Industry Outlook
Virica Biotech | January 17, 2024
Virica Biotech Inc. (“Virica”), a leading developer of cell enhancers for scaling of viral vector as well as cell and gene therapy manufacturing will expand its bioprocessing services through a partnership with Carleton University. Slated to open this spring, Virica’s new facility at the university multiplies the Company’s capacity to provide high throughput virology services for customers looking to optimize production of their cell and gene therapies.
“Carleton’s new Health Sciences Building provides us with greater access to modern infrastructure and analytical expertise,” said Jean Simon Diallo, Ph.D., CEO of Virica Biotech. “Their state-of-the-art analytical research facilities and world-class researchers across multiple disciplines open the door to exciting opportunities for partnering with Carleton University as we continue to invest to meet customer demand.”
“We are very pleased to welcome Virica Biotech to the Carleton campus,” said Rafik Goubran, Ph.D., Vice-President (Research and International) and Chancellor’s Professor, Carleton University. “This multi-year, multi-million-dollar research and infrastructure partnership will help drive innovation and talent development in the Ottawa region for the creation and manufacturing of advanced therapies.”
This partnership expands on Carleton’s history of supporting Ottawa biotechnology companies. The new open concept facility will include high throughput equipment to accelerate Virica’s bioprocess development and optimizations. In addition to expanded modern infrastructure, this new location enables the development and recruitment of world-class talent with experiential learning and training opportunities for Carleton students. Through this partnership, Carleton will coordinate the establishment of a scholarship fund designed to empower graduate students from traditionally underrepresented groups in science.
About Virica Biotech
Virica develops cell enhancers for viral vectors that improve the yield and quality of vaccines and cell and gene therapies, allowing developers to economically deploy their products at scale. Virica’s Viral Sensitizer (VSE™) platform reduces production inefficiencies caused by anti-viral defenses in manufacturing cells. Purpose formulated VSE combinations substantially increase manufacturing yields and reduce the cost of goods for a range of life-changing products, including vaccines, gene therapies, and cell therapies.
About Carleton University
Carleton University is a dynamic, research-intensive institution that engages in partnerships to address the world’s most pressing challenges. The university’s corporate collaborations bring together world-class companies, researchers and a new generation of talent with over 30,000 students to deliver innovations and results that are driving a more prosperous, sustainable future.
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Medical
Capricor Therapeutics | January 24, 2024
Capricor Therapeutics a biotechnology company developing transformative cell and exosome-based therapeutics for the treatment and prevention of rare diseases, today announced that Capricor’s proprietary StealthX™ exosome-based multivalent vaccine (StealthX™ vaccine) for the prevention of SARS-CoV-2 has been selected to be part of Project NextGen, an initiative by the U.S. Department of Health and Human Services to advance a pipeline of new, innovative vaccines providing broader and more durable protection for COVID-19. As part of Project NextGen, the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, will conduct a Phase 1 clinical study with Capricor’s StealthX™ vaccine, subject to regulatory approval. NIAID's Division of Microbiology and Infectious Diseases (DMID) would oversee the study.
“We are extremely pleased with the external support from the NIH, which highlights the clinical potential of our StealthX™ exosome platform technology and provides non-dilutive support for the advancement of our vaccine candidate,” said Linda Marbán, Ph.D., Capricor’s chief executive officer. “Our proprietary vaccine is multivalent, delivering both the highly mutagenic S protein (Spike) and the more stable N protein (Nucleocapsid) which potentially may offer broader and longer lasting immunity against SARS-CoV-2. We view the NIH SARS-CoV-2 project as the first clinical step towards development of a next generation vaccine platform that may be extended to other infectious diseases. Our platform is designed to combine the speed of response of an mRNA vaccine with the potential efficacy of a protein vaccine. Further, our StealthX™ vaccine is free of both adjuvant and lipid nanoparticles and in preclinical studies has generated a strong immune response at low doses. We believe our StealthX™ vaccine may offer a clinically meaningful alternative for highly mutating or novel infectious agents.”
