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In article number 1806380, Benjamin D. Almquist and co‐workers describe a bioinspired nanotechnology platform that uses the cellular traction force as a trigger for controlling the release of growth factors. This method of release is straightforward to integrate with diverse biomaterial scaffolds, substrates, and fabrication methods, and enables novel capabilities like the selective activation of...
Biomaterial scaffolds that are designed to incorporate dynamic, spatiotemporal information have the potential to interface with cells and tissues to direct behavior. Here, a bioinspired, programmable nanotechnology‐based platform is described that harnesses cellular traction forces to activate growth factors, eliminating the need for exogenous triggers (e.g., light), spatially diffuse triggers (e...
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