Asceneuron SA has raised $100 million in an oversubscribed series C to take its lead small molecule, ASN-51, into phase II, with aim of demonstrating it prevents the formation of tau tangles and slows the progression of Alzheimer’s disease.
AI-driven clinical trial design company Opyl Ltd. formed a partnership with L39 Capital Pty Ltd. to establish a $100 million biotech fund that will showcase the predictive power of Opyl’s Trialkey software in selecting successful biotech and pharmaceutical stocks. Melbourne, Australia-based Opyl leverages AI to elevate clinical trial design and forecast outcomes, empowering clinical researchers, biopharma companies and investors to enhance trial design, drug development and market delivery.
The €10.2 million (US$11 million) that Bedal International NV recently closed in a funding round is “crucial” for the company’s continued growth and development, co-CEO Alexander Van Damme, told BioWorld. “The financing provides the necessary resources to scale up operations, enhance product development, and expand market reach, particularly in the competitive U.S. market,” he said.
AI-driven clinical trial design company Opyl Ltd. formed a partnership with L39 Capital Pty Ltd. to establish a $100 million biotech fund that will showcase the predictive power of Opyl’s Trialkey software in selecting successful biotech and pharmaceutical stocks. Melbourne, Australia-based Opyl leverages AI to elevate clinical trial design and forecast outcomes, empowering clinical researchers, biopharma companies and investors to enhance trial design, drug development and market delivery.
New company Pan Cancer T BV is preparing for a clinical trial of a next-generation T-cell receptor-engineered T cell it has designed to remove the current barriers and make T-cell therapies effective in treating solid tumors. Its products have two distinguishing features: They are targeted at antigens the company has shown are exclusively and robustly expressed by multiple solid cancers, and have a minor genetic modification that enhances the durability of autologous TCR-Ts in the tumor microenvironment after they are administered back into a patient.