PHARMACY MARKET

Harbour BioMed Announces IND Approval for Next-Gen Anti-TSLP Fully Human Monoclonal Antibody

Harbour BioMed | February 22, 2022

Harbour BioMed announced that China National Medical Products Administration had approved its investigational new drug (IND) application for HBM9378 a next-gen fully human antibody targeting thymic stromal lymphopoietin for the treatment of moderate-to-severe asthma.

HBM9378/SKB378 is a co-development project conducted by HBM and Kelun-Biotech, who together equally share the global rights in respect of HBM9378. The IND approval of HBM9378 is an achievement of the strategic collaboration between the parties. According to the strategic collaboration and license agreement between HBM and Kelun-Biotech, the parties will jointly explore innovative therapies of monoclonal antibodies and antibody-drug conjugate.

Building on HBM's innovative business model leveraging its productive R&D platform to lead the next generation of valuable and innovative therapies and its mission to address the unmet medical needs, HBM will continue to expand its collaboration with industry leading partners and further leverage on the combined capabilities of HBM and its collaborators.

"HBM9378/SKB378, a next-gen fully human monoclonal antibody, is developed from HBM's H2L2 platform. Its long half-life optimization and outstanding biophysical properties support the favorable dosing advantage. The approval of this IND application once again proves HBM's powerful innovation capability. Unleashing the power of our unique R&D engine, we are highly confident and determined to defeat intractable diseases across the world." 

Dr. Jingsong Wang, Founder, Chairman and CEO of Harbour BioMed


About HBM9378/SKB378
HBM9378/SKB378 is a fully human monoclonal antibody against TSLP generated from two heavy chains and two light chains (H2L2) platform. It inhibits the TSLP mediated signaling pathway by blocking the interaction between TSLP and TSLP receptor. TSLP plays important roles in DC cell maturation, T helper 2 (Th2) cell polarization and inflammation, particularly in both eosinophilic and non-eosinophilic inflammation asthma.

About Asthma
Asthma is a heterogeneous disease defined by the history of respiratory symptoms that vary over time and in intensity, together with variable expiratory airflow limitation. The disease is estimated to affect more than 300 million people worldwide and affect more than 45.7 million adult people (≥20 years) in China. Approximately 5-10% of those afflicted with asthma have severe disease that is poorly controlled. Despite the use of medium to high dose inhaled corticosteroids (ICS) in combination with a long-acting β2-agonist (LABA), currently available biologic therapies and oral corticosteroids (OCS), many severe asthma remain uncontrolled. Current biologics are mainly targeting Type 2 severe asthma which manifests clinically with a combination of peripheral eosinophilia, sputum eosinophilia and/or elevated fractional exhaled nitric oxide (FENO).

Severe asthma patients experience frequent exacerbations, significant limitations on lung function and a reduced quality of life. The healthcare burden associated with care for these patients is also high. Therefore, there are still significant unmet needs to develop safer and broader therapies for severe asthma.

About Harbour BioMed
Harbour BioMed is a global biopharmaceutical company committed to the discovery, development and commercialization of novel antibody therapeutics focusing on immunology and oncology. The Company is building its robust portfolio and differentiated pipeline through internal R&D capability, collaborations with co-discovery and co-development partners and select acquisitions.

Spotlight

What is atrial fibrillation? Atrial fibrillation is an atrial arrhythmia where the upper chambers don't contract normally, causing higher heart rates in the lower chambers. Study better with Osmosis Prime. Retain more of what you’re learning, gain a deeper understanding of key concepts, and feel more prepared for your courses and exams.


Other News
BUSINESS INSIGHTS

Daewoong Pharmaceutical and HanAll Biopharma Invest in Turn Biotechnologies to Expand Growth Initiative

