On September 25, 2018 Array BioPharma Inc. (Nasdaq: ARRY) reported that its Chief Executive Officer, Ron Squarer, will speak at the 2018 Cantor Global Healthcare Conference in New York (Press release, Array BioPharma, SEP 25, 2018, View Source [SID1234529559]). The public is welcome to participate in the conference through a webcast on the Array BioPharma website.

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Event:

Cantor Global Healthcare Conference

Presenter:

Ron Squarer, Chief Executive Officer, Array BioPharma

Date:

Tuesday, October 2, 2018

Time:

9:45 a.m. Eastern Time

Webcast:

View Source

On September 24, 2018 Transgene (Paris:TNG) (Euronext Paris: TNG) a biotechnology company that designs and develops virus-based immunotherapies against cancers and infectious diseases, reported myvacTM, an individualized, viral vector-based immunotherapy against cancer that will enter clinical development in 2019 (Press release, Transgene, SEP 24, 2018, View Source [SID1234621824]).

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myvacTM, an individualized, MVA-based immunotherapy
myvacTM is designed to stimulate and educate the immune system of patients to recognize and destroy tumor cells. The personalized immunotherapy product is based on the mutations that are identified in the patient’s own tumor. These mutations are highly relevant targets since they lead to the expression of tumor neoantigens which are known to trigger a stronger immune response than "classic"2 tumor antigens.

Once administered to the patient, myvacTM triggers a cascade of immune responses against a variety of targets found in the cancer cells.

The neoantigens which are the basis for the myvacTM approach are identified by sequencing and selected using artificial intelligence algorithms, and then integrated into the genome of the viral vector (MVA).

myvacTM differs from autologous treatments since no biological material from the patient is used in the manufacturing process and as such is much easier to manufacture; it is a truly individualized approach that uses the information that is specific to the characteristics of each patient’s tumor.

Transgene has combined its expertise in viral vectors with highly innovative technologies to develop myvacTM.

myvacTM features several key advantages:

It is expected to deliver the benefits of an individualized treatment without the disadvantages of autologous approaches (Transgene does not modify the patient’s cells but integrates the neoantigen panel into the virus);
It is based on a viral strain (MVA) whose safety, tolerability, immunogenicity and efficacy have already been demonstrated in the clinic with TG4010 and TG4001;
The myvacTM viral vector (MVA) has repeatedly shown that it can induce a strong immune response from the patient against the tumor antigens incorporated in its viral genome as well as an enlargement of the antitumoral immune repertoire (epitope spreading);
An "all-in-one" formula, requiring neither adjuvant nor association of different peptides.
Éric Quéméneur, PhD, Executive VP, Chief Scientific Officer of Transgene, said: "With myvacTM, Transgene is at the forefront of innovation in cancer immunotherapy. Based on our know-how in virotherapy, we have successfully integrated sequences coding for neoantigens to create an individualized immunotherapy. By combining sequencing and artificial intelligence with the design of the virus, myvacTM marks the entry of viral vector-based approaches in the era of digital transformation. Importantly we have also set up an organization able to design and manufacture myvacTM for each patient in a timely and cost-competitive manner. The myvacTM innovation is a logical evolution of our expertise and a new therapeutic option that promises a major improvement over existing therapies. myvacTM is also the result of our policy of open innovation which is based on working with partners developing technologies that are complementary to our expertise allowing us to benefit from a multidisciplinary approach. We look forward to demonstrating the transformative potential of myvacTM in the clinical trials we plan to start in 2019."

myvacTM, an ambitious project expected to enter the clinic in 2019
myvacTM will be administered to patients with solid tumors. Two clinical trials are being set up in Europe and in the United States, including HPV-negative head and neck cancers and ovarian cancer. These trials are expected to start in 2019.
The first preclinical and translational results will be presented soon at immuno-oncology conferences.

Our innovative network combines bioengineering and digital transformation

To design myvacTM, Transgene and its collaborative network had to overcome many scientific and technical challenges. The network’s expertise covers all the required know-how:

Institut Curie (Cancer Immunotherapy Center, led by Professor Amigorena) is involved in the generation of translational data and the characterization of the mechanism of action;
HalioDx studies biomarkers to maximize the effectiveness of the therapy;
Traaser automates, secures and manages genomic data, including predictive algorithms provided by a recognized partner in artificial intelligence;
Transgene has developed a unique manufacturing pilot unit in France to vectorize neoantigens and provide myvacTM within a timeframe compatible with clinical treatment schemes.
This innovative project has obtained the labeling of the Biovalley France and Eurobiomed French competitiveness clusters.

