摘要Traditional two-dimensional cultures and animal models often fall short in capturing the complexities of neurodevelopmental and neurodegenerative diseases.However,recently developed neural organoid approaches,three-dimensional structures derived from human pluripotent stem cells,have become powerful tools for modeling human neuronal development and disease.Unlike traditional models,neural organoids provide significant insights and improved modeling capabilities.Here,we explore various types of neural organoids in disease modeling and outline distinct protocols for generating each type,including specific patterning methods,growth factors,and differentiation durations.The potential and advantages of co-culturing neural organoids with other cells and tissues are also discussed.While neural organoids have already made significant contributions to neuroscience research,future directions should focus on enhancing their maturation and functionality.The progression of neural organoids approaches will generate more accurate and comprehensive disease models,ultimately adding to our understanding of disease pathogenesis and paving the way for future precision therapies for neurological diseases.
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