On August 1, 2022 Zymeworks Inc. (NYSE: ZYME), a clinical-stage biopharmaceutical company developing next-generation multifunctional biotherapeutics, reported that management will participate in an upcoming investor conference (Press release, Zymeworks, AUG 1, 2022, View Source [SID1234617214]):

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Citi’s 17th Annual BioPharma Conference. Zymeworks will participate in one-on-one meetings and management will participate in a fireside chat on September 7th in Boston, MA.
2022 Wells Fargo Healthcare Conference. Zymeworks will participate in one-on-one meetings and management will participate in a fireside chat on September 8th in Boston, MA.
Morgan Stanley 20th Annual Global Healthcare Conference. Zymeworks will participate in one-on-one meetings on September 13th and 14th in New York, NY.
H.C. Wainwright 24th Annual Global Investment Conference. Zymeworks will virtually participate in one-on-one meetings on September 13th and 14th and will make available a pre-recorded presentation on September 12th.
The presentation and fireside chats will be available on Zymeworks’ website at View Source

On August 1, 2022 As part of its continued commitment to expand the benefits of next-generation sequencing (NGS), Thermo Fisher Scientific reported that it is now accepting submissions for the fifth round of the Oncomine Clinical Research Grant program (Press release, Thermo Fisher Scientific, AUG 1, 2022, View Source [SID1234617213]). The program supports clinical and translational research that advances the use of genomic testing to unlock the promise of precision medicine for more cancer patients.

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The program awards independent clinical research teams with financial support worth up to $200,000 in reagents and general funding. Since its introduction in 2020, the Oncomine Clinical Research Grant program has provided support to more than 20 unique research projects across 11 countries in areas including hematology-oncology, immuno-oncology, liquid biopsy and gene fusion detection.

"NGS has the power to transform cancer treatment by matching patients with the right therapy quickly, but more research is needed to investigate new applications with the potential to address areas of unmet diagnostic need," said Jose Luis Costa, Ph.D., director of medical affairs for clinical next-generation sequencing and oncology at Thermo Fisher. "We launched the Oncomine Clinical Research Grant program to help fill this gap by supporting the next discoveries in genomic research that may advance precision oncology and improve patients’ lives in the future."

Spring 2022 Grant Recipients Named

Following the last call for proposals in the spring, the following researchers and projects have been selected as the latest grant recipients:

Matias Avila, B. Pharm., Ph.D., University of Navarra, Pamplona, Spain — "Mutational Analysis of Bile cfDNA for the Early Diagnosis of Biliopancreatic Tumors"
Wendy Erber, M.D., The University of Western Australia, Crawley, Australia — "Genomic Profiling and Disease Monitoring Using Plasma Cell-Free DNA in Acute Myeloid Leukemia"
Xiuning Le, M.D., Ph.D., MD Anderson Cancer Center, Houston, U.S. — "ctDNA Analysis to Understand Resistance and Response to Osimertinib Ramucirumab Combination Therapy in EGFR Mutant Non-Small Cell Lung Cancer"
Nir Peled, M.D., Ph.D., FCCP, Shaare Zedek Medical Center, Jerusalem, Israel — "Liquid Biopsy in Suspected Lung Cancer Solitary Pulmonary Nodules"
Two years into the program, studies supported by the grant are already delivering insights with the future potential to improve patient outcomes. Pathologist Brandon Sheffield, M.D., and his team at William Osler Health System leveraged the Oncomine Clinical Research Grant he received in 2020 to demonstrate cost-effectiveness and better care through rapid in-house genomic profiling in a community oncology practice. The Osler team’s findings were recently published in Current Oncology.

"Community hospitals, where the majority of cancer patients are treated, often rely on outsourced testing or single-gene testing – both of which significantly slow time to results," said Dr. Sheffield. "The Oncomine Clinical Research Grant accelerated our ability to demonstrate the benefits of bringing user-friendly, rapid NGS in-house to help clinical teams make fast and objective treatment decisions that benefit their patients."

Grant applications are open through Sept. 26, 2022. For more information on the Oncomine Clinical Research Grant Program and how to submit proposals, please visit www.oncomine.com/grants.

On August 1, 2022 Gamida Cell Ltd. (Nasdaq: GMDA), the leader in the development of NAM-enabled cell therapy candidates for patients with hematologic and solid cancers and other serious diseases, reported that the U.S. Food and Drug Administration (FDA) has accepted for filing the Company’s Biologics License Application (BLA) for omidubicel for the treatment of patients with blood cancers in need of an allogenic hematopoietic stem cell transplant (Press release, Gamida Cell, AUG 1, 2022, View Source [SID1234617212]). Omidubicel is a first-in-class, advanced NAM-enabled stem cell therapy candidate with breakthrough and orphan drug designations.