Transgene holds the intellectual property of the myvacTM viral vector platform and is actively working on the translational development of this innovative technology.

On September 24, 2018 Affibody AB ("Affibody"), a clinical stage biopharmaceutical company developing a portfolio of innovative drug projects, reported that a major Nordic study ("Affibody-3") will begin using Affibody’s PET imaging agent ABY-025 (Press release, Affibody, SEP 24, 2018, View Source [SID1234575703]). ABY-025 is a novel Affibody molecule imaging tracer that with high precision can identify HER2 status in breast cancer patients . The researchers will be investigating a new ABY-025 based method developed at Uppsala University and the PET center at Uppsala University Hospital that has the potential to improve personalized breast cancer treatment.

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"Since 2015, we have performed two smaller studies at Uppsala University Hospital with more than 20 patients showing very promising results. If we can demonstrate that the method works in larger scale, we believe it can quickly become a new "gold" standard worldwide. This would mean that difficult and stressful biopsies can be avoided for many breast cancer patients," says Dr. Henrik Lindman, Physician at the Oncology Clinic, Uppsala University Hospital, who is running the study together with Dr. Jens Sörensen, Physician at the PET center in the hospital.

In patients with so-called HER2-positive breast cancer, a large amount of the HER2 protein is present on the surface of the cancer cells. The more concentrated the protein, the more aggressive the disease. The new PET method involves a small protein-tracer, ABY-025, labeled with radioactive gallium. This procedure is done at the PET center at Uppsala University Hospital. ABY-025 is administered to the patient, finding and attaching to the HER2 protein. The PET camera then records the tracer signals and calculates the patient’s exact HER2 status, enabling the physician to prescribe medication more accurately.

"Several drugs effective against HER2 positive breast cancer have been available many years now. However, when selecting treatment, it is extremely important to know if the woman has HER2-positive metastases and how much HER2 protein is present on the cell surface. Our new method has two major advantages – you do not have to take tissue samples to get answers, an unpleasant experience for the patient, and we can also simultaneously map all tumors in the body," says Dr. Lindman.

"We are very proud of the way by which the ABY-025 development is conducted. The unique partnership that Affibody has with the principle investigators of Affibody-3 reflects our corporate ambition to build an extensive network of renowned researchers and clinicians in order to be able to fully capture the value of our proprietary platforms. We look forward to continue to build more such relationships", said David Bejker, CEO of Affibody.

About Affibody-3

Affibody-3 is a pan-Nordic clinical study led from Uppsala University Hospital. In total, 120 women with breast cancer from 7-8 hospitals in Sweden, Denmark and Finland will be included in the study. Eligible patients should have HER2 positive or borderline HER2 positive, breast cancer with proliferation in the body or only in the breast. The purpose is to find out if the patients have HER2-positive tumors with the aid of a radioactively labeled tracer, ABY-025, and PET camera, something which is of great importance for the correct choice of treatment.

About ABY-025

The PET imaging agent ABY-025 is based on an Affibody molecule that binds strongly to HER2. The high affinity and rapid clearance of ABY-025 from blood and normal organs allows HER2 assessment within hours.

On September 24, 2019 Calithera Biosciences, Inc. (Nasdaq: CALA), a clinical-stage pharmaceutical company focused on discovering and developing novel small molecule drugs directed against tumor metabolism and tumor immunology targets for the treatment of cancer, reported its participation at two upcoming healthcare investor conferences in October (Press release, Calithera Biosciences, SEP 24, 2018, View Source [SID1234535236]).

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Cantor Fitzgerald Global Healthcare Conference. On Tuesday, October 2, 2018, Susan M. Molineaux, Ph.D., the company’s Founder, President and Chief Executive Officer will present a corporate update at 9:10 a.m. EDT at the
Cantor Fitzgerald Global Healthcare Conference in New York City.

Leerink Partners Rare Disease & Oncology Roundtable. On Wednesday, October 3, 2018, Susan M. Molineaux, Ph.D., the company’s Founder, President and Chief Executive Officer will participate in a fireside chat to discuss immunooncology at the Leerink Partners Rare Disease & Oncology Roundtable being held in New York City at 8:30 a.m. EDT.

