Graphene is a novel carbon-based material with unique crystal nanostructure and extraordinary physical and chemical properties. Several biomedical applications of graphene and graphene-derived materials have been proposed. Its antimicrobial properties might be useful in all areas of medicine where antiseptics are required. On the other hand, the safe limits of graphene concentration for human cells have not been clearly established yet. The possibility to attach various chemically active groups to the basic lattice structure allows researchers to build graphene-based sensors for detecting biochemical molecules (and ultimately - selected cells). Sensors for physical signals, such as cardiac electrical activity, have also been proposed. The unique nanostructure of the material and the resulting physical properties (mechanical strength, elasticity and large surface area) make it a very promising material for scaffolds used in tissue regeneration. Several studies have investigated the potential advantages of a graphene coating for endovascular implants, such as stents or valves. Most of them indicate an advantage of graphene coating over other currently available solutions in terms of better hemocompatibility and facilitating endothelialization. Many of the results published so far are from in vitro studies. Promising as they might be, more data, preferably from experiments on more sophisticated animal models, must be obtained before any valid conclusions as to potential uses of graphene in medicine can be drawn.
Keywords: biocompatibility; cardiovascular; graphene; medical devices.