In Vitro and In Silico Characterization of the Aggregation of Thrombi on Textured Ventricular Cannula.

The unacceptably high stroke rate associated with HeartMate 3 ventricular assist device (VAD) without signs of adherent pump thrombosis is hypothesized to be the result of the emboli produced by the inflow cannula, that are ingested and ejected from the pump. This in vitro and numerical study aimed to emulate the surface features and supraphysiological shear of a ventricular cannula to provide insight into their effect on thrombogenesis. Human whole blood was perfused at calibrated flow rates in a microfluidic channel to achieve shear rates 1000-7500 s, comparable to that experienced on the cannula.

Biological Response to Sintered Titanium in Left Ventricular Assist Devices: Pseudoneointima, Neointima, and Pannus.

Titanium alloys have traditionally been used in blood-contacting cardiovascular devices, including left ventricular assist devices (LVADs). However, titanium surfaces are susceptible to adverse coagulation, leading to thrombogenesis and stroke. To improve hemocompatibility, LVAD manufacturers introduced powder sintering on blood-wetted surfaces in the 1980s to induce endothelialization.

High-speed visualization of ingested, ejected, adherent, and disintegrated thrombus in contemporary ventricular assist devices.

Biocompatibility of ventricular assist devices (VADs) has been steadily improving, yet the rate of neurological events remains unacceptably high. Recent speculation for elevated stroke rates centers on ingestion of thrombi originating upstream of the pump, such as in the ventricle or left atrial appendage. These thrombi may be ejected by the VAD or become deposited within the blood flow pathway, presenting serious complications to the patient.

Classification of the Frequency, Severity, and Propagation of Thrombi in the HeartMate II Left Ventricular Assist Device.

Computational fluid dynamics has become a dynamic tool in the development of ventricular assist devices (VADs) and as a predictor of thrombosis within these pumps. The genesis of thrombi could be in loco, due to deposition within the VAD, or upstream such as the left atrial appendage or inside the left ventricle. To calibrate our group's computational model, a retrospective analysis of 29 explanted HeartMate II (HMII) VADs due to suspected pump thrombosis (PT) from the University of Michigan was conducted.

Characterizing the HeartMate II Left Ventricular Assist Device Outflow Using Particle Image Velocimetry.

Ventricular assist devices (VADs) are implanted in patients with a diseased ventricle to maintain peripheral perfusion as a bridge-to-transplant or as destination therapy. However, some patients with continuous flow VADs (e.g.