Organoid applications in cancer research Organoids have become an essential 3D model in cancer research as they can replicate various elements of the intricate structure and function seen in the ...

This Application Note offers in-depth insights into the impact of growth factors and cytokines on organoid development, alongside real-time data analysis using the Incucyte® live-cell analysis ...

Scientists from Cincinnati Children's and colleagues based in Japan report achieving a major step forward in organoid technology: producing liver tissue that grows its own internal blood vessels.

A Novel Three-in-One Pancreatic Organoid An innovative organoid model mirrors the pancreas' complexity, generating all three key cell types to explore development and possible regeneration.

The recent progress in organoid technology has paved the way for new possibilities in human disease research, disease modeling, regenerative medicine, and precision therapies tailored to individual ...

Signet’s organoid models, derived from real-world cancer genomics data, can closely mimic human biology in 3D tissues to identify novel targets and evaluate drug efficacy with greater clinical ...

This app note highlights a method for generating highly standardized, assay- ready PDOs and demonstrates their utility in high-throughput applications.

Biocomputers powered by human brain cells may be the futuristic result of a new field called “organoid intelligence.” Scientists envision brain organoids, grown in labs using human cells, that ...

“This will be a novel application of artificial intelligence techniques in the organoid research field,” said Shandong Wu, a co-principal investigator for the project and artificial intelligence ...

This fusion could result in a new era of "hybrid intelligence" that combines the analytical power of AI with the nuanced understanding of human-like cognition.