As the average cost of new drug R&D continues to skyrocket, the perception around using artificial intelligence (AI) as a tool to boost drug discovery is changing. “Developing new AI-based drugs is a difficult task, not only for Korea but also for countries with leading AI technology,” Hyeyun Jung, principal researcher of Korea Health Industry Development Institute’s Center for Health Industry Policy, told the audience at the Bio Korea meeting on May 9. “But there is a change in perception; [namely that] applying AI to new drug development is not an option but a necessity.”

Field Medical Inc. kicked off its first-in-human study for its Fieldforce ablation system, designed for use in ventricular arrhythmias. The Ventricular Catheter Ablation Study study will enroll 60 patients in five centers around the world, most recently kicking off in the Na Homolce Hospital in Prague, Czech Republic.

Suzhou Sanegene Bio Inc.’s clinical trial application for SGB-3908 injection, an siRNA drug for the treatment of hypertension, has been accepted in China by the National Medical Products Administration (NMPA)’s Center for Drug Evaluation (CDE).

South Korea’s HK Inno.N Corp. said on May 2 that it gained exclusive development and commercial rights to Hangzhou, China-based Sciwind Biosciences Co. Ltd.’s once-weekly, injectable glucagon-like peptide-1 (GLP-1) agonist, XW-003 (ecnoglutide), in South Korea to treat type 2 diabetes and obesity.

Heartflow Inc. reported exceptional results in a study published in the Journal of Vascular Surgery that revealed coronary computed tomography angiography with fractional flow reserve care reduced mortality by more than 60% at five years in patients with peripheral arterial disease undergoing major vascular surgery, far surpassing the current standard of care.

Japanese researchers have transplanted human induced pluripotent stem cells (iPSCs) in a primate model of myocardial infarction and were able to restore heart muscle and function in monkeys. Developed by Tokyo-based Heartseed Inc., the grafted iPSCs consist of clusters of purified heart muscle cells (cardiomyocyte spheroids) that are injected into the myocardial layer of the heart. Published in Circulation on April 26, 2024, the study showed that the cardiomyocyte spheroids survived long term and showed improved contractile function with low occurrence of post-transplant arrhythmias.

Japanese researchers have transplanted human induced pluripotent stem cells (iPSCs) in a primate model of myocardial infarction and were able to restore heart muscle and function in monkeys. Developed by Tokyo-based Heartseed Inc., the grafted iPSCs consist of clusters of purified heart muscle cells (cardiomyocyte spheroids) that are injected into the myocardial layer of the heart. Published in Circulation on April 26, 2024, the study showed that the cardiomyocyte spheroids survived long term and showed improved contractile function with low occurrence of post-transplant arrhythmias.

South Korea’s HK Inno.N Corp. said on May 2 that it gained exclusive development and commercial rights to Hangzhou, China-based Sciwind Biosciences Co. Ltd.’s once-weekly, injectable glucagon-like peptide-1 (GLP-1) agonist, XW-003 (ecnoglutide), in South Korea to treat type 2 diabetes and obesity.