In vitro assessment of the Milwaukee heart and right to left balance

: A new, electrically powered, total artificial heart, the Milwaukee Heart, has been developed. This device is undergoing testing in vitro. The unidirectional motion of the brushless DC motor (BDCM) affords easier motor control and reduces energy demand. Motors with a unidirectional motion have a longer life than those with bidirectional motion. This device requires less power due to the highly efficient mechanical design. It consumes 6.5 W of power at an average flow of 5 L/min into 100 mmHg of mean aortic pressure and 20 mmHg of mean pulmonary pressure. Pumping at 8 L/min it requires 9.6 W of power. The maximum pump flow is 10 L/min and overall efficiency is 20%. A slotted optocoupler is used to determine the position of the pusher plate at the start of left systole. The number of revolutions that the BDCM makes is counted from this position. There are 50 revolutions of the BDCM per stroke (using a 50:1 gear reducer connected to the motor). The position of the pusher plate is determined from the number of BDCM revolutions. Based on where the pusher plate encounters resistance from the bladder, the force on the left pump is increased or decreased. Left to right balance has been achieved by reducing the size of the right pusher plate in conjunction with varying right stroke volume. In vitro tests show that this new, electrically powered artificial heart provides reliable performance and satisfactory hemodynamic results.