Brain Trust Bio Inc. (BTB) will soon begin phase I trials in Australia of its IT-Riluzole delivered to the brain via a continuous intrathecal drug delivery method in people with amyotrophic lateral sclerosis. The company’s concept is to take known drugs that work and make them better by delivering them exclusively to where patients need them most, BTB co-founder and CEO Chen Benkler told BioWorld.
As of Jan. 31, 2024, there were more than 300 CAR T trials registered in China, surpassing the U.S. and becoming the country with the most CAR T therapy clinical trials. Among them, CD19 is the most frequently studied target, according to BioWorld and Cortellis. The rapid evolution of CAR T-cell therapies in China has escalated over the past decade from the start of the first clinical trials in 2013 to the country becoming an established host for CAR T-cell-related trials by 2017, according to Yongxian Hu and researchers from Zhejiang University in Hangzhou, China. Chinese cell therapy companies – backed by $2.37 billion in funding in 2021 – have since significantly increased basic research and trial output for CAR Ts, which was welcomed by large patient demand.
Brain Trust Bio Inc. (BTB) will soon begin phase I trials in Australia of its IT-Riluzole delivered to the brain via a continuous intrathecal drug delivery method in people with amyotrophic lateral sclerosis. The company’s concept is to take known drugs that work and make them better by delivering them exclusively to where patients need them most, BTB co-founder and CEO Chen Benkler told BioWorld.
Genfleet Therapeutics Inc. has entered the KRAS G12C inhibitor race in the U.S. as it gears up to begin phase III trials of GFH-925 (IBI-351) in patients with refractory metastatic colorectal cancer (CRC) following FDA clearance. GFH-925 was the first KRAS G12C inhibitor to receive breakthrough therapy designation from China's National Medical Products Administration for previously treated advanced CRC.
China’s CAR T market is expected to grow from $72 million in 2022 to $342 million over the next decade. There are currently more than 400 CAR T therapies in the pipeline in China, and most of these are being developed by specialized Chinese biotechs. Research by Clarivate plc, BioWorld’s parent company, indicates that a notable proportion of CAR T-cell therapies in late-phase development in China are being developed through strategic partnerships and joint ventures between multinational corporations and domestic companies, including Johnson & Johnson and Nanjing Legend Biotech Corp., Juno Therapeutics Inc. and Wuxi Apptec Co. Ltd., and CASI Pharmaceuticals Inc. and Juventas Cell Therapy Ltd.
Brain Trust Bio Inc. (BTB) will soon begin phase I trials in Australia of its IT-Riluzole delivered to the brain via a continuous intrathecal drug delivery method in people with amyotrophic lateral sclerosis. The company’s concept is to take known drugs that work and make them better by delivering them exclusively to where patients need them most, BTB co-founder and CEO Chen Benkler told BioWorld.
China’s National Medical Products Administration has cleared Immuneonco Biopharmaceuticals Co. Ltd.’s’ IMM-01 (timdarpacept) to enter a pivotal phase III trial in combination with Beigene Co. Ltd.’s PD-1 inhibitor, tislelizumab, in relapsed or refractory classical Hodgkin lymphoma patients who relapsed or progressed after treatment with PD-1 inhibitors.
Neurotech International Ltd.’s cannabinoid NTI-164 met the primary and secondary endpoints in a phase II/III trial in children with autism spectrum disorder. The company also reported positive top-line data for Rett syndrome in a phase I/II trial.
On the heels of a $4.6 million series A round in December 2023, cell therapy company Rxcell Inc. is planning to raise another $15 million in 2024 to take its iPSC-derived photoreceptors to the clinic for retinitis pigmentosa and other degenerative diseases of the retina.
On the heels of a $4.6 million series A round in December 2023, cell therapy company Rxcell Inc. is planning to raise another $15 million in 2024 to take its iPSC-derived photoreceptors to the clinic for retinitis pigmentosa and other degenerative diseases of the retina.