Temporal and spatially controllable cell encapsulation using a water-soluble phospholipid polymer with phenylboronic acid moiety.

TL;DR: This review will provide a critical overview of hydrogel design from the perspective of the polymer chemistry, highlighting both the advantages and limitations of particular polymer structures, properties, and architectures.

TL;DR: An overview of the synthesis and properties of various boronic acid-containing hydrogels, including macroscopic hydrogel, microgels and layer-by-layer self-assembled films are reviewed, with an emphasis on the design of various glucose sensors and self-regulated insulin delivery devices.

TL;DR: Fundamental aspects of cell membrane-inspired phospholipid polymers and their usefulness in the development of medical devices and their use in biointerfaces between artificial and biological systems are described.

TL;DR: This review highlights recent progress in synthetic biomaterials, particularly polymer networks that capture critical aspects of the dynamic mechanical properties of soft tissues by exploiting dynamic covalent chemistries.

TL;DR: It is concluded that fewer proteins are adsorbed and their original conformation is not changed on polymer surfaces that possess a high free water fraction.

TL;DR: It was observed that the transglutaminase-catalyzed gelatin-chitosan gels lost the ability to undergo thermally reversible transitions characteristic of gelatin, which suggests that gelatin's ability to undergoing a collagen-like coil-to-helix transition is unaffected by tyrosinase- catalyzed reactions.

TL;DR: The PSf/MPC polymer blend membrane had improved blood compatibility compared with the PSf membrane, and the MPC polymer blended in the membrane could function as a protein-adsorption-resistant additive.

TL;DR: In this article, a novel poly(vinyl alcohol) (PVA)/poly(NVP-co-PBA) complex system was studied as a candidate material for formulating a chemically regulated insulin delivery system.