In treating conditions like heart failure, Gordian's approach is not to replace damaged cells but to use gene therapy to "reprogram" existing, dysfunctional ones. This strategy aims to restore the normal function of the patient's own tissue rather than engaging in the more complex task of rebuilding it.
Gordian Biotechnology embeds unique genetic "barcodes" into hundreds of different gene therapies. This transforms gene therapy from a treatment modality into a high-throughput screening tool, allowing them to test many potential drugs simultaneously inside a single living animal and trace which ones worked.
Unlike using genetically identical mice, Gordian tests therapies in large, genetically varied animals. This variation mimics human patient diversity, helping identify drugs that are effective across different biological profiles and addressing patient heterogeneity, a primary cause of clinical trial failure.
The company intentionally makes its early research "harder in the short term" by using complex, long-term animal models. This counterintuitive strategy is designed to generate highly predictive data early, thereby reducing the massive financial risk and high failure rate of the later-stage clinical trials.
Instead of testing a single drug candidate in cheap models before moving to expensive ones, Gordian's parallel testing platform makes it cost-effective to use clinically relevant large animals, like horses, at the very beginning of the discovery process. This flips the traditional R&D funnel on its head.