Dr. Marbán continued, “This is the opportunity we have been waiting for as it allows the exosome technology to be brought into the clinic as we continue to focus our resources on CAP-1002 for the treatment of Duchenne muscular dystrophy. Beyond SARS-CoV-2, we look forward to exploring the potential therapeutic utility of this platform, and more broadly, expanding our pipeline into therapeutics and future partnership opportunities.”
About Capricor’s StealthX™ Vaccine
The StealthX™ vaccine is a proprietary vaccine developed internally by Capricor utilizing exosomes that were engineered to express either spike or nucleocapsid proteins on the surface. Preclinical results from murine and rabbit models published in Microbiology Spectrum, showed the StealthX™ vaccine, resulted in robust antibody production, potent neutralizing antibodies, a strong T-cell response and a favorable safety profile. These effects were obtained with administration of only nanogram amounts of protein and without adjuvant or synthetic lipid nanoparticles (LNPs). Exosomes offer a new antigen delivery system that potentially could be utilized to rapidly generate multivalent protein-based vaccines. Exosomes, first identified as extracellular vesicles, are small vesicles enriched in specific subsets of proteins, RNAs and lipids and responsible for cell-to-cell communication.
About Capricor Therapeutics
Capricor Therapeutics, Inc. is a biotechnology company focused on the development of transformative cell and exosome-based therapeutics for the treatment and prevention of rare diseases. Capricor’s lead candidate, CAP-1002, is an allogeneic cardiac-derived cell therapy currently in Phase 3 clinical development for treating Duchenne muscular dystrophy (DMD). Further, Capricor has entered into a partnership for the exclusive commercialization and distribution of CAP-1002 for DMD in the United States and Japan with Nippon Shinyaku Co., Ltd. (U.S. subsidiary: NS Pharma, Inc.), subject to regulatory approval. Capricor is also developing its exosome technology as a potential next-generation therapeutic platform. Our proprietary StealthX™ exosome platform has potential for a broad range of new therapeutic applications in the field of vaccinology as well as targeted oligonucleotide, protein and small molecule therapeutics to treat or prevent a variety of diseases.
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Medical
CCM Biosciences | January 01, 2024
Diversified biotechnology company CCM Biosciences (CCM Bio) announced the launch of its business unit CCM 5Prime Sciences (5Prime) focused on the development and application of proprietary technology in the domain of DNA biotechnology. 5Prime’s technology platform includes multiple patent-protected, globally commercialized compositions and methods for molecular cloning, next-generation DNA sequencing and molecular diagnostics.
5Prime has two focus areas: 1) in vitro diagnostic (IVD) tests: a wide array of companion diagnostics (CDx) tests for targeted cancer, rare disease, and prenatal/preimplantation diagnostics, developed using the droplet digital Polymerase Chain Reaction (ddPCR) and Next-Generation Sequencing (NGS) methodologies, which accompany the personalized medicine therapeutic (Rx) pipeline of CCM Bio; 2) synthetic biology: engineered DNA- and RNA-manipulating enzymes that improve upon the enzymes used in IVD tests, in PCR reagents, and also in enzymatic DNA/RNA synthesis.
Proven technology behind market-leading DNA sequencing products and diagnostic tests; including one of the 5 highest revenue-generating technologies invented in the history of Princeton University
Focus areas 1 and 2 are based on the company’s patented technology originating in the PhD thesis work of Co-Founder and CEO Dr. Raj Chakrabarti at Princeton University. According to the Princeton University Office of Technology Licensing, patents in this portfolio, which are now controlled by 5Prime, are among the top 5 revenue-generating patents in the history of the university, having been commercialized in collaboration with companies such as Celera Diagnostics, Quest Diagnostics, Abbott, New England Biolabs, and Toyobo Life Sciences. Diagnostic tests and products based on the company’s intellectual property include the XSense test from Quest Diagnostics, which is the leading DNA-based carrier screening test for autism (Fragile X syndrome); and the Q5 polymerase kit marketed by New England Biolabs, which is the leading high-fidelity polymerase kit for DNA sequencing.
