Upgrading the Physiological Relevance of Human Brain Organoids

Update: 2024-08-27

Description

Giorgia Quadrato, Ph.D., explores cerebral organoids as models for neural development and disease research. Using live calcium imaging, Quadrato observes increased neuronal coordination attributed to inhibitory neurons, validated through pharmacological and genetic methods. Quadrato contrasts their organoid generation protocol with previous methods, emphasizing complex patterning, long-term cultures, and co-culture with mouse brain cells for improved physiological relevance. Microfluidics are utilized for enhanced oxygenation and physiological conditions. Future efforts focus on incorporating microglial cells for synaptic pruning studies and overcoming challenges in cryopreservation. Overall, the research aims to advance understanding of neural mechanisms and diseases, enhancing organoid fidelity for biomedical applications. Series: "Stem Cell Channel" [Health and Medicine] [Science] [Show ID: 39456]

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Upgrading the Physiological Relevance of Human Brain Organoids

#box-pro-ellipsis-17265359027315{-webkit-line-clamp:2;}Upgrading the Physiological Relevance of Human Brain Organoids

Upgrading the Physiological Relevance of Human Brain Organoids

UCTV: UC San Diego

Upgrading the Physiological Relevance of Human Brain Organoids