A Novel Rotary Blood Pump for HFpEF

Abstract

Purpose Heart Failure with preserved ejection fraction (HFpEF) currently has no treatment options for improving symptoms or survival. We have developed a long-term novel pulsed assist device for treatment of patients with HFpEF. Methods We have developed a small diagonal centrifugal rotary blood pump which utilizes hydrodynamic suspension for magnetically elevated support of a four-blade impeller with partial unloading from the left atrium (LA) to the descending aorta. The pump is adaptive: the physiological needs of the patient are adjusted by both ECG and sensor feedback algorithms. Pulsed power and speed (rpm) maintain pulse pressure at a normal level. The device is designed for minimally invasive Implantation through a 9 × 3 cm thoracotomy. Repeated animal testing (sheeps) is performed. Results Animal studies testing a spectrum of unloading with simultanous hemodynamic and echocardiographic monitoring, have demonstrated adequate pulsed pump unloading between 1.5-3.0 l/min. ECG gated rpm increase in systole avoids LA suction, interference with mitral valve opening and ventricular filling. Blood pressure was maintained at 95-70 mmHg, central venous pressure (CVP) at 10 mmHg and native cardiac output of 3 l/m. Repeated studies with human whole blood without added anticoagulation in a mock loop for 8 hours have demonstrated no hemolysis, no increase in energy consumption or heat, and no clotting inside the pump. Long-term animal studies are planned. Conclusion Partial systolic pulsed unloading of the LA using a novel rotary blood pump demonstrated adequate hemodynamics and maintained normal pulse pressure. This novel pump may become the first possible treatment for patients with HFpEF.