On September 24, 2018 Amgen (NASDAQ:AMGN) reported that the Japanese Ministry of Health, Labour and Welfare has granted marketing approval for BLINCYTO (blinatumomab) for the treatment of relapsed or refractory B-cell acute lymphoblastic leukemia (ALL) (Press release, Amgen, SEP 25, 2018, View Source;p=RssLanding&cat=news&id=2368696 [SID1234530180]). BLINCYTO was developed in Japan by Amgen Astellas BioPharma K.K. (AABP), a joint venture between Amgen and Astellas Pharma Inc., a pharmaceutical company headquartered in Tokyo.

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"As proof-of-concept for our bispecific T cell engager technology, BLINCYTO has laid the groundwork for Amgen to deliver on our passion of addressing cancer by exploring numerous biologic pathways and therapeutic modalities," said David M. Reese, M.D., executive vice president of Research and Development at Amgen. "This innovation is a good example of how we provide new options to patients with serious illnesses like cancer. In bringing BLINCYTO to Japanese patients, we reinforce our commitment to deliver novel cancer therapies on behalf of patients worldwide."

BLINCYTO is the first-and-only bispecific T cell engager (BiTE) immunotherapy construct approved globally. It is also the first approved immunotherapy from Amgen’s BiTE platform, an innovative approach that helps the body’s immune system target cancer cells.

"Today’s approval of BLINCYTO marks a significant milestone that reinforces our commitment to addressing unmet medical needs of patients in Japan," said Steve Sugino, president and representative director, AABP. "As our first oncology treatment approved in the region, we are proud to provide a much-needed innovative treatment option for adults and children with relapsed or refractory B-cell ALL, one of the most aggressive B-cell malignancies."

Hitoshi Kiyoi, M.D., Ph.D., professor of internal medicine, Hematology and Oncology, Nagoya University Graduate School of Medicine said, "The standard therapy for relapsed or refractory B-cell ALL has not been established in Japan and therefore different chemotherapy regimens have been selected, depending on the condition and background of each patient. BLINCYTO is a much-needed and important new treatment option for patients with relapsed or refractory B-cell ALL, as demonstrated by the efficacy and survival benefit seen in the TOWER study."

The approval is based on data from multiple global studies, including the Phase 3 TOWER study and Japan Phase 1b/2 Horai study. In the TOWER study, BLINCYTO demonstrated a superior improvement in median overall survival (OS) versus standard of care (SOC) chemotherapy. Median OS was 7.7 months (95 percent CI: 5.6, 9.6) for BLINCYTO versus 4.0 months (95 percent CI: 2.9, 5.3) for SOC (HR for death=0.71; p=0.012). Safety results among subjects who received BLINCYTO were comparable to those seen in the previous Phase 2 studies of BLINCYTO in adult patients with Philadelphia chromosome-negative (Ph-) relapsed or refractory B-cell precursor ALL. In the TOWER study, major adverse reactions were pyrexia (39.0 percent), decrease in white blood cell count (14.6 percent), cytokine release syndrome (13.5 percent), febrile neutropenia (10.9 percent), headache (10.1 percent), elevated liver enzyme (10.1 percent) and decrease in platelet count (10.1 percent). In the Phase 1b/2 Horai study, BLINCYTO was administered to 35 Japanese adult and pediatric patients with relapsed or refractory B-cell precursor ALL. The safety results from the Horai study were comparable to those seen in the global studies, including TOWER. In the Horai study, major adverse reactions in adult patients were cytokine release syndrome (46.2 percent), pyrexia (46.2 percent), decrease in white blood cell count (38.5 percent) and decrease in platelet count (34.6 percent), and major adverse reactions in pediatric patients were elevated liver enzyme (66.7 percent), pyrexia (66.7 percent), cytokine release syndrome (55.6 percent) and abdominal pain (44.4 percent).

BLINCYTO is now approved in 57 countries, including the United States (U.S.), all member countries in the European Union (EU) and the European Economic Area, Canada and Australia.

