Title :
Steps toward a model nanotopography
Author :
Wood, Mairead A. ; Meredith, D. Osian ; Owen, Gethin Rh
Author_Institution :
Centre for Cell Eng., Glasgow Univ., UK
Abstract :
A natural lithography technique is employed to create an irregular, submonolayer colloidal topography. Epitenon cells were cultured on these colloidal surfaces, and cell morphology investigations using scanning electron microscopy were conducted. Preliminary experiments brought into question the stability of the colloidal nanotopography, and it was unsure if the surface was presented to cells as a static structure. Investigations using secondary electron and backscattered electron imaging, and also X-ray microanalysis, indicated that the colloidal structure was in fact stable, and cells were capable of direct interactions at the peripheral membrane with the colloids.
Keywords :
X-ray chemical analysis; biological specimen preparation; biomedical materials; cellular biophysics; colloids; field emission electron microscopy; nanolithography; particle backscattering; scanning electron microscopy; X-ray microanalysis; backscattered electron imaging; cell morphology; cell response; cells; colloidal surfaces; direct interactions; epitenon cells; field emission scanning electron microscopy; irregular submonolayer colloidal topography; medical implants; model nanotopography; nanostructured model biomaterial surfaces; natural lithography technique; peripheral membrane; scanning electron microscopy; secondary electron; stability; static structure; Biomembranes; Cells (biology); Lithography; Nanotopography; Optical imaging; Scanning electron microscopy; Stability; Surface morphology; Surface topography; X-ray imaging;
Journal_Title :
NanoBioscience, IEEE Transactions on
DOI :
10.1109/TNB.2003.809460