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The FDA granted Priority Review for the BLA and has set a Prescription Drug User Fee Act (PDUFA) target action date of January 30, 2023. The FDA grants Priority Review to product applications that, if approved, would provide significant improvements in the safety or effectiveness of the treatment, diagnosis, or prevention of serious conditions when compared to standard applications. At this time, the FDA has indicated that it is not planning an advisory committee meeting as part of the BLA review.

"The FDA’s acceptance of our BLA with Priority Review signifies a critical milestone in our mission to deliver a new stem cell therapy option for patients in need of a donor for an allogeneic stem cell transplant," said Julian Adams, Ph.D., chief executive officer of Gamida Cell. "We are encouraged by the positive and sustained follow-up results from patients participating in the Phase 3 trial of omidubicel, including a positive overall survival trend one-year out from treatment. These results provide promising rationale that, if approved, omidubicel could become a treatment of choice for patients in need of an allo-HSCT transplant. We look forward to working with the FDA throughout the review process to bring omidubicel to patients as quickly as possible."

Upon FDA approval, omidubicel will be manufactured at the Gamida Cell owned manufacturing facility in Israel. This is a newly constructed, state-of-the-art, modular facility which allows for additional capacity to be added to address growing demand. Batches from this facility were used to support the BLA for omidubicel and the facility is currently manufacturing clinical batches.

The omidubicel BLA is supported by the statistically significant results from Gamida Cell’s pivotal Phase 3 study, the results of which were published in Blood, the official journal of the American Society of Hematology (ASH) (Free ASH Whitepaper). Results for the study’s primary endpoint, the median time to neutrophil engraftment in patients with hematologic malignancies undergoing allogeneic bone marrow transplant with omidubicel compared to standard umbilical cord blood (UCB), demonstrated a median time to neutrophil engraftment of 12 days for patients randomized to omidubicel compared to 22 days for the comparator group (p < 0.001). The secondary endpoints of this Phase 3 study were all achieved and were statistically significant. These secondary endpoints were platelet engraftment, the rate of infection, and days alive and out of hospital. Omidubicel was generally well tolerated in the Phase 3 study.

The full Blood manuscript is available here: View Source

In 2019, approximately 8,000 patients who were 12 years old and up with hematologic malignancies underwent an allogeneic stem cell transplant in the United States.1 Unfortunately, it is estimated that another 1,200 patients were eligible for transplant but could not find a donor source.2 If approved, omidubicel has the potential to improve outcomes for patients based on transplanter feedback and to potentially increase access for patients to get to transplant. If approved, omidubicel has the potential to treat approximately 2,000 – 2,500 patients each year in the U.S.

Conference Call Information

Gamida Cell will host a conference call today, August 1, 2022, at 8:00 a.m. ET to discuss this update. To access the conference call, please register here and please be advised to do so at least 10 minutes prior to joining the call. A live webcast of the conference call can be accessed in the "Investors & Media" section of Gamida Cell’s website at www.gamida-cell.com. A replay of the webcast will be available approximately two hours after the event, for approximately 30 days.

About Omidubicel

Omidubicel is an advanced cell therapy candidate developed as a potential life-saving allogeneic hematopoietic stem cell (bone marrow) transplant for patients with blood cancers. Omidubicel demonstrated a statistically significant reduction in time to neutrophil engraftment in comparison to standard umbilical cord blood in an international, multi-center, randomized Phase 3 study (NCT0273029) in patients with hematologic malignancies undergoing allogeneic bone marrow transplant. The Phase 3 study also showed reduced time to platelet engraftment, reduced infections and fewer days of hospitalization. One-year post-transplant data showed sustained clinical benefits with omidubicel as demonstrated by significant reduction in infectious complications as well as reduced non-relapse mortality and no significant increase in relapse rates nor increases in graft-versus-host-disease (GvHD) rates. Omidubicel is the first stem cell transplant donor source to receive Breakthrough Therapy Designation from the FDA and has also received Orphan Drug Designation in the US and EU.

Omidubicel is an investigational stem cell therapy candidate, and its safety and efficacy have not been established by the FDA or any other health authority. For more information about omidubicel, please visit View Source

About NAM Technology

Our NAM-enabling technology is designed to enhance the number and functionality of targeted cells, enabling us to pursue a curative approach that moves beyond what is possible with existing therapies. Leveraging the unique properties of NAM (nicotinamide), we can expand and metabolically modulate multiple cell types — including stem cells and natural killer cells — with appropriate growth factors to maintain the cells’ active phenotype and enhance potency. Additionally, our NAM technology improves the metabolic fitness of cells, allowing for continued activity throughout the expansion process.

On August 1, 2022 NanOlogy LLC, a clinical-stage interventional oncology drug company, reported that results from a clinical trial of Large Surface Area Microparticle Docetaxel (LSAM-DTX) in High-Risk Non-Muscle Invasive Bladder Cancer (HR-NMIBC) have been published in The Journal of Urology (Press release, NanOlogy, AUG 1, 2022, View Source [SID1234617211]).

