The world first material is derived from synthetic T-Rex DNA, but is likely to come with a hefty price tag when it is ...

The project has been touted as an example of how cutting edge genome engineering can be used to create a range of materials ...

The Siegert group at the Institute of Science and Technology Austria (ISTA) presents a new organoid model that reveals details of the developing nervous system's response to viral infections ...

While not exact replicas of human organs, they offer significant insights. Scientists now present a new organoid model that reveals details of the developing nervous system's response to viral ...

Simulate organoid responses to external stimuli Model electrical pulses, chemical signals, and environmental changes Implement pattern recognition and decision-making tasks Real-time visualization of ...

As organoids become increasingly important in the development of new drugs, standardized operation and management at every step of organoid construction is vital to ensure high-quality ...

The latest advance from Clevers and his group is the development of a new organoid that mimics the human fetal pancreas, offering a clearer view into its early development. The complete structure ...

FibroBiologics (FBLG) announced new findings from its artificial thymus organoid program. Recent results from the artificial thymus organoid program showed that fibroblasts and thymus-derived cell ...

Acquisition of desirable organoid cultures depends on the introduction of a variety of cytokine combinations into an organoid media. Based on the cell source and the final differentiation type ...

Organoid detection pipelines ... for critical reading and improving of the manuscript. Icons in the figures have been created with BioRender.com. BL and SL were employed by TissueGnostics GmbH. UR ...

Scientists have fused brain-like tissue with electronics to make an ‘organoid neural network’ that can recognise voices and solve a complex mathematical problem. Their invention extends ...

As detailed in a new study published in Nature Electronics, a team at Indiana University has successfully grown their own nanoscale “brain organoid” in a Petri dish using human stem cells.