In the context of molecular diagnostics, NGS is typically applied to diagnose in high-throughput the patterns of DNA mutations in genes. A related method called RNA-Seq, which applies NGS to RNA rather than DNA to measure real-time gene expression levels, has emerged as a foundation for modern personalized medicine. However, a notorious difficulty in both traditional NGS and RNA-Seq is sequence bias, which results in inaccurate estimates of the relative copy numbers of different genes and associated disease-causing mutations, and which has limited the transformative potential of these methods. ddPCR is a sensitive method for diagnosing mutations in specific disease-associated genes that is also limited by problems of sequence bias.
5Prime’s technology enables the efficient polymerization and amplification of nearly any DNA or RNA sequence to overcome sequence bias in nucleic acid amplification and associated diagnostic methods like NGS and ddPCR, the global markets for which were valued at $10B and $6B, respectively, in 2022 and expected to surpass $44B and $14B, respectively, by 2032. Its state-of-the-art synthetic biology platform for polymerase enzyme engineering generates proprietary polymerases with optimal properties for NGS or PCR-based diagnostic tests, by applying machine learning algorithms to the big data generated from ultrahigh-throughput, microfluidic experimental screening of enzyme activity. In addition, the company’s technology platform applies proprietary nonaqueous media and computational systems biology methods in conjunction with such enzymes to dramatically improve nucleic acid polymerization and amplification efficiency.
About CCM Biosciences
CCM Biosciences, Inc. is a biotechnology company dedicated to discovering and developing novel drugs - including small molecules, gene therapies, biologics, and nanomedicines - as well as associated companion diagnostics. CCM Bio’s patented molecular discovery platforms were developed at Chakrabarti Advanced Technology, a privately funded R&D institute founded in 2010 with scientists in the US, France and India and with publications in leading scientific journals including PNAS, Nucleic Acids Research, American Chemical Society journals and Nature Publishing Group journals. CCM Bio is partnered with the global chemical and pharmaceutical services company PMC Group, Inc. for fully integrated discovery, development and manufacturing of drugs and diagnostics.
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Medical
Heron Therapeutics, Inc. | January 29, 2024
Heron Therapeutics, Inc. a commercial-stage biotechnology company announced that the U.S. Food and Drug Administration (the "FDA") has approved its supplemental New Drug Application ("NDA") for ZYNRELEF® extended-release solution to expand the indication for soft tissue and orthopedic surgical procedures including foot and ankle, and other procedures in which direct exposure to articular cartilage is avoided. ZYNRELEF was previously approved for foot and ankle, small-to-medium open abdominal, and lower extremity total joint arthroplasty surgical procedures in adults.
This expanded indication for ZYNRELEF will now cover an estimated 13 million procedures annually, an estimated increase of 86% over prior indicated procedures. To obtain this labeling expansion, Heron successfully conducted studies for cesarean section, spinal surgery, augmentation mammoplasty, and total shoulder arthroplasty. No unique safety issues were identified from the new clinical trials, and the bupivacaine and meloxicam blood concentrations were consistent with previous experience following ZYNRELEF administration.
"The expanded indication is poised to have a transformative impact on patient care, providing healthcare professionals with a versatile and effective solution for managing postoperative pain across an even wider range of surgical procedures. The new label expansion and recent partnership with CrossLink, combined with the potential approval of the Vial Access Needle ("VAN") later this year, are expected to have a significant positive impact for ZYNRELEF and the Company," said Craig Collard, Chief Executive Officer of Heron.
"We're excited for the opportunity to give even more healthcare providers and patients a new, safe and effective option for achieving long-lasting non-opioid pain control after painful surgical procedures," said Bill Forbes, Executive Vice President, Chief Development Officer at Heron. "This new approval further reinforces our commitment to providing meaningful solutions to address unmet medical needs in the acute care and oncology settings."
ZYNRELEF is the first and only therapy for postoperative pain management to be rigorously tested in Phase 3 studies and demonstrate superiority to bupivacaine solution, the current standard-of-care. ZYNRELEF demonstrated superiority compared to bupivacaine with lower pain scores, fewer patients experiencing severe pain, and lower opioid consumption. ZYNRELEF was initially approved by the FDA in May 2021 and received approval of the first supplemental NDA for an expanded label in December 2021.