Daewoong Pharmaceutical and HanAll Biopharma | April 12, 2022

Daewoong Pharmaceutical and HanAll Biopharma announced expansion of their open collaboration strategy by investing in Turn Biotechnologies, a Silicon Valley based company focused on developing novel mRNA medicines. The companies are supporting Turn Bio's continued development of a high-potential platform and are considering future long-term collaborations. Turn Bio is a pre-clinical-stage biopharmaceutical company focused on cellular repair via epigenetic reprogramming of cells. The technological foundation for Turn Bio's proprietary Epigenetic Reprogramming of Age (ERA™) methodology was developed by Turn Bio's co-founders in the Sebastiano Lab, Institute for Stem Cell Biology and Regenerative Medicine, Stanford School of Medicine. The technology has since been patented and Turn Bio is currently using it to complete pre-clinical research on therapies targeting indications in dermatology and immunology, as well as developing therapies for ophthalmology, osteoarthritis and the muscular system. "Many age-related diseases have long been significant areas of patients' unmet need. Turn Bio's innovative platform may bring a pivotal transformation to a wide array of therapeutic areas. HanAll is committing support and investment to help realize the full potential of this pioneering technology as Turn Bio advances to a new phase of growth." Dr. Almira Chabi, chief medical officer and chief development officer at HanAll Pharmaceutical International "The support of Daewoong Pharmaceutical and HanAll Biopharma validates our approach to cellular rejuvenation and enables Turn to expand its efforts in multiple therapeutic indications," said Anja Krammer, the company's CEO. "We are thrilled that a company as well known for its innovation, has taken interest in our promise to transform the way medicine treats diseases of aging and we look forward to further collaborations to help change quality of life and healthcare economics globally." The proceeds from this round of financing will support Turn Bio's advancement towards a phase 1 trial of its mRNA therapy candidate TRN-001, which targets indications in dermatology. About HanAll Biopharma Co., Ltd. HanAll Biopharma is a global biopharmaceutical company founded in 1973, with a mission of making meaningful contributions to patients' lives by introducing innovative, impactful therapies to address severe unmet medical needs. HanAll has been operating a portfolio of pharmaceutical products in areas ranging from endocrine, circulatory, and urologic diseases for more than 48 years. HanAll has also expanded its focus to ophthalmology, immunology, oncology and neurology to discover and develop innovative medicines for patients with diseases for which there are no effective treatments. A leading pipeline asset, HL161 (INN: batoclimab), an anti-FcRn antibody drug, is in Phase 3 and Phase 2 trials across the world for the treatment of rare autoimmune disorders including myasthenia gravis, thyroid eye disease, warm autoimmune hymolytic anemia, neuromyelitis optica, and immune thrombocytopenia. Another main asset, HL036 (INN: tanfanercept), an anti-TNF alpha protein drug, is in Phase 3 clinical trials in the US and China for the treatment of dry eye disease. About Daewoong Pharmaceutical. Co., Ltd. Established in 1945, Daewoong Pharmaceutical Co., Ltd. is a leading South Korean pharmaceutical company that develops, manufactures, and commercializes pharmaceuticals for both domestic and international markets. With a strong and innovative in-house R&D and advanced manufacturing facilities, Daewoong provides a total healthcare solution to customers across the globe. Continuing on its course of building a strong global healthcare company, Daewoong has broadened international operations by establishing branch offices and research centers throughout Asia and the United States. Daewoong has also expanded strategic partnerships in more than 100 countries worldwide. About Turn Biotechnologies Turn Bio is a pre-clinical-stage company focused on repairing tissue at the cellular level. The company's proprietary mRNA platform technology, ERA™, restores optimal gene expression by combatting the effects of aging in the epigenome. This restores the cells' ability to prevent or treat disease, and heal or regenerate tissue and will help to fight incurable chronic diseases.

