AI Article Synopsis
- * The incorporation of active targeting strategies allows for precise control over how cells interact with materials, leading to more effective medical devices.
- * This review highlights recent progress in using natural structural macromolecules and biohybrid approaches to enhance biomaterials for regenerative medicine and therapeutic delivery, especially by integrating structural and functional features with aptamer targeting.
Article Abstract
Biomaterials science is one of the most rapidly evolving fields in biomedicine. However, although novel biomaterials have achieved well-defined goals, such as the production of devices with improved biocompatibility and mechanical properties, their development could be more ambitious. Indeed, the integration of active targeting strategies has been shown to allow spatiotemporal control of cell-material interactions, thus leading to more specific and better-performing devices. This manuscript reviews recent advances that have led to enhanced biomaterials resulting from the use of natural structural macromolecules. In this regard, several structural macromolecules have been adapted or modified using biohybrid approaches for use in both regenerative medicine and therapeutic delivery. The integration of structural and functional features and aptamer targeting, although still incipient, has already shown its ability and wide-reaching potential. In this review, we discuss aptamer-functionalized hybrid protein-based or polymeric biomaterials derived from structural macromolecules, with a focus on bioresponsive/bioactive systems.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7699523 | PMC |
| http://dx.doi.org/10.3390/pharmaceutics12111115 | DOI Listing |
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