Organoids are 3D models created from human stem cells and resemble fetal tissues. In an article published in Nature Medicine on March 4, 2024, researchers from University College London provided details on the possibility of generating organoids from epithelial cells collected from amniotic fluid without terminating the pregnancy.
Stem Pharm Inc. and Verge Genomics (Verge Analytics Inc.) have established a collaboration to develop a disease model to validate novel targets identified by Verge for Parkinson’s disease.
Collplant Biotechnologies Ltd. and Ramot at Tel Aviv University Ltd., the technology transfer company of Tel Aviv University and Sheba Medical Center, have entered into a license and research agreement to codevelop a gut-on-a-chip tissue model for drug discovery and high-throughput screening of drugs.
Self-organizing organoids resembling specific regions of the nervous system, including human cortical organoids (hCO), can be generated and used as disease models. However, the application of hCOs is precluded by several limitations, including the lack of integration into in vivo circuits that generate behavioral outputs. To overcome these issues, transplantation of hCOs into intact living brains has been proposed.
Sengine Precision Medicine Inc. is conducting a study utilizing its high-throughput patient-derived organoid drug screening technology to identify novel therapeutic targets in progressive anaplastic lymphoma kinase (ALK)-positive non-small-cell lung cancer (NSCLC).
Emulate Inc. has launched a new adeno-associated virus (AAV) transduction application for the Liver-Chip that enables gene therapy researchers to test the delivery efficiency and safety of AAV vectors in a validated, human-relevant model of the liver and get results in weeks.