On January 6, 2021 IMMUNOPRECISE ANTIBODIES LTD. ("IPA" or the "Company") (NASDAQ: IPA) (TSXV: IPA), a leader in full-service, therapeutic antibody discovery, reported that its board of directors has approved the grant of 25,000 stock options (the "Options") under its stock option plan to acquire up to an aggregate of 25,000 common shares in the capital of IPA ("Common Shares") (Press release, ImmunoPrecise Antibodies, JAN 6, 2021, View Source [SID1234573584]). Each of the five non-executive directors of IPA has been granted 5,000 Options.

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Each Option is exercisable for a period of five years from the date of grant at an exercise price of C$20.30 per Common Share. One quarter of the Options granted to each director will vest every three months from the date of grant.

On January 6, 2021 Quanterix Corporation (NASDAQ: QTRX), a company digitizing biomarker analysis to advance the science of precision health, reported that its Chairman, Chief Executive Officer and President, and Founder of Powering Precision Health (PPH), Kevin Hrusovsky, will be presenting on the Company’s growth and vision for the fifth consecutive year at the 39th Annual J.P. Morgan Healthcare Conference, taking place virtually (Press release, Quanterix, JAN 6, 2021, View Source [SID1234573583]). Hrusovsky’s session will take place on Wednesday, Jan. 13, 2021 at 3:40 p.m., EST (12:40 p.m., PST) and will be made available to attendees and public listeners here.

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Webcast Information

To access the live webcast of Quanterix’ presentation at the 39th Annual J.P. Morgan Healthcare Conference on Wednesday, Jan. 13, 2021 at 3:40 p.m., EST, please visit: View Source;kiosk=true.

Replays of the webcasts will be available for a limited period following the conference.

On January 6, 2021 Xencor, Inc. (NASDAQ:XNCR), a clinical-stage biopharmaceutical company developing engineered monoclonal antibodies for the treatment of cancer and autoimmune diseases, and The University of Texas MD Anderson Cancer Center reported a strategic research collaboration and commercialization agreement to develop novel CD3 bispecific antibody therapeutics for the potential treatment of patients with cancer (Press release, Xencor, JAN 6, 2021, View Source [SID1234573582]).

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This collaboration joins Xencor’s innovative XmAb technology and protein engineering expertise to create bispecific antibodies with MD Anderson’s expertise in the research and discovery of novel therapeutic antibodies, including the Oncology Research for Biologics and Immunotherapy Translation (ORBIT) platform, part of MD Anderson’s Therapeutics Discovery division.

"Xencor’s modular antibody engineering platform enables the rapid generation of XmAb bispecific antibodies, and our research collaboration with MD Anderson will further expand the use of our technology to explore novel therapeutic targets, which could result in the creation of new therapies for patients with cancer," said John Desjarlais, Ph.D., senior vice president and chief scientific officer at Xencor.

T cell-engaging bispecific antibodies are designed to recognize and bind to an antigen on tumor cells as well as to an activating receptor on T cells, such as CD3, in order to directly recruit and activate T cells against tumor cells. Xencor’s modular scaffold for engineering bispecific antibodies is the XmAb bispecific Fc domain, which enables the rapid creation of stable antibodies with novel anti-tumor mechanisms of action.

"There is an urgent need to discover new therapeutic targets and to develop antibody-based strategies to trigger an immune response against the tumors that express them," said Dongxing Zha, Ph.D., institute head of the ORBIT platform at MD Anderson. "Xencor’s multi-format-capable CD3 bispecific antibody platform enables us to rapidly develop and investigate therapies against intriguing tumor targets, and we look forward to evaluating the first candidates to be engineered as part of this collaboration."

MD Anderson will work to identify and develop potential antibodies, collaborating with Xencor to apply its XmAb bispecific technology to create therapeutic candidates. MD Anderson will then conduct and fund all preclinical activities to advance candidates toward clinical studies.

