A 4D Bio-Kirigami Strategy for Engineering Complex Tissue Curvatures

Four-dimensional (4D) systems offer a promising approach for generating sophisticated dynamic structures that mimic native tissue architectures. Among those, Kirigami strategies enable precise, localized control over morphing behaviors, yet their application in 4D tissue engineering remains unexplored. Here, we present a bio-Kirigami system that facilitates the creation of dynamic, transformable structures through spatially patterned hydrogels with distinct deformation modes dictated by encoded swelling differentials. The system consists of two biomaterial components: (1) a photocrosslinked hydrogel framework with controlled degradation and swelling behavior that drives the shape transformation and (2) a rigid support hydrogel frame. By leveraging photolithographic patterning, complex structures with continuously evolving configurations were achieved through preprogrammed deformations. Bio- Kirigami hydrogels encapsulating stem cells developed into tissue-like constructs with sophisticated configurations when cultured in tissue-specific environment. Notably, the engineered tissue constructs kept their shape integrity after excision from the outer support, demonstrating a robust platform for achieving intricate tissue curvatures.