Read More

BUSINESS INSIGHTS

Clinical research and drug development accelerated via analytics

SAS | June 22, 2022

Bringing life-changing therapies to market requires pharmaceutical companies to efficiently design and run clinical trials, gather and analyze massive amounts of data, and manage a complicated regulatory review process. SAS, a leader in clinical research analytics, delivers powerful technologies to support the life sciences industry – including machine learning, AI and analytics for IoT – through the SAS® Life Science Analytics Framework on Azure. The advanced analytics platform – a single, open, cloud-native statistical computing environment for clinical trial analysis and submission – helps pharmaceutical companies navigate the heavily regulated world of clinical research analytics and bring new therapies to the world faster. Delivering the power of analytics in the cloud From drug discovery to regulatory approval, developing a new medicine can take over a decade with a price tag in the billions. The clinical research required to achieve approval from the US Food and Drug Administration (FDA), European Medicines Agency (EMA), and other regulatory authorities involves massive amounts of data that can be difficult to manage, share and analyze, creating delays that affect patients' well-being. The cloud-based SAS Life Science Analytics Framework on Azure features an integrated and collaborative environment to manage and analyze clinical trial information as well as deliver trial results for the FDA and other global regulatory agencies' review. With the analytic solution, life sciences organizations can extract valuable insights from clinical data, mitigate risk, increase efficiency, and speed time to market for lifesaving pharmaceuticals. "The primary goal is to get drugs approved so that they can reach patients. The faster you can do that, the greater benefit for the patient and to help save lives." Bhawna Goel, CEO of Gunvatta Gunvatta USA, Inc, a contract research organization (CRO) headquartered in Washington, DC, helps clients collect, manage, analyze and visualize the terabytes of clinical and healthcare data produced by pharmaceutical and biotechnology companies, hospitals, and provider groups. With the SAS Life Science Analytics Framework, Gunvatta has modernized the way it approaches clinical trials. The CRO helps life sciences organizations reduce risk with secure data access, ensure data and results are validated, maintain an audit trail, and report their data to health authorities like the FDA. "The biggest advantage of the SAS Life Science Analytics Framework is that the analytics platform is cloud-based," said Goel. "I feel like SAS has jumped 15 to 20 steps ahead of where the market is." For more about Gunvatta's experience, see the customer story Helping pharmaceutical companies bring new therapies to the world faster using analytics for life sciences. Developing cutting-edge clinical research tools SAS life science experts will attend the DIA Global Annual Meeting this week in Chicago to share next generation approaches for driving excellence and innovation in clinical trial operations. At DIA, SAS will preview SAS Clinical Enrollment Simulation Cloud – a cloud-native, solution based in SAS® Viya® 4 – that enables life sciences and contract research organizations to simulate the outcome of the complex clinical trial enrollment process in a virtual world, resulting in faster, more strategic clinical trial enrollment plans. The new SaaS offering – available later this year on the Microsoft Azure Marketplace – uses a powerful discrete event simulation analytical engine to model the clinical trial enrollment process as it evolves over time, facilitating improved insights to guide enrollment strategy and meet contracted patient targets. "SAS Clinical Enrollment Simulation Cloud is highly differentiated from traditional methodologies for predicting trial enrollment," said Jim Box, Life Sciences Principal Data Scientist at SAS. "The technology helps life sciences organizations reduce timelines, minimize costs, and gain greater insight to inform clinical enrollment planning and rescue." Modernizing clinical trials for the future While the current clinical development research model can be an obstacle to the creation of safe, cost-effective therapies, the COVID-19 pandemic and other events set the stage for disruption in clinical trials. "The silver lining of the pandemic for the life sciences industry is the acceleration of digital transformation and modernization of clinical research," said Simon Tilley, Health and Life Sciences Product Director at SAS. "We experienced widespread adoption of innovative approaches, such as decentralized clinical trials for the development of new vaccines." "While the business benefits of modernizing clinical research include significant cost savings, efficiency improvements, accelerated time to regulatory approval and faster time to market, it is patients who stand to gain the most from clinical trial innovation." About SAS SAS is the leader in analytics. Through innovative software and services, SAS empowers and inspires customers around the world to transform data into intelligence. SAS gives you THE POWER TO KNOW®. SAS and all other SAS Institute Inc. product or service names are registered trademarks or trademarks of SAS Institute Inc. in the USA and other countries. ® indicates USA registration. Other brand and product names are trademarks of their respective companies. Copyright © 2022 SAS Institute Inc. All rights reserved.

