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Cardiac microphysiological systems are accurate in vitro platforms that reveal the biological mechanisms underlying cardiopathy, accelerating pharmaceutical research in this field. Current cardiac microphysiological devices and organs‐on‐chips consist of several layers prepared with complex, multi‐step processes. Incorporating inorganic photonic crystals may cause long‐term biocompatibility issues...
Cardiomyocyte Monitoring
In article number 2202235, Chunyu Chang, Donghui Zhang, and co‐workers develop micropatterned hydrogels with anisotropic structural colors by locking shear‐oriented tunicate cellulose nanocrystals (TCNCs) in hydrogel networks through in situ polymerization. The autonomous beating of cardiomyocytes drives synchronous deformations of the micropatterned hydrogels, causing periodic...
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