TUNING ADHESION AT CONTACTING DEVICE INTERFACES: GEOMETRIC TOOLS FOR MINIMIZING SURFACE FOULING
Abstract
The present invention relates to substrates and composites having dynamic, reversible micron-level luminal surface deformation including texture or geometric instabilities, e.g., surface wrinkling and folding. The surface deformation and its reversal to the original surface form or to another, different surface form, is effective to reduce or prevent surface fouling and, more particularly, in certain applications, to reduce or prevent unwanted platelet adhesion and thrombus formation. The substrates and composites include a wide variety of designs and, more particularly, biomedical-related designs, such as, synthetic vascular graft or patch designs.
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Fecha de publicación: | 2018 |
URL: | https://patents.google.com/patent/WO2018075595A1/en |
DOI: |
WO 2018/075595 Al |