On January 29, 2018 Sumitomo Dainippon Pharma reported its Supplementary Financial Data
for the Third Quarter of the Year Ending March 31, 2018 (Press release, Dainippon Sumitomo Pharma, JAN 29, 2018, View Source [SID1234523624]).

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On January 29, 2018 DiaMedica Therapeutics Inc. (TSXV:DMA) (OTCQB:DMCAF), reported that Mr. Rick Pauls, its President and CEO, will present at Noble Capital Markets’ Fourteenth Annual Investor Conference at the W Hotel, Fort Lauderdale, Florida on Tuesday, January 30th at 01:30 pm EST – Studio 1 (Press release, DiaMedica, JAN 29, 2018, View Source [SID1234523653]).

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On January 29, 2018 Lee’s Pharm and Sorrento Therapeutics reported that the Chinese authorities have approved China Oncology Focus Limited (COF, an affiliate of Lee’s Pharmaceutical Holdings Limited, Hong Kong Stock Symbol: 0950.HK) to proceed with the clinical trials for ZKAB001, an anti-PD-L1 monoclonal antibody exclusively licensed to COF for Greater China territories, by Sorrento Therapeutics (Press release, Sorrento Therapeutics, JAN 29, 2018, View Source [SID1234532254]).

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The investigation sites will be:

Beijing Cancer Hospital
The Cancer Institute and Hospital, Chinese Academy of Medical Sciences
Wuhan Union Hospital
Shanghai Sixth People’s Hospital
The trials will be anticipated to use a 3+3 design with 5mg/kg, 10mg/kg and 15mg/kg dosing regimens. Once the Maximum Tolerated Dose (MTD) has been established, additional patients are expected to be recruited in an expanded Phase 1 protocol. Clinical data from these studies could be available by the end of the year 2019, and positive results could lead to conditional approval of the antibody prior to a confirmatory Phase 3 study.

"We are proud to announce the acceptance of the IND for our anti-PD-L1 antibody ZKAB001. It’s further evidence for COF continued commitment to addressing high unmet oncology needs by bringing new effective immuno-oncology therapies to the Chinese market. Throughout the IND-enabling activities and the extensive IND review process by the Chinese FDA, the COF team has worked closely and efficiently with Sorrento colleagues. In the landscape of anti-PD-L1 therapies in China, we believe our program is part of the first wave of immune checkpoint inhibitors. Encouraged by our impressive preclinical data, we are excited about evaluating our immunotherapy and addressing unmet medical needs of cancer patients in the Greater China region. Based on this highly productive first joint project, we look forward to potentially expanding our partnership with Sorrento," said Dr. Xiaoyi (Benjamin) Li, Chief Executive Officer and Executive Director of COF.

"We believe COF’s progress in the development of cancer therapeutics for the Greater China market utilizing our G-MAB library of fully human antibodies is a testimony of the value of Sorrento’s comprehensive portfolio of immuno-oncology platform technologies and products acquired and developed over the years," stated Dr. Henry Ji, Chairman and CEO. "Although our own internal resources are currently focused on the development of CAR-T platforms and programs, we think we have shown success in collaborations and out-licensing of other therapeutic assets to a number of strategic partners. COF’s success in developing ZKAB001 could lead to milestone and royalty payments to Sorrento."

About ZKAB001 (anti-PD-L1 monoclonal antibody)

ZKAB001 is a fully human anti-PD-L1 monoclonal antibody (mAb), an immune checkpoint inhibitor. The mAb blocks the interaction of PD-L1 protein with its receptor PD-1, then suppressing the inhibition of PD-1/PDL1 signal to T cells and enhancing the killing effect of T cells on tumors. This antibody also kills cancer cells through traditional antibody-dependent cell-mediated cytotoxicity (ADCC) recruiting Natural Killer (NK) cells and other effector cells against the tumor potentially further strengthening the anti-tumor effect of the antibody. It was licensed from Sorrento Therapeutics, Inc. (SRNE) to COF in Q4 2014.

On January 29, 2018 TrakCel, the software developer for cell and gene therapy supply chain tracking and orchestration systems, and WindMIL Therapeutics, a clinical stage oncology cell therapy company leveraging a proprietary platform to develop a novel class of cell therapies called MILs (Marrow Infiltrating Lymphocytes), reported they have partnered to build a custom-configured cellular supply chain tracking and orchestration platform to support clinical development of proprietary autologous cell therapies by WindMIL (Press release, TrakCel, JAN 29, 2018, View Source [SID1234553992]).

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The supply chain platform will be used to manage WindMIL’s entire supply chain as WindMIL expands its program of cell therapy clinical trials later this year. This expansion of clinical trials follows WindMIL’s completion of a $32.5 million Series B fundraising in June 2018. WindMIL’s unique expertise in bone marrow immunology includes the only replicable and scalable process to create a cell therapy product from bone marrow-derived T cells, which are naturally tumor specific and of a memory phenotype.

