Methods, systems, and devices for an updatable blood pump are disclosed herein. The blood pump can be part of a mechanical circulatory support system that can include a system controller and the blood pump. The blood pump can include a rotary motor and a control unit that can communicate with the system controller. The system controller can initiate the update process and can provide the update to the blood pump. Upon initiation of the update process, the control unit can stop the rotary motor. While the rotary motor is stopped, the blood pump can be updated. At the completion of the update, the rotary pump can be restarted.

The present invention relates to a supply device for a channel (8), in particular within a hollow catheter (1), and to a method for operating a supply device of this type that supplies a channel (8) with a liquid and has two pumps (10, 19) arranged at points of the channel distanced from one another, characterized in that the parameter values of at least one operating parameter of both pumps are coordinated with one another in a controlled manner. As a result of the method, interruption-free and precisely controllable operation is to be ensured with simple structural means, in particular in the case of use of wear-free diaphragm pumps.

Methods are provided for controlling the speed of a pump based on a valve state index and/or for deriving a valve state from time-series signal representing a pressure difference or a flow rate. The methods may be employed in blood pump systems or in blood pump control systems.

Method and systems control a rotational speed of a blood pump during ventricular diastole. A mechanical circulatory assist system includes a blood pump and a controller. The controller is operable to control a rotation rate of the blood pump in accordance with a first operational mode, monitor a blood flow rate through the blood pump, detect that the blood flow rate through the blood pump during ventricular diastole has decreased to or below an initiation blood flow rate, and, in response to detecting that the blood flow rate through the blood pump during ventricular diastole has decreased to or below an initiation blood flow rate, increase the rotation rate of the blood pump to prevent the blood flow rate through the blood pump during ventricular diastole from falling below a target minimum blood flow rate.

Method and systems control a rotational speed of a blood pump during ventricular diastole. A mechanical circulatory assist system includes a blood pump and a controller. The controller is operable to control a rotation rate of the blood pump in accordance with a first operational mode, monitor a blood flow rate through the blood pump, detect that the blood flow rate through the blood pump during ventricular diastole has decreased to or below an initiation blood flow rate, and, in response to detecting that the blood flow rate through the blood pump during ventricular diastole has decreased to or below an initiation blood flow rate, increase the rotation rate of the blood pump to prevent the blood flow rate through the blood pump during ventricular diastole from falling below a target minimum blood flow rate.

An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.

An implantable pump system is provided, suitable for use as a left ventricular assist device (LVAD) system, having an implantable pump, an extracorporeal battery and a controller coupled to the implantable pump, and a programmer selectively periodically coupled to the controller to configure and adjust operating parameters of the implantable pump. The implantable pump includes a flexible membrane coupled to an actuator assembly that is magnetically engagable with electromagnetic coils, so that when the electromagnetic coils are energized, the actuator assembly causes wavelike undulations to propagate along the flexible membrane to propel blood from through the implantable pump. The controller may be programmed by a programmer to operate at frequencies and duty cycles that mimic physiologic flow rates and pulsatility while operating in an efficient manner that avoids thrombus formation, hemolysis and/or platelet activation.

The disclosure provides a method of placing a cardiac drainage cannula into a patient's heart. In some embodiments, the method comprises the steps of (a) inserting the cannula percutaneously into an internal jugular vein, (b) advancing the cannula through the internal jugular vein and into the right atrium of the heart, and (c) advancing the cannula through the atrial septum into the left atrium of the heart. Further aspects of the disclosure provide a method of draining blood from the left atrium or left ventricle of a patient's heart using a cardiac drainage cannula. The disclosure also provides a cardiac drainage cannula and a mechanical circulatory support system.

The disclosure provides a method of placing a cardiac drainage cannula into a patient's heart. In some embodiments, the method comprises the steps of (a) inserting the cannula percutaneously into an internal jugular vein, (b) advancing the cannula through the internal jugular vein and into the right atrium of the heart, and (c) advancing the cannula through the atrial septum into the left atrium of the heart. Further aspects of the disclosure provide a method of draining blood from the left atrium or left ventricle of a patient's heart using a cardiac drainage cannula. The disclosure also provides a cardiac drainage cannula and a mechanical circulatory support system.

A pump catheter for the directed pulsatile conduction of blood includes a proximal section and a distal section which has an expandable pump chamber and a tube section arranged distally from the pump chamber. The tube section has an outlet opening. An inlet element having at least one inlet opening is arranged between the proximal section and the pump chamber and the inlet element and the pump chamber are geometrically spaced apart by a coupling element.