"Patients undergoing orthopedic procedures often experience severe pain, slowing down their recovery time and potentially leading to other complications. Reducing patients' pain within the first three days is critical for patient satisfaction, and having a product like ZYNRELEF now available for additional orthopedic procedures is a great benefit to have in my practice," said Alexander Sah, M.D., orthopedic surgeon at Sah Orthopaedic Associates. "ZYNRELEF helps my patients recover fully, be discharged sooner, and have significantly less pain, with little to no opioid use."
Important Safety Information for Patients
ZYNRELEF contains an NSAID (non-steroidal anti-inflammatory drug), a type of medicine which
Can increase the risk of a heart attack or stroke that can lead to death. This risk increases with higher doses and longer use of an NSAID.
Cannot be used during heart bypass surgery.
Can increase the risk of gastrointestinal bleeding, ulcers, and tears.
ZYNRELEF should also not be used
if you are allergic to any component of ZYNRELEF, similar local anesthetics, aspirin or other NSAIDs (such as ibuprofen or naproxen), or have had an asthma attack, hives, or other allergic reaction after taking any of these medicines.
as a paracervical block, during childbirth.
The most common side effects of ZYNRELEF are soft tissue procedures: vomiting and orthopedic procedures: constipation and headache.
The medicines in ZYNRELEF (a local anesthetic and an NSAID) may affect the nervous and cardiovascular system; may cause liver or kidney problems; may reduce the effects of some blood pressure medicines; should be avoided if you have severe heart failure; may cause adverse effects on cartilage; may cause a rare blood disorder, or life-threatening skin or allergic reactions; may harm your unborn baby if received at 20 weeks of pregnancy or later; and may cause low red blood cells (anemia).
Tell your healthcare provider about all your medical conditions and about all the medicines you take including prescription or over-the-counter medicines, vitamins, or herbal supplements to discuss if ZYNRELEF is right for you.
Talk to your healthcare provider for medical advice about side effects. Report side effects to Heron at 1-844-437-6611
The information provided here is not comprehensive. Please see full Prescribing Information, including Boxed Warning.
About ZYNRELEF
ZYNRELEF is the first and only dual-acting local anesthetic that delivers a fixed-dose combination of the local anesthetic bupivacaine and a low dose of nonsteroidal anti-inflammatory drug meloxicam. ZYNRELEF is the first and only extended-release local anesthetic to demonstrate in Phase 3 studies significantly reduced pain and significantly increased proportion of patients requiring no opioids through the first 72 hours following surgery compared to bupivacaine solution, the current standard-of-care local anesthetic for postoperative pain control. ZYNRELEF was initially approved by the U.S. Food and Drug Administration (the "FDA") in May 2021 for use in adults for soft tissue or periarticular instillation to produce postsurgical analgesia for up to 72 hours after bunionectomy, open inguinal herniorrhaphy and total knee arthroplasty. In December 2021, the FDA approved an expansion of ZYNRELEF's indication to include foot and ankle, small-to-medium open abdominal, and lower extremity total joint arthroplasty surgical procedures. On January 23, 2024, the FDA approved ZYNRELEF for soft tissue and orthopedic surgical procedures including foot and ankle, and other procedures in which direct exposure to articular cartilage is avoided. Safety and efficacy have not been established in highly vascular surgeries, such as intrathoracic, large multilevel spinal, and head and neck procedures. ZYNRELEF was granted a marketing authorization by the European Commission in September 2020 and by the United Kingdom Regulatory Authority in January 2021. In August 2023, we cancelled the ZYNRELEF U.K. marketing authorization and, in October 2023, we cancelled the ZYNRELEF European Union (EU) marketing authorization, as we do not plan to commercially launch ZYNRELEF in the U.K. or the EU.
About Heron Therapeutics, Inc.
Heron Therapeutics, Inc. is a commercial-stage biotechnology company focused on improving the lives of patients by developing and commercializing therapeutic innovations that improve medical care. Our advanced science, patented technologies, and innovative approach to drug discovery and development have allowed us to create and commercialize a portfolio of products that aim to advance the standard-of-care for acute care and oncology patients.
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