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lüll Shear stress, energy losses, and costs: a resolved dilemma of pulsatile cardiac assist devices Nour S; Liu J; Dai G; Carbognani D; Yang D; Wu G; Wang Q; Chachques JCBiomed Res Int 2014[]; 2014 (ä): 651769Cardiac assist devices (CAD) cause endothelial dysfunction with considerable morbidity. Employment of pulsatile CAD remains controversial due to inadequate perfusion curves and costs. Alternatively, we are proposing a new concept of pulsatile CAD based on a fundamental revision of the entire circulatory system in correspondence with the physiopathology and law of physics. It concerns a double lumen disposable tube device that could be adapted to conventional cardiopulmonary bypass (CPB) and/or CAD, for inducing a homogenous, downstream pulsatile perfusion mode with lower energy losses. In this study, the device's prototypes were tested in a simulated conventional pediatric CPB circuit for energy losses and as a left ventricular assist device (LVAD) in ischemic piglets model for endothelial shear stress (ESS) evaluations. In conclusion and according to the study results the pulsatile tube was successfully capable of transforming a conventional CPB and/or CAD steady flow into a pulsatile perfusion mode, with nearly physiologic pulse pressure and lower energy losses. This represents a cost-effective promising method with low mortality and morbidity, especially in fragile cardiac patients.|*Cardiac Surgical Procedures/adverse effects/instrumentation/methods[MESH]|*Heart-Assist Devices[MESH]|Animals[MESH]|Biomechanical Phenomena[MESH]|Blood Pressure/physiology[MESH]|Cardiopulmonary Bypass[MESH]|Equipment Design[MESH]|Female[MESH]|Male[MESH]|Pulse[MESH]|Stress, Mechanical[MESH]|Swine[MESH] |