Cell adhesive ability of a biological foam ceramic with surface modification

An improved cell compatibility of polymers is determined by interactions with the cell surface, which are influenced by the chemical surface properties of the polymers. Of special interest are methods to change the surface properties by generating new functional groups for a better cell adhesion wit

## Abstract A fundamental goal in the field of implantology is the design of innovative devices suitable for promoting implant‐to‐tissue integration. This result can be achieved by means of surface modifications aimed at optimizing tissue regeneration. In the framework of oral and orthopedic implan

## Abstract This comprehensive literature review covers recent studies on patterning neuronal cells by topographical modifications on material surfaces targeted for neural prostheses. We explore different materials that are used as the candidate surface for neuronal cell adhesion. Cell–material int

## Abstract Graft copolymers were designed that could spontaneously bind to biological surfaces and block subsequent recognition and adhesion at those surfaces. Phenylboronic acid (PBA) moieties in the polymer backbone provided binding to surfaces, forming reversible covalent complexes with __cis__

## Abstract A novel PAA__‐b‐__PLGA diblock copolymer is synthesized and characterized that has excellent cell adhesion and biocompatibility. Fluorescent DiO labeling is used to monitor the attachment and growth of hASCs on the film surface, and cell proliferation over time is studied. Results show