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Biomaterial scaffolds have served as the foundation of tissue engineering and regenerative medicine. However, scaffold systems are often difficult to scale in size or shape in order to fit defect‐specific dimensions, and thus provide only limited spatiotemporal control of therapeutic delivery and host tissue responses. Here, a lithography‐based 3D printing strategy is used to fabricate a novel miniaturized...
In article number 2001736, Luiz E. Bertassoni and co‐workers present the use of lithography‐based 3D printing to fabricate a novel modular microcage scaffold system. These hollow microcages can be stacked in thousands of geometric configurations with the ability to scale in size and shape to fit complex tissue defects. Different growth factors and cells can be placed inside each block, enabling cell‐instructive...
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