Read More

RESEARCH

DEBIOPHARM INVESTS IN VERISIM LIFE'S $15M SERIES A ROUND TO ADVANCE AI-ENABLED DRUG RESEARCH

Debiopharm International SA | January 11, 2022

Debiopharm a Swiss biopharmaceutical company, announced their co-investment in California-based start-up VeriSIM Life's $15 Million Series A Round to advance their mission to accelerate drug development via technology powered by artificial intelligence. VeriSIM Life's computational platform reduces time and cost of drug development as well as reduces the need for animal testing that, in the vast majority of cases, does not translate well to humans. Debiopharm's co-investment in VeriSIM contributes to the growth plan of the start-up and will help to expand and establish transformational partnerships with industry and academia using their first-in-class 'virtual drug development engine' BIOiSIM™. The investment aligns with Debiopharm's focus to invest in digital health solutions that improve the cancer patient journey, transform pharmaceutical R&D, and shift healthcare towards a more patient-centric approach. With the financing round led by Morpheus Ventures, Debiopharm Innovation Fund joins new investors including Colorcon Ventures along with existing investors OCA Ventures, Intel Capital, Serra Ventures and Susa Ventures. Founded in 2017 by Jo Varshney, DVM and PhD alongside a cross-functional team of pharmaceutical scientists, software engineers and AI/ML and simulation experts, the start-up offers a range of translational-based solutions, customized for pre-clinical and clinical programs. "We're moving into a time where AI-based technology will play a critical role in drug development. We absolutely need to reduce the time, costs & risks of drug development in order to be more efficient – that's exactly what the BIOiSIM™ is proven to do. The value of using this AI-based platform is the potential decrease in the need for animal testing and the acceleration of the pre-clinical, translational stage, helping drug research companies to more quickly select which early-stage medicines will most likely benefit patients and cure their disease." Tanja Dowe, CEO of the Debiopharm Innovation Fund More than 90% of drugs tested in animals fail to pass human clinical trials, resulting in delayed development and high costs. VeriSIM's BIOiSIM platform, driven by AI and machine learning (ML), de-risks R&D decisions by providing meaningful insights much earlier in the drug development process with unprecedented accuracy and scalability. VeriSIM's platform solves this decade-old translatability problem within the drug development phase and ensures clinical success of drugs intended for highly unmet needs. With its first-in-class platform, VeriSIM is transforming the way pharmaceutical and biotech companies address the most challenging diseases impacting humankind. About VeriSIM Life VeriSIM Life has developed a sophisticated computational platform that leverages advanced AI and ML techniques to significantly improve drug discovery and development by greatly reducing the time and money it takes to bring a drug to market. BIOiSIM is a first-in-class 'virtual drug development engine' that offers unprecedented value for the drug development industry by narrowing down the number of drug compounds that offer anticipated value for the treatment or cure of specific illnesses or diseases. The program not only reduces the time and cost of drug discovery and development, it also greatly reduces the need for animal testing that, in the vast majority of cases, does not translate to humans. Debiopharm's commitment to patients Debiopharm develops, manufactures and invests in innovative therapies and technologies that respond to high unmet medical needs in oncology and bacterial infections. We aim to provide strategic funding and guidance for companies with Smart Data & Digital Health solutions with the ambition to change the way drugs are developed and the way patients are treated. Our growing portfolio company achievements includes 18 FDA clearances or CE marks and 2 IPOs. Since 2018 Debiopharm has invested over USD 120 million, typically leading the investment rounds of its 16 portfolio companies.

Read More

BUSINESS INSIGHTS

Qualigen Therapeutics Acquires Majority Stake in Infectious Disease Diagnostics Technology Company NanoSynex

