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Current understanding of brain development, derived from suboptimal in vitro and animal models, is rudimentary. In article number 2002183, Francis G. Szele, Hagan Bayley, and co‐workers introduce a means to print human neural cells in a soft, biocompatible extracellular matrix. The approach provides precise, customizable construction of natural and unnatural patterns of cells, and yields important...
Current understanding of human brain development is rudimentary due to suboptimal in vitro and animal models. In particular, how initial cell positions impact subsequent human cortical development is unclear because experimental spatial control of cortical cell arrangement is technically challenging. 3D cell printing provides a rapid customized approach for patterning. However, it has relied on materials...
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