A research team has successfully utilized human respiratory organoids (mini-organs) to propagate human rhinovirus C (HRV-C), ...

A KAIST research team has developed a highly stretchable microelectrode array (sMEA) designed for non-invasive ...

骨类器官（bone organoids）作为探究骨骼发育机制及关联疾病的重要模型，近年来备受关注。尽管已有技术在构建单组织类器官方面取得了一定成果，但这些模型往往难以再现骨骼的复杂微结构和实现高效的矿化过程，从而限制了它们的应用范围。

Researchers are transforming stem cells into mini-brains that learn and adapt, merging biology and technology for a more ...

Huch’s pancreatic organoids are now a promising avenue for disease modeling and generating precision medicines to treat ...

Researchers from the Organoid group at the Hubrecht Institute have developed a new way to grow organoids. Organoids are tiny ...

Researchers want trustworthy, human-relevant models. Integrating automation and AI into organoid development workflows—or ...

A highly stretchable microelectrode array (sMEA) designed for non-invasive electrophysiological signal measurement of ...

Professor Hyunjoo J. Lee, Dr. Mi-Young Son, Dr. Mi-Ok Lee(In the front row from left) Doctoral student Kiup Kim, Doctoral ...

Oral cancer is an increasingly prevalent disease worldwide, with over 300,000 new cases diagnosed each year. Among oral ...

肝脏类器官（HOs，hepatic organoids）能通过对人类肝脏组织进行比较测序来进行验证，同时其也是肝脏研究的可靠模型，通过在诱导期对肝脏类器官进行全面的转录组学和蛋白质组学的测序或能增强这一平台的实用性，并有助于阐明肝脏发育的分子机制。

Daewoong launches project to mass produce organoids for regenerative medicine Daewoong initiates groundbreaking initiative for large-scale organoid manufacturing in medicine ...