The degree of mineralization of TAH membranes in animals is directly related to the survival time of animals with a TAH. Large differences in mineralization of the membranes among individual animals have been observed. These differences can be explained by the simultaneous presence of infection on biomaterials (polyurethane) as well as by different levels of natural inhibitors of mineralization. No positive influence of applying sodium warfarin for the inhibition of the mineralization was observed.
Calcification of cardiovascular implants. Chapter 14. In: Guidelines for blood material interactions. Report of the NHLBI working group, U.S. Department of Health and Human Services, 1985: 334–45.
4.
BruckSD. Calcification of materials in blood contacting implants. Int J Artif Organs1985; 8: 65–8.
HarasakiH, GerrityR, JacobsG, NoseY.Calcification in blood pumps. Trans Am Soc Artif Int Organs1975; 25: 305–10.
7.
HamanakaY.Studies with the total artificial heart using sheep as an adult animal model. Hiroshima J Med Sci1985; 34: 215–46.
8.
ImachiK.Calcification in the blood pumps in goats. In: BücherlES, ed. Proceedings from Second World Symposium Artificial Heart.Berlin: Vieweg Verlag, 1986: 27–35.
9.
VaškůJ.Calcification of the TAH driving diaphragms. In: BücherlES, ed. Proceedings from Second World Symposium Artificial Heart.Berlin: Vieweg Verlag, 1986; 45–58.
10.
VaskuJ.Total artificial heart research in Czechoslovakia. Pathophysiological evaluation of long-term experiments performed from 1979-1985. In: AkutsuT ed. Artificial Heart 1.Tokyo: Springer Verlag, 1986: 161–79.
11.
VaskuJ.Brno - experiments in long term survival with total artificial heart. Brno: University J.E. Purkyne Press, 1984: 1–622.
12.
VaškůJ, černýJ, GubaP, A unique case of a male goat, surviving for 184 days with the intrathoracally implanted total artificial heart. Brno: University J.E. Purkyne Press, 1988: 159–70.
13.
DostálM, VaškůJ, černýJ, Hematological and biochemical studies in calves living over 100 days with the polymethylmethacrylate total artificial heart TNS Brno II. Int J Artif Organs1986; 9: 39–48.
14.
FialaV, ŠotolováO, PetržilkaJ, A further contribution to the antithrombogenic moieties of Czechoslovak polyurethane used in TAH TNS Brno VII. Brno: University J.E. Purkyne Press, 1988: 250–5.
15.
TrbusekV, FialaV, VrbováM, The heart prosthesis-biocompatibility with living tissue. Int J Artif Organs1984; 7: 163–4.
16.
BiesterFD, ScharfW, BehrensP, KlinkmannH, UrbaszekW.Comparison with different pneumatically driven pumps in mock circulation. Artif Organs1981; 5 (suppl): 579–82.
17.
BruckSD, MuellerEP. Material aspects of implantable cardiac pacemaker leads. Medical Progress through Technology1988; 13: 149–60.
18.
VaskuJ, FialaV, ŠotolováO, The concept of TAH mineralization and the ways for its prevention. Brno: University J.E. Purkyně Press, 1988: 179–92.
19.
ColemanDL, MeuzelaarHLC, KesselerTR, Mc ClennenWM, RichardsJM, GregonisDE. Retrieval and analysis of a clinical total artificial heart. J Biomed Mater Res1986; 20: 417–31.
20.
AufieroTX, MagovernJA, RosenbergG, PaeWE, DonachyJH, PierceWS. Long-term survival with a pneumatic artificial heart. Am Soc Artif Intern Organs1987; 10: 157–61.