On the basis of animal testing and a single clinical implant during the 1960s, development of the total artificial heart (TAH) began in earnest in the 1970s. The goal was to produce a pump that could treat biventricular heart failure or any other condition that necessitated removal of the patient's native heart. The early TAHs were pneumatically powered, with externalized drivelines. After undergoing in vivo evaluation in hundreds of sheep and calves at several centers (mainly the Utah Heart Institute), these pumps were implanted in humans, initially for permanent cardiac replacement and later for bridging to transplantation. In both the in vivo experimental setting and the clinical setting, infection and thrombosis were problematic, infection being encountered much more frequently than thrombosis in clinical cases. To minimize these problems, four research groups, funded by NIH, began in 1988 to develop permanent, transcutaneously powered, totally implantable, electromechanical TAHs. For the first time, TAH technology was able to minimize infection and thrombosis, as confirmed by current in vivo studies. These new TAHs will undergo preclinical, pre-IDE studies this year and clinical trials in the near future. This article briefly reviews the evolution of TAH technology, with an emphasis on the prevention and management of infection and thrombosis.