In this podcast episode, Jokūbas Leikauskas, Editor, BioInsights, speaks to Trevor Hallam, who served as Chief Scientific Officer of Sail Biomedicines until July 2025. The interview, recorded in June 2025, explores advances in RNA therapeutics, particularly circular RNA (circRNA or eRNA) technologies, and how they may help overcome current limitations in delivery, durability, and specificity for applications such as CAR-T cell therapies and autoimmune disease treatment.
All content for The BioInsights Podcast is the property of BioInsights and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
In this podcast episode, Jokūbas Leikauskas, Editor, BioInsights, speaks to Trevor Hallam, who served as Chief Scientific Officer of Sail Biomedicines until July 2025. The interview, recorded in June 2025, explores advances in RNA therapeutics, particularly circular RNA (circRNA or eRNA) technologies, and how they may help overcome current limitations in delivery, durability, and specificity for applications such as CAR-T cell therapies and autoimmune disease treatment.
Gene therapy is having a monumental year: how can the industry keep up with supply?
The BioInsights Podcast
23 minutes
1 year ago
Gene therapy is having a monumental year: how can the industry keep up with supply?
Lauren Coyle, Commissioning Editor, Cell & Gene Therapy Insights, talks with Suman Subramanian, Head of Commercial Operations, Catalent Cell and Gene Therapy, to discuss the major achievements in the gene therapy market in 2023, with a focus on reliable manufacturing processes and strategies to enhance predictability while reducing waste in gene therapy manufacturing.
The BioInsights Podcast
In this podcast episode, Jokūbas Leikauskas, Editor, BioInsights, speaks to Trevor Hallam, who served as Chief Scientific Officer of Sail Biomedicines until July 2025. The interview, recorded in June 2025, explores advances in RNA therapeutics, particularly circular RNA (circRNA or eRNA) technologies, and how they may help overcome current limitations in delivery, durability, and specificity for applications such as CAR-T cell therapies and autoimmune disease treatment.