About the TOWER Study
The TOWER study was a Phase 3, randomized, active-controlled, open-label study investigating the efficacy of BLINCYTO versus SOC chemotherapy in 405 adult patients with Ph- relapsed or refractory B-cell precursor ALL. The study enrolled a difficult-to-treat patient population which included patients with one or more relapses or refractory disease. In the BLINCYTO arm, this included 35 percent of patients that had relapsed post-allogenic hematopoietic stem cell transplant (alloHSCT) and excluded those with late first relapse (≥12 months after initial remission). Patients were randomized in a 2:1 ratio to receive BLINCYTO (n=271) or treatment with investigator choice of SOC chemotherapy (n=134). The determination of efficacy was based on OS. These results were published in The New England Journal of Medicine.1

About the Horai Study
The Horai study is a Phase 1b/2, single-arm, open-label study evaluating the safety and efficacy of BLINCYTO in Japanese adult and pediatric patients with relapsed or refractory B-cell precursor ALL. The primary endpoint for the Phase 1b portion was incidence of dose-limiting toxicities; the primary endpoint for the Phase 2 portion was complete remission or complete remission with partial hematologic recovery within 12 weeks of treatment with BLINCYTO. Secondary endpoints include duration of response, OS and relapse-free survival. An extension of the study is ongoing. For more information about this trial, please visit www.clinicaltrials.gov under trial identification number NCT02412306.

About ALL in Japan
ALL is a rapidly progressing cancer of the blood and bone marrow that occurs in both adults and children.2,3 Japan is reported to have approximately 5,000 ALL patients, and it is estimated that of these, there are around 520 patients with relapsed or refractory ALL annually.4-7 Adults with relapsed or refractory ALL typically have a very poor prognosis, with a median OS of three to five months.8 Prognosis for children with ALL who are refractory or experience a relapse is extremely poor, and post-relapse survival is only achieved in 40-50 percent of patients.9-11

About BiTE Technology
Bispecific T cell engager (BiTE) antibody constructs are a novel immune-oncology technology that can be engineered to target any tumor antigen expressed by any type of cancer. The modified antibodies are designed to kill malignant cells using the patient’s own immune system by bridging T cells to tumor cells. BiTE antibody constructs help connect the T cells to the targeted cell, with the intent of causing T cells to inject toxins which trigger cancer cell death (apoptosis). Amgen is developing BiTE antibody constructs to uniquely (or specifically) target numerous hematologic malignancies and solid tumors.

About BLINCYTO (blinatumomab)
BLINCYTO is a bispecific CD19-directed CD3 T cell engager (BiTE) immunotherapy that binds to CD19 expressed on the surface of cells of B-lineage origin and CD3 expressed on the surface of effector T cells. BLINCYTO was granted breakthrough therapy and priority review designations by the U.S. Food and Drug Administration (FDA) in 2014, and now carries full approval in the U.S. for the treatment of relapsed or refractory B-cell precursor ALL in adults and children. In the U.S., BLINCYTO is also approved under accelerated approval for the treatment of adults and children with B-cell precursor ALL in first or second complete remission with minimal residual disease (MRD) greater than or equal to 0.1 percent.

BLINCYTO is approved in the EU for the treatment of Ph- relapsed or refractory B-cell precursor ALL in adults and children.

Important Japan Product Information

Indication:
Relapsed or refractory B-cell acute lymphoblastic leukemia

Dosage and Administration:
In general, blinatumomab (Genetical Recombination) is administered as continuous intravenous infusion with the following dosing regimen for 28 days followed by a 14-day treatment-free interval. This constitutes one cycle and is repeated up to 5 cycles. After that, blinatumomab (Genetical Recombination) is administered with the following dosing regimen for 28 days followed by a 56-day treatment-free interval. This constitutes one cycle and is repeated up to 4 cycles. Of note, dose of BLINCYTO can be reduced as appropriate depending on patient’s condition.

Patients with a body weight of ≥45 kg: 9 μg/day on Days 1 to 7 of Cycle 1, then 28 μg/day.
Patients with a body weight of <45 kg: 5 μg/m2 (body surface area [BSA])/day on Days 1 to 7 of Cycle 1, then 15 μg/m2 (BSA)/day. The dose should not exceed the dose for patients with a body weight of ≥45 kg.
For more information, see the latest Japan Package Inserts.

