In this episode of Rx for Biotech podcast, I speak with Philippe Chambon MD, PhD, CEO of EG 427, about how his company's HERMES technology platform could improve on the precision, durability and safety of gene therapy delivery.
EG 427's lead candidate, EG110A, targets neurogenic bladder - a chronic condition linked to spinal cord injury, Parkinson's disease and multiple sclerosis - using a localized gene therapy designed to restore neuronal control with minimal side effects.
All content for Rx for Biotech is the property of Podcast Host Chris Leidli 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 episode of Rx for Biotech podcast, I speak with Philippe Chambon MD, PhD, CEO of EG 427, about how his company's HERMES technology platform could improve on the precision, durability and safety of gene therapy delivery.
EG 427's lead candidate, EG110A, targets neurogenic bladder - a chronic condition linked to spinal cord injury, Parkinson's disease and multiple sclerosis - using a localized gene therapy designed to restore neuronal control with minimal side effects.
New Therapies for Brain Cancer with Neurosurgeon Thomas Chen, CEO of NeOnc
Rx for Biotech
31 minutes 53 seconds
10 months ago
New Therapies for Brain Cancer with Neurosurgeon Thomas Chen, CEO of NeOnc
Dr. Thomas Chen is a world-renowned neurosurgeon, Director of Surgical Neuro-Oncology at the University of Southern California, and the founder and CEO of NeOnc Technologies. In this podcast episode we discuss the company’s unique approach to treating glioblastoma and other aggressive brain cancers.
Rx for Biotech
In this episode of Rx for Biotech podcast, I speak with Philippe Chambon MD, PhD, CEO of EG 427, about how his company's HERMES technology platform could improve on the precision, durability and safety of gene therapy delivery.
EG 427's lead candidate, EG110A, targets neurogenic bladder - a chronic condition linked to spinal cord injury, Parkinson's disease and multiple sclerosis - using a localized gene therapy designed to restore neuronal control with minimal side effects.