The TrakCel platform will be live in over 100 sites globally by Q1 2019. This will enable WindMIL to leverage clinical site familiarity with the platform, while ensuring connectivity across all organizations and professionals involved. The system will harmonize with all partner internal systems, including those of clinical sites, couriers, CROs and CMOs. This will support an efficient and well controlled supply chain that makes the precision of collection, transportation and manufacturing visible to all involved. It also will encompass a specifically designed
interface for physicians and medical teams.

"We are excited to soon treat more patients with MILs through this expansion of our clinical trial program. MILs harness the power of the body’s own immune system, specifically cells residing in the bone marrow. We are the only company focused on manufacturing and developing this natural source of tumor-targeting, central-memory T cells," said Brian Halak, President and CEO, WindMIL
Therapeutics. "However, developing novel cellular therapies is also about logistics. It is important for us to ensure the supply chain works for each of the individuals involved in the patient’s care and for the oncology patients themselves. We wanted to appoint a company that we saw as a partner, capable of delivering a supply chain solution that is essential for clinical success. TrakCel had the expertise and experience to achieve this."

"The entire cell therapy sector now realizes the importance of managing and tracking the supply chain from an early stage. As a result, TrakCel is now working with a range of companies at the initiation of the clinical stage as well as at the late stage of clinical development," said Ravi Nalliah, CEO of TrakCel. "The opportunity cost of the resources used for managing supply chains is even more important for companies at the earlier clinical stage. This means it is essential for TrakCel to continue to develop our cell therapy supply chain solutions as the cell therapy market continues to evolve."

On January 26, 2018 The U.S. Food and Drug Administration reported the approval of Lutathera (lutetium Lu 177 dotatate) for the treatment of a type of cancer that affects the pancreas or gastrointestinal tract called gastroenteropancreatic neuroendocrine tumors (GEP-NETs) (Press release, US FDA, JAN 26, 2018, View Source [SID1234523587]). This is the first time a radioactive drug, or radiopharmaceutical, has been approved for the treatment of GEP-NETs. Lutathera is indicated for adult patients with somatostatin receptor-positive GEP-NETs.

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"GEP-NETs are a rare group of cancers with limited treatment options after initial therapy fails to keep the cancer from growing," said Richard Pazdur, M.D., director of the FDA’s Oncology Center of Excellence and acting director of the Office of Hematology and Oncology Products in the FDA’s Center for Drug Evaluation and Research. "This approval provides another treatment choice for patients with these rare cancers. It also demonstrates how the FDA may consider data from therapies that are used in an expanded access program to support approval for a new treatment."

GEP-NETs can be present in the pancreas and in different parts of the gastrointestinal tract such as the stomach, intestines, colon and rectum. It is estimated that approximately one out of 27,000 people are diagnosed with GEP-NETs per year.

Lutathera is a radioactive drug that works by binding to a part of a cell called a somatostatin receptor, which may be present on certain tumors. After binding to the receptor, the drug enters the cell allowing radiation to cause damage to the tumor cells.

The approval of Lutathera was supported by two studies. The first was a randomized clinical trial in 229 patients with a certain type of advanced somatostatin receptor-positive GEP-NET. Patients in the trial either received Lutathera in combination with the drug octreotide or octreotide alone. The study measured the length of time the tumors did not grow after treatment (progression-free survival). Progression-free survival was longer for patients taking Lutathera with octreotide compared to patients who received octreotide alone. This means the risk of tumor growth or patient death was lower for patients who received Lutathera with octreotide compared to that of patients who received only octreotide.

The second study was based on data from 1,214 patients with somatostatin receptor-positive tumors, including GEP-NETS, who received Lutathera at a single site in the Netherlands. Complete or partial tumor shrinkage was reported in 16 percent of a subset of 360 patients with GEP-NETs who were evaluated for response by the FDA. Patients initially enrolled in the study received Lutathera as part of an expanded access program. Expanded access is a way for patients with serious or immediately life-threatening diseases or conditions who lack therapeutic alternatives to gain access to investigational drugs for treatment use.

Common side effects of Lutathera include low levels of white blood cells (lymphopenia), high levels of enzymes in certain organs (increased GGT, AST and/or ALT), vomiting, nausea, high levels of blood sugar (hyperglycemia) and low levels of potassium in the blood (hypokalemia).

Serious side effects of Lutathera include low levels of blood cells (myelosuppression), development of certain blood or bone marrow cancers (secondary myelodysplastic syndrome and leukemia), kidney damage (renal toxicity), liver damage (hepatotoxicity), abnormal levels of hormones in the body (neuroendocrine hormonal crises) and infertility. Lutathera can cause harm to a developing fetus; women should be advised of the potential risk to the fetus and to use effective contraception. Patients taking Lutathera are exposed to radiation. Exposure of other patients, medical personnel, and household members should be limited in accordance with radiation safety practices.

Lutathera was granted Priority Review, under which the FDA’s goal is to take action on an application within six months where the agency determines that the drug, if approved, would significantly improve the safety or effectiveness of treating, diagnosing or preventing a serious condition. Lutathera also received Orphan Drug designation, which provides incentives to assist and encourage the development of drugs for rare diseases.