Important Safety Information Regarding BLINCYTO (blinatumomab) U.S. Indication
BLINCYTO is indicated for the treatment of B-cell precursor acute lymphoblastic leukemia (ALL) in first or second complete remission with minimal residual disease (MRD) greater than or equal to 0.1% in adults and children. This indication is approved under accelerated approval based on MRD response rate and hematological relapse-free survival. Continued approval for this indication may be contingent upon verification and description of clinical benefit in the confirmatory trials.

BLINCYTO is indicated for the treatment of relapsed or refractory B-cell precursor acute lymphoblastic leukemia (ALL) in adults and children.

WARNING: CYTOKINE RELEASE SYNDROME and NEUROLOGICAL TOXICITIES

Cytokine Release Syndrome (CRS), which may be life-threatening or fatal, occurred in patients receiving BLINCYTO. Interrupt or discontinue BLINCYTO as recommended.
Neurological toxicities, which may be severe, life-threatening or fatal, occurred in patients receiving BLINCYTO. Interrupt or discontinue BLINCYTO as recommended.
Contraindications

BLINCYTO is contraindicated in patients with a known hypersensitivity to blinatumomab or to any component of the product formulation.

Warnings and Precautions

Cytokine Release Syndrome (CRS): CRS, which may be life-threatening or fatal, occurred in patients receiving BLINCYTO. The median time to onset of CRS is 2 days after the start of infusion. Closely monitor patients for signs and symptoms of serious adverse events such as fever, headache, nausea, asthenia, hypotension, increased alanine aminotransferase (ALT), increased aspartate aminotransferase (AST), increased total bilirubin (TBILI), and disseminated intravascular coagulation (DIC). The manifestations of CRS after treatment with BLINCYTO overlap with those of infusion reactions, capillary leak syndrome (CLS), and hemophagocytic histiocytosis/macrophage activation syndrome (MAS). In clinical trials of BLINCYTO, CRS was reported in 15% of patients with relapsed or refractory ALL and in 7% of patients with MRD-positive ALL. Interrupt or discontinue BLINCYTO as outlined in the PI.
Neurological Toxicities: Approximately 65% of patients receiving BLINCYTO in clinical trials experienced neurological toxicities. The median time to the first event was within the first 2 weeks of BLINCYTO treatment and the majority of events resolved. The most common (≥ 10%) manifestations of neurological toxicity were headache and tremor. Severe, life‐threatening, or fatal neurological toxicities occurred in approximately 13% of patients, including encephalopathy, convulsions, speech disorders, disturbances in consciousness, confusion and disorientation, and coordination and balance disorders. Manifestations of neurological toxicity included cranial nerve disorders. Monitor patients for signs or symptoms and interrupt or discontinue BLINCYTO as outlined in the PI.
Infections: Approximately 25% of patients receiving BLINCYTO in clinical trials experienced serious infections such as sepsis, pneumonia, bacteremia, opportunistic infections, and catheter-site infections, some of which were life-threatening or fatal. Administer prophylactic antibiotics and employ surveillance testing as appropriate during treatment. Monitor patients for signs or symptoms of infection and treat appropriately, including interruption or discontinuation of BLINCYTO as needed.
Tumor Lysis Syndrome (TLS), which may be life-threatening or fatal, has been observed. Preventive measures, including pretreatment nontoxic cytoreduction and on-treatment hydration, should be used during BLINCYTO treatment. Monitor patients for signs and symptoms of TLS and interrupt or discontinue BLINCYTO as needed to manage these events.
Neutropenia and Febrile Neutropenia, including life-threatening cases, have been observed. Monitor appropriate laboratory parameters (including, but not limited to, white blood cell count and absolute neutrophil count) during BLINCYTO infusion and interrupt BLINCYTO if prolonged neutropenia occurs.
Effects on Ability to Drive and Use Machines: Due to the possibility of neurological events, including seizures, patients receiving BLINCYTO are at risk for loss of consciousness, and should be advised against driving and engaging in hazardous occupations or activities such as operating heavy or potentially dangerous machinery while BLINCYTO is being administered.
Elevated Liver Enzymes: Transient elevations in liver enzymes have been associated with BLINCYTO treatment with a median time to onset of 3 days. In patients receiving BLINCYTO, although the majority of these events were observed in the setting of CRS, some cases of elevated liver enzymes were observed outside the setting of CRS, with a median time to onset of 19 days. Grade 3 or greater elevations in liver enzymes occurred in approximately 7% of patients outside the setting of CRS and resulted in treatment discontinuation in less than 1% of patients. Monitor ALT, AST, gamma-glutamyl transferase (GGT), and TBILI prior to the start of and during BLINCYTO treatment. BLINCYTO treatment should be interrupted if transaminases rise to > 5 times the upper limit of normal (ULN) or if TBILI rises to > 3 times ULN.
Pancreatitis: Fatal pancreatitis has been reported in patients receiving BLINCYTO in combination with dexamethasone in clinical trials and the post-marketing setting. Evaluate patients who develop signs and symptoms of pancreatitis and interrupt or discontinue BLINCYTO and dexamethasone as needed.
Leukoencephalopathy: Although the clinical significance is unknown, cranial magnetic resonance imaging (MRI) changes showing leukoencephalopathy have been observed in patients receiving BLINCYTO, especially in patients previously treated with cranial irradiation and antileukemic chemotherapy.
Preparation and administration errors have occurred with BLINCYTO treatment. Follow instructions for preparation (including admixing) and administration in the PI strictly to minimize medication errors (including underdose and overdose).
Immunization: Vaccination with live virus vaccines is not recommended for at least 2 weeks prior to the start of BLINCYTO treatment, during treatment, and until immune recovery following last cycle of BLINCYTO.
Risk of Serious Adverse Reactions in Pediatric Patients due to Benzyl Alcohol Preservative: Serious and fatal adverse reactions including "gasping syndrome," which is characterized by central nervous system depression, metabolic acidosis, and gasping respirations, can occur in neonates and infants treated with benzyl alcohol-preserved drugs including BLINCYTO (with preservative). When prescribing BLINCYTO (with preservative) for pediatric patients, consider the combined daily metabolic load of benzyl alcohol from all sources including BLINCYTO (with preservative) and other drugs containing benzyl alcohol. The minimum amount of benzyl alcohol at which serious adverse reactions may occur is not known. Due to the addition of bacteriostatic saline, 7-day bags of BLINCYTO solution for infusion with preservative contain benzyl alcohol and are not recommended for use in any patients weighing < 22 kg.
Adverse Reactions

