Comments on cell adhesion to biomaterial surfaces: Conflicts and concerns

In a recent issue of this journal, Ruckenstein and Srinivasanl criticized a paper we published in 1980 dealing with platelet adhesion to polymeric substrates. In the same issue, R. E. Baier' published a guest editorial, apparently meant asa comment to our debate with Ruckenstein and Srinivasan, whic

A recent article by Neumann et al.,l deals with the deposition of pig platelets upon various collector surfaces. These authors performed the experiments for durations of up to 3 h and observed that the deposition saturated at a fractional coverage on each surface at about 11/2 h from the start. Neum

We report here the use of perfluorosulfonic acid (Nafion) as a substratum for the growth of bovine aortal endothelial cells. This support which can be generated in a number of forms is at least as efficient in maintaining the growth of endothelial and other cell types as tissue culture grade polysty

## Abstract We have demonstrated that an established hamster cell line (NIL 8 M‐2) will adhere to the bioceramic bioglass. The rate at which the NIL 8 M‐2 cells assume a spread morphology on bioglass is density dependent and the morphology displayed by NIL 8 M‐2 cells attached to bioglass is much m

## Abstract Osteopontin (OPN) is an important extracellular matrix protein that has been shown to impact wound healing, inflammation, and the foreign body reaction, and has been identified as a potential surface component for engineered biomaterials. OPN contains the arginine‐glycine‐aspartic acid

Hydrogels of poly(hydroxyethy1 methacrylate) (polyHEMA) homopolymer do not normally support the attachment and growth of mammalian cells. By altering the surface it has been possible to dramatically change this cell-substratum interaction so that vascular endothelial cells can attach and completely