Xencor has certain exclusive options to license worldwide rights to develop and commercialize potential new medicines arising from the research collaboration. For programs not licensed by Xencor, Xencor will receive a portion of future payments received by MD Anderson. Xencor and MD Anderson are entering into the collaboration with two predetermined, undisclosed antibody candidates.

On January 6, 2021 Boundless Bio, a biotechnology company developing innovative therapeutics directed to extrachromosomal DNA (ecDNA) in aggressive cancers, reported that Zachary Hornby, President and Chief Executive Officer of Boundless Bio, will present at the 39th Annual J.P. Morgan Healthcare Conference and the H.C. Wainwright BioConnect 2021 Conference (Press release, Boundless Bio, JAN 6, 2021, View Source [SID1234573581]).

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Presentation details are as follows:

39th Annual J.P. Morgan Healthcare Conference
Date: Wednesday, January 13, 2021
Time: 4:20 p.m. EST

H.C. Wainwright BioConnect 2021 Conference
Date: Monday, January 11, 2021
Time: 6:00 a.m. EST (available on demand)

On January 6, 2021 NorthStar Medical Radioisotopes, LLC, a global innovator in the production and distribution of radiopharmaceuticals used for medical imaging and therapeutic treatments, reported that the U.S. Food and Drug Administration (FDA) has approved its application for producing Mo-99 from concentrated Mo-98 (cMo-98) and related software updates for the RadioGenix System (technetium Tc 99m generator) (Press release, NorthStar Medical Radiostopes, JAN 6, 2021, View Source [SID1234573580]). Processing of cMo-98 targets increases production capacity of the important medical radioisotope, molybdenum-99 (Mo-99), up to four times above that of current NorthStar technology, and enables NorthStar to provide customers with higher activity source vessels, which will support enhanced radiopharmacy efficiencies. FDA approval was granted through a Prior Approval Supplement (PAS) to NorthStar’s original RadioGenix System (technetium Tc 99m generator) New Drug Application, which was approved in 2018. The RadioGenix System is an innovative, high tech radioisotope separation platform for use in producing the widely used medical radioisotope technetium-99m (Tc-99m) from domestically-produced, non-uranium based Mo-99. NorthStar expects to begin shipments of larger capacity, multi-sized source vessels to customers in the coming days.

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"NorthStar, and its partners at the University of Missouri Research Reactor (MURR), are proudly leading the way as the only commercialized producer of Mo-99 in the United States," said Stephen Merrick, President and Chief Executive Officer of NorthStar. "This approval of production utilizing cMo-98 and the related RadioGenix System software updates is a transformational event for NorthStar Medical Radioisotopes and a key milestone in significantly increasing domestic production and capacity of non-uranium based Mo-99 for the United States. It enables a near four-fold increase in U.S. Mo-99 production capacity for NorthStar to meet customer demand. The ability to provide our customers with a range of higher activity source vessels (7.5 Ci, 12 Ci, 15 Ci and 19 Ci) will help drive efficiencies in radiopharmacy operations and patient access to Tc-99m, which informs more than 40,000 U.S. healthcare decisions daily. To further maximize radiopharmacy efficiencies, and unique to the industry, NorthStar can now also provide a 21-day expiration for our Mo-99 source vessels and a 24-hour Beyond Use Date (BUD) for Tc-99m generated using the RadioGenix System. In conjunction with this approval, we also wish to recognize the important support that our partners at MURR, with whom we jointly produce Mo-99 in Columbia, Mo., have had in helping to progress cMo-98 development."

