Histopathological analysis can provide important information in long-term experiments with total artificial heart (TAH). Recently, a new type of blood pump, the helical flow total artificial heart (HF-TAH) was developed. This study aimed to investigate the changes in selected vital organs in animal experiments with implanted HF-TAH.
View Article and Find Full Text PDFVessel pulsation is presumably a key physiological function for the optimal supply of peripheral tissues and vital organs by oxygen and nutrients. The absence of pulsatility might impair the peripheral perfusion stability and trigger microvascular dysfunction of vital organs. The main purpose of this study was to investigate the influence of non-pulsatile flow on the microcirculation in experimental goat with implanted undulation pump total artificial heart (UPTAH).
View Article and Find Full Text PDFSixty-six long-term experiments were performed on animals (65 calves, 1 goat) after implantation with a total artificial heart (TAH). Animal survival ranged from 30 to 314 days using TAH devices ranging from the TNS-BRNO-II to the TNS-BRNO-VIIII. In these experiments some basic problems were studied which need to be overcome to achieve the optimal physiological status of the animal, the optimal maintenance of the internal environment, and the long-term survival of TAH recipients.
View Article and Find Full Text PDFImplanted biomaterials are often inevitably attacked by the bacterial infection. So far this problem has not been sufficiently explained and solved. It represents an 'evergreen' in the artificial heart research.
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