldwide commercialization. For any products that are commercialized by Genmab, Immatics will have an option to limited co-promotion efforts in selected countries in the EU.

"This collaboration with Immatics gives us the opportunity to combine our unique technologies and expertise to create differentiated novel next-generation therapies. We very much look forward to this exciting partnership in the field of cancer immunotherapy," said Jan van de Winkel, Ph.D., Chief Executive Officer of Genmab.

Carsten Reinhardt, M.D., Ph.D., Chief Medical Officer and Managing Director of Immatics, commented: "We are very pleased to join forces with one of the world-leading biotechnology companies to develop and advance novel and highly active cancer therapeutics. This collaboration underpins Immatics’ leadership in intracellular tumor target identification and T-cell receptor engineering." Dr. Reinhardt further said: "Our bispecific TCR technology exhibits exceptional potency and favourable pharmacokinetic properties by combining Immatics’ proprietary T-cell engaging format with our high-affinity and highly specific T-cell receptors as reported at AACR (Free AACR Whitepaper) 20181."

Under the terms of the agreement, Genmab will pay Immatics an upfront fee of USD 54 million and Immatics is eligible to receive up to USD 550 million in development, regulatory and commercial milestone payments for each product, as well as tiered royalties on net sales.

Today’s news does not impact Genmab’s 2018 Financial Guidance.

On July 11, 2018 BioSight Ltd., a pharmaceutical development company focused on the development of targeted oncology drugs, reported that it has received the FDA and the Israeli Ministry of Health clearance to launch a Phase 2b clinical trial of BST-236 for treatment of Acute Myeloid Leukemia (AML) (Press release, BioSight, JUL 11, 2018, View Source [SID1234527653]).

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The trial, which will be launched in the upcoming month, will be conducted in 25 medical centers in the US and Israel. BST-236 will be administered as a single agent treatment for newly-diagnosed AML patients, either de novo or secondary to myelodysplastic disorder (MDS) who are unfit for standard chemotherapy due to its severe toxicity. This population is estimated to account for a third to half of the AML patients.

In the Phase 1/2 study, presented at the Annual American Society of Hematology (ASH) (Free ASH Whitepaper) Meeting and Exposition on December 2017, 26 acute leukemia patients were treated with BST-236 as a single agent. The study enrolled mainly older patients with poor prognosis baseline characteristics, including prior treatment with hypomethylating agents for MDS. BST-236 was found to be safe and well tolerated at high doses, with no neurological or gastrointestinal toxicities or renal failure, all of which are life-threatening toxicities associated with the existing chemotherapy and which often attenuate or prevent its use in older patients. This encouraging safety profile allowed the treatment of older and medically unfit patients with high doses of BST-236 and led to 2-3-fold higher response rates compared to currently approved treatments for this patient population. The aim of the Phase 2b study is to repeat the results of the Phase 1/2 study in a larger number of patients in the US and Israel.

Dr. Ruth Ben Yakar, BioSight’s CEO said: "We are excited to launch this Phase 2b clinical trial of BST-236 for treatment of newly-diagnosed AML patients who are unfit for standard chemotherapy. The encouraging results of the Phase 1/2 study suggest that BST-236 may serve as an improved treatment option compared to the approved drugs available today for this population, including for patients at the age of 75 years or more. We think it is very important to approach these patients, mainly due to the general increase in the population’s age and quality of life, and we believe we can provide them with a safer and more effective treatment."

About BST-236

BST-236 is a novel pro-drug of the chemotherapeutic drug cytarabine. Cytarabine has been the backbone of first-line therapy for AML for the past 40 years, however, it is associated with severe bone marrow, gastrointestinal, and neurological toxicities which significantly limit its use, especially in older and medically unfit patients. BST-236 is designed to enable delivery of high cytarabine doses to leukemia cells with lower systemic exposure to the free drug and relative sparing of normal tissues. As such, BST-236 may serve as an ideal therapy for leukemia, particularly for delivering high doses of cytarabine to medically unfit or older adults.