SCIENTIFIC POSTER
IPCS derived brain organoids enable functional neuronal disease modeling
This scientific poster shows how iPSC derived dorsal forebrain 3D organoids function as a viable model for neuronal disease research. By demonstrating measurable functional responses to disease relevant perturbations, including epilepsy and traumatic brain injury, this work shows how brain organoids can be used to study neural activity, evaluate compound effects, and support translational disease modeling at scale.
Automating iPSC-Derived Brain Organoid Models
Poster: Modeling Neurological Disease with iPSC-Derived Dorsal Forebrain Organoids
Human iPSC-derived brain organoids are powerful models for studying neurological diseases, neural development, and drug responses. However, generating and monitoring organoids consistently can be challenging using manual workflows.
This scientific poster demonstrates how automated organoid workflows enable scalable and reproducible generation of dorsal forebrain organoids for neurological disease modeling.
In this poster, you will learn how researchers can:
- Generate iPSC-derived dorsal forebrain organoids using automated workflows
- Monitor neuronal morphology and development using advanced imaging
- Measure neuronal activity and oscillation patterns in organoids
- Evaluate compound responses such as GABA and 4-AP modulation
- Correlate organoid morphology with functional neuronal activity
- Support scalable neurological disease modeling and drug discovery
Download the poster to explore how automated organoid technologies support more reproducible brain disease research.