Qualigen Therapeutics, Inc. | June 03, 2022

Qualigen Therapeutics, Inc. a diversified life sciences company focused on developing treatments for adult and pediatric cancers with potential for Orphan Drug Designation, while also commercializing diagnostics, today announces it has completed the acquisition of a majority stake in NanoSynex Ltd., an Israeli-based developer of next generation diagnostics technology. NanoSynex’s award winning technology is an Antimicrobial Susceptibility Testing (AST) platform that aims to provide clinical laboratories worldwide with a rapid, accurate and personalized test for bacterial infections, especially difficult-to-treat drug resistant strains, with the goal of quickly matching the correct antibiotics at the correct concentration to treat a patient’s specific infection. Antibiotic misuse and overuse have given significant rise to more frequent and more deadly antibiotic resistant bacteria, such as Methicillin-resistant Staphylococcus aureus (MRSA). Multi-drug resistant pathogens such as these have been declared a substantial threat to U.S. public health and national security by the Institute of Medicine and a federal Interagency Task Force on Antimicrobial Resistance. According to some estimates, the global infectious disease diagnostics market is expected to reach ~$39.8 Billion by 2026 from ~$28.1 Billion in 2021. “Living through two and a half years of COVID-19 has taught us the critical role diagnostics plays in combating infectious disease, and the need to be prepared for the next wave. NanoSynex’s technology shows great promise in rapidly and accurately matching antibiotics to the target bacteria, and in doing so, quickly equipping healthcare providers with the data needed to treat their patients with the right antibiotic at the right dose at the right time. We strongly believe in the potential of this platform, and our ability to leverage our long-standing diagnostics development, regulatory and commercial expertise to help bring the NanoSynex diagnostics technology to market sooner.” Michael Poirier, Qualigen's Chairman and CEO “We are excited about beginning a new journey with Qualigen and joining forces in a common mission to develop innovative diagnostics. This partnership takes the NanoSynex AST platform to the next level," added NanoSynex Co-Founder and Chief Executive Officer, Diane Abensur Bessin. NanoSynex is led by a dynamic team of healthcare subject matter experts, microbiologists, and engineers, including its co-founders – Diane Abensur Bessin and Michelle Heymann, who were selected for Forbes’ 2020 Tech 30 Under 30 list. Qualigen’s diagnostics team, led by Shishir Sinha, Senior VP and Chief Operating Officer, will work closely alongside the Israeli-based NanoSynex team on technology development, regulatory path, and commercial preparedness. Qualigen also envisions potential synergies with its proprietary FastPack® diagnostics platform to further strengthen the Company’s diagnostics business which has seen a post-COVID-19 resurgence. Qualigen’s purchase of the controlling interest in NanoSynex was primarily accomplished via a stock-for-stock acquisition with a controlling shareholder of NanoSynex. Qualigen also provided an investment in NanoSynex at closing and will provide future milestone-based funding leading to the commercialization of this technology. NanoSynex’s Board will initially be comprised of two current NanoSynex directors – NanoSynex co-founders - and two Qualigen appointees – Mr. Poirier and Mr. Sinha. About Qualigen Therapeutics, Inc. Qualigen Therapeutics, Inc. is a diversified life sciences company focused on developing treatments for adult and pediatric cancer, as well as maintaining and expanding its core FDA-cleared FastPack® System, which has been used successfully in diagnostics for over 20 years. Our investigational QN-302 compound is a small molecule selective transcription inhibitor with strong binding affinity to G4s prevalent in cancer cells; such binding could, by stabilizing the G4s against “unwinding,” help inhibit cancer cell proliferation. Our investigational QN-247 compound inhibits nucleolin, a key multi-functional regulatory protein that is overexpressed in cancer cells; QN-247 may thereby be able to inhibit the cells’ proliferation. QN-247 has shown promise in preclinical studies for the treatment of acute myeloid leukemia (AML). The investigational compounds within Qualigen’s RAS-F family of RAS oncogene protein-protein interaction inhibitor small molecules are believed to inhibit or block the binding of mutated RAS genes’ proteins to their effector proteins, thereby leaving the proteins from the mutated RAS unable to cause further harm. In theory, such mechanism of action may be effective in the treatment of about one quarter of all cancers, including certain forms of pancreatic, colorectal, and lung cancers. In addition to its oncology drug pipeline, Qualigen has an established diagnostics business which manufactures and distributes proprietary and highly accurate rapid blood testing systems to physician offices and small hospitals for the management of prostate cancer and other diseases and health conditions. About NanoSynex NanoSynex is a MedTech company that aims at providing new solutions to improve testing quality, patient outcomes, and reduce healthcare costs by speeding up diagnostic processes. NanoSynex is focused on the development and commercialization of a rapid innovative Antimicrobial Susceptibility Test (AST). The technology is based on a purely phenotypic approach and uses a microfluidic disposable test card platform and method that optimizes bacterial growth. This disruptive development was born from exciting research discoveries at the lab of Professor Shulamit Levenberg, former Dean of the Technion Institute of Technology – Biomedical Engineering Faculty.

Read More

Spotlight

What is atrial fibrillation? Atrial fibrillation is an atrial arrhythmia where the upper chambers don't contract normally, causing higher heart rates in the lower chambers. Study better with Osmosis Prime. Retain more of what you’re learning, gain a deeper understanding of key concepts, and feel more prepared for your courses and exams.

Resources