The most common adverse reactions (≥ 20%) in clinical trial experience of patients with MRD-positive B-cell precursor ALL (BLAST Study) treated with BLINCYTO were pyrexia, infusion related reactions, headache, infections (pathogen unspecified), tremor, and chills. Serious adverse reactions were reported in 61% of patients. The most common serious adverse reactions (≥2%) included pyrexia, tremor, encephalopathy, aphasia, lymphopenia, neutropenia, overdose, device related infection, seizure, and staphylococcal infection.
The most common adverse reactions (≥ 20%) in clinical trial experience of patients with Philadelphia chromosome-negative relapsed or refractory B-cell precursor ALL (TOWER Study) treated with BLINCYTO were infections (bacterial and pathogen unspecified), pyrexia, headache, infusion-related reactions, anemia, febrile neutropenia, thrombocytopenia, and neutropenia. Serious adverse reactions were reported in 62% of patients. The most common serious adverse reactions (≥ 2%) included febrile neutropenia, pyrexia, sepsis, pneumonia, overdose, septic shock, CRS, bacterial sepsis, device related infection, and bacteremia.
Adverse reactions that were observed more frequently (≥ 10%) in the pediatric population compared to the adult population were pyrexia (80% vs. 61%), hypertension (26% vs. 8%), anemia (41% vs. 24%), infusion-related reaction (49% vs. 34%), thrombocytopenia (34% vs. 21%), leukopenia (24% vs. 11%), and weight increased (17% vs. 6%).
In pediatric patients less than 2 years old (infants), the incidence of neurologic toxicities was not significantly different than for the other age groups, but its manifestations were different; the only event terms reported were agitation, headache, insomnia, somnolence, and irritability. Infants also had an increased incidence of hypokalemia (50%) compared to other pediatric age cohorts (15-20%) or adults (17%).
Dosage and Administration Guidelines

BLINCYTO is administered as a continuous intravenous infusion at a constant flow rate using an infusion pump which should be programmable, lockable, non-elastomeric, and have an alarm.
It is very important that the instructions for preparation (including admixing) and administration provided in the full Prescribing Information are strictly followed to minimize medication errors (including underdose and overdose).