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Front Cover:On page 973, A. Ferrari, D. Poulikakos, and coworkers present a novel approach to fabricating optically accessible, 3D integrated platforms, simulating the cell microenvironment during interstitial migration. The platforms consist of free‐form, 3D micropores printed on demand on basal scaffolds with microgratings, and are employed to monitor cancer cell migration using highresolution optical...
Understanding the mechanisms of interstitial cancer migration is of great scientific and medical interest. Creating 3D platforms, conducive to optical microscopy and mimicking the physical parameters (in plane and out of plane) involved in interstitial migration, is a major step forward in this direction. Here, a novel approach is used to directly print free‐form, 3D micropores on basal scaffolds...
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