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The research article entitled Phase 1/2 Trial Results of a Large Surface Area Microparticle Docetaxel for the Treatment of High-Risk Non-Muscle Invasive Bladder Cancer presents safety and response data from the multi-site study (NCT03636256). Clinical investigators included Max Kates, MD (Johns Hopkins Medical Institutions), Ahmed Mansour, MD (UT Health San Antonio), Donald Lamm, MD (BCG Oncology), and Neal Shore, MD (Carolina Urologic Research Institute).

The trial followed an open-label 3+3 dose-escalation design with enrollment expansion at the highest dose. After transurethral resection of the bladder tumor (TURBT), subjects received direct-injection LSAM-DTX into the resection site and intravesical LSAM-DTX, followed by six-week induction and three-week maintenance intravesical LSAM-DTX courses. The first-in-human trial was initially designed as a 7-month study with treatment limited to 4 months to establish safety but later amended to follow patients to 12 months despite the treatment limitation. Tumor recurrence was evaluated by cytology, cystoscopy, or biopsy. Pharmacokinetic analysis of blood and multiplex immunofluorescence analysis of tumor microenvironment were conducted pre/post treatment.

Nineteen subjects were enrolled, 14 with prior bacillus Calmette-Guérin (BCG) exposure, and 16 with one or more prior TURBTs. Direct-injection and intravesical LSAM-DTX were well-tolerated with minor recorded treatment-related local and systemic adverse events. Median recurrence free survival was 12.2 months in the high-dose and expansion cohorts and was significantly increased compared to the low dose cohorts at 5.4 months. Bladder biopsies show an increase in tumor microenvironment immunogenicity, including increases in adaptive (T cells) and innate (NK cells) effector cells. Notably, immune checkpoint receptor expression was increased across multiple cell types, suggesting LSAM-DTX in combination with immune checkpoint inhibitor therapy may provide additional benefit in treatment of HR-NMIBC.

Worldwide, an estimated 573,000 people were diagnosed with bladder cancer in 2020 and 81,000 people will be diagnosed with bladder cancer in the United States in 2022. About 40% of patients are at higher risk for disease progression at time of diagnosis (GLOBOCAN 2020; SEER). Recurrence rates are high in these patients with currently available treatments, potentially leading to disease progression and cystectomy. Bladder cancer has among the highest life-time treatment costs of all cancers and the negative impact to patient quality of life in patients facing cystectomy is severe. A significant need exists for better drug therapies to stave off disease progression.

"Bladder cancer at high risk for progression needs better treatment options," said Max Kates, MD, Director, Bladder Cancer Program and Associate Professor of Urology of the Brady Urological Institute at Johns Hopkins Medicine. "In this Phase 1/2 clinical trial, LSAM-DTX showed promising signs of preventing disease progression and interesting immunogenic effects with minimal adverse events. Further clinical research is warranted to confirm these findings."

NanOlogy is planning further clinical development of LSAM-DTX, which it believes has therapeutic potential in NMIBC and muscle invasive bladder cancer, which also showed promising results in a separate arm of the trial and will be reported once finalized.

In addition to LSAM-DTX, NanOlogy clinical programs have advanced tumor-directed investigational drugs in pancreas, lung, peritoneal, ovarian, prostate, and dermal cancers.

The NanOlogy therapeutic platform is based on a proprietary supercritical precipitation technology that converts active ingredients into stable large surface area microparticles (LSAMs) of pure drug optimized for tumor-directed therapy and continuous drug release to maximize drug delivered to the tumor and minimize systemic toxicity.

Taxane particles are covered by composition of matter patents issued in the US (US 9,814,685, US 10,507,195, US 10,993,927, and US 11,123,322), Canada, Europe, Japan, China, Hong Kong, South Korea, Australia, Indonesia, and Russia valid through June 2036. The composition patents form the foundation of an extensive intellectual property portfolio protecting NanOlogy investigational drugs, formulations, methods, and technology.

On August 1, 2022 CohBar, Inc. (NASDAQ: CWBR), a clinical stage biotechnology company leveraging the power of the mitochondria and the peptides encoded in its genome to develop potential breakthrough therapeutics targeting chronic and age-related diseases, reported that the company will release its 2022 second quarter financial results after the market closes on Monday, August 15, 2022 (Press release, CohBar, AUG 1, 2022, View Source [SID1234617210]). Management will host a conference call and webcast at 5:00 p.m. ET (2:00 p.m. PT) on the same day to provide an update on the company’s business.

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A simultaneous webcast of the call will be accessible via the Investors section of the CohBar website at www.cohbar.com.
For individuals participating in the Investor Call or webcast, please call or login to the conference audio approximately 10 minutes prior to its start.

An audio replay of the call will be available beginning at 8:00 p.m. Eastern Time on August 15, 2022, through 11:59 p.m. Eastern Time on September 5, 2022. To access the recording please dial (844) 512-2921 in the U.S. and Canada, or (412) 317-6671 internationally, and reference Conference ID# 13730421. The audio recording will also be available at www.cohbar.com during the same period.