Mr. Merrick continued, "We continue to successfully deliver on our Mo-99 production plans and RadioGenix System enhancement roadmap, with this cMo-98 approval marking the fifth FDA approval for the RadioGenix System and non-uranium-based Mo-99 production since 2018. The RadioGenix System is changing the way that radiopharmacies plan for having reliable, domestic Mo-99 supply on time and when needed. We are pleased to note that NorthStar has now achieved two years of reliable commercial production. Our active expansion to ensure continued, reliable domestic Mo-99 supply through establishing dual production and processing hubs for additional capacity and scheduling flexibility remains on track. Equipment installation, testing and qualification is proceeding on schedule, and upon appropriate licensure and FDA approval, our Isotope Processing facility in Beloit, Wis., will augment current processing in Columbia, Mo. Our Accelerator Production facility construction in Beloit, which will enable additional production of Mo-99 using "neutron knock-out" technology continues on track, with the initial pair of accelerators undergoing final testing prior to shipment to the United States, where we expect them to be installed in early 2021."

"NorthStar is the first company to deploy innovative cMo-98 technology for radioisotope production on a commercial scale," said James T. Harvey, PhD, Senior Vice President and Chief Science Officer of NorthStar. "The process uses natural molybdenum, which is approximately 24% Mo-98, that has been concentrated to be up to 98% Mo-98 (cMo-98), to produce Mo-99 using neutron capture technology."

About the RadioGenix System (Technetium Tc 99m Generator)
The RadioGenix System is an innovative, high tech separation platform that is approved for processing non-uranium based molybdenum-99 (Mo-99) for the production of the important medical radioisotope, technetium-99m (Tc-99m). Prior to availability of RadioGenix technology, the U.S. supply chain for Mo-99 has been subject to frequent and sometimes severe interruptions which negatively impact patient healthcare. Approved by the U.S. Food and Drug Administration in 2018, the RadioGenix System is the first and only on-site, automated isotope separation system of its kind for use with non-uranium based Mo-99, designed to help alleviate shortage situations and expand domestic supply.

Indication and Important Risk Information about the RadioGenix System and Sodium Pertechnetate Tc 99m Injection USP

The RadioGenix System is a technetium Tc-99m generator used to produce Sodium Pertechnetate Tc 99m Injection, USP. Sodium Pertechnetate Tc 99m Injection is a radioactive diagnostic agent and can be used in the preparation of FDA-approved diagnostic radiopharmaceuticals.

Sodium Pertechnetate Tc 99m Injection is also indicated in

Adults for Salivary Gland Imaging and Nasolacrimal Drainage System Imaging (dacryoscintigraphy).
Adults and pediatric patients for Thyroid Imaging and Vesicoureteral Imaging (direct isotopic cystography) for detection of vesicoureteral reflux.
IMPORTANT RISK INFORMATION

Allergic reactions (skin rash, hives, or itching) including anaphylaxis have been reported following the administration of Sodium Pertechnetate Tc 99m Injection. Monitor all patients for hypersensitivity reactions.
Radiation risks associated with the use of Sodium Pertechnetate Tc 99m Injection are greater in children than in adults and, in general, the younger the child, the greater the risk owing to greater absorbed radiation doses and longer life expectancy. These greater risks should be taken firmly into account in all benefit-risk assessments involving children. Long-term cumulative radiation exposure may be associated with an increased risk of cancer.
Unintended Re-186 Exposure: Discard the first eluate from every new Potassium Molybdate Mo-99 Source Vessel to minimize the risk of unintended radiation exposure from Rhenium Re-186.
Temporarily discontinue breastfeeding. A lactating woman should pump and discard breastmilk for 12 to 24 hours after Sodium Pertechnetate Tc 99m Injection administration.
Sodium Pertechnetate Tc 99m Injection should be given to pregnant women only if the expected benefits to be gained clearly outweigh the potential hazards.
Only use potassium molybdate Mo-99, processing reagents, saline and other supplies, including kit/packs, provided by NorthStar Medical Radioisotopes. Do not administer Sodium Pertechnetate Tc 99m Injection after the 0.15 microCi of Mo-99/mCi of Tc-99m limit has been reached or when the 24 hour expiration time from elution is reached, whichever occurs earlier.