BruckSD. Biomaterials in medical devices. Trans Am Soc Artif Intern Organs1972; 18: 1–8.
2.
BrashJL, BrophyJM, FeuersteinIA. Adhesion of platelets to artificial surfaces. Effect of red cells. J Biomed Mater Res1976; 10: 429–43.
3.
HansonSR, HarkerLA, RatnerBD, HoffmanAS. In vivo evaluation of artificial surfaces with non-human primate model of arterial thrombosis. J Lab Clin Med1980; 95: 289–95.
4.
LelahMD, LabrechtLK, YoungBR, CooperSL. Physio-chemical characterization and in vivo blood tolerability of cast and extruded Biomer. J Biomed Mater Res1983; 17: 1–22.
5.
LelahMD, PierceJA, LambrechtLK, CooperSL. Polyurethane ionomers: surface property/ex in vivo blood compatibility relationships. J Colloid Interface Sci1985; 104: 422–39.
6.
Sa DacostaV, Brier-RusselD, SalzmanEW, MerrillEW, ESCA studies of polyurethanes: Blood platelet activation in relation to surface composition. J Colloid Interface Sci1981; 80: 445–52.
7.
MerrillEW, SalzmanEW. Polyethylene oxide as a biomaterial. J Am Soc Artif Intern Organs1983; 6: 60–5.
8.
AndradeJ, SmithL, GregonisD. In: AndradeJ, ed. The contact angle and interface energetics in surface and interfacial aspects of biomedical polymers.New York: Plenum Press1985; 1: 249.
9.
LymanDJ, LoovBH. New synthetic membranes for dialysis IV, a Copolyether - urethane membrane system. J Biomed Mater Res1967; 1: 17–26.
10.
JansenB, EllinghorstG.Modification of polyurethane for biomedical application by radiation induced grafting-1. Grafting procedure, determination of mechanical properties and chemical modification of grafted films. J Biomed Mater Res1985; 19: 1085–99.
