Disclosed are systems and techniques for determining an acoustic biomarker. For example, a precordial sound recording that includes at least a first sound component corresponding to a heart and a second sound component corresponding to a left ventricular assist device (LVAD) can be obtained. At least a portion of the second sound component corresponding to the LVAD can be filtered from the precordial sound recording to yield a filtered precordial sound recording. Based on the filtered precordial sound recording, at least one acoustic biomarker can be determined.

Disclosed are systems and techniques for determining an acoustic biomarker. For example, a precordial sound recording that includes at least a first sound component corresponding to a heart and a second sound component corresponding to a left ventricular assist device (LVAD) can be obtained. At least a portion of the second sound component corresponding to the LVAD can be filtered from the precordial sound recording to yield a filtered precordial sound recording. Based on the filtered precordial sound recording, at least one acoustic biomarker can be determined.

A controller for an implantable blood pump, includes an accelerometer configured to measure at least one from the group consisting of position and movement of the controller. Processing circuitry is configured to control operation of the implantable blood pump, the processing circuitry being in communication with the accelerometer, the processing circuitry being configured to adjust a speed of the implantable blood pump if the measured at least one from the group consisting of position and movement deviates from a respective predetermined threshold.

A controller for an implantable blood pump, includes an accelerometer configured to measure at least one from the group consisting of position and movement of the controller. Processing circuitry is configured to control operation of the implantable blood pump, the processing circuitry being in communication with the accelerometer, the processing circuitry being configured to adjust a speed of the implantable blood pump if the measured at least one from the group consisting of position and movement deviates from a respective predetermined threshold.

The present invention relates to surgical or laparoscopic method of creating and maintaining an opening in the thoracic diaphragm of a patient. In said method, an incision in the thoracic diaphragm is created, thereby creating an opening in the thoracic diaphragm. Further a diaphragm passing part is placed in said opening created in the thoracic diaphragm, passing from the abdomen, through the thoracic diaphragm at the pericardial contacting section, into the pericardium; When placing the diaphragm passing part a force transferring part of the diaphragm passing part is placed in contact with the thoracic diaphragm, the force transferring part being adapted to, by motion of the force transferring part, transfer force between the abdominal side of the thoracic diaphragm and the thoracic side of the thoracic diaphragm or the pericardium while sliding against the thoracic diaphragm.

This invention is a system to assist human cardiovascular functioning which integrates the operation of an implanted cardiac device and a wearable device with an arcuate array of biometric sensors. Analysis of data from the biometric sensors on the wearable device is used to automatically adjust and optimize the operation of the implanted cardiac device. This system can work as a closed loop system for assisting and improving human cardiovascular functioning.

This invention is a system to assist human cardiovascular functioning which integrates the operation of an implanted cardiac device and a wearable device with an arcuate array of biometric sensors. Analysis of data from the biometric sensors on the wearable device is used to automatically adjust and optimize the operation of the implanted cardiac device. This system can work as a closed loop system for assisting and improving human cardiovascular functioning.

A method of determining a heart rate of a patient having an implanted blood pump including applying a voltage to a plurality of coils of a stator of the blood pump to produce an electromagnetic force to rotate a rotor in communication with the plurality of coils; displaying a waveform associated with a back electromotive force in the plurality of coils of the blood pump, the waveform being proportional to an axial position of the rotor relative to the stator; determining a time interval between a first alteration in the waveform relative to a baseline and a second alteration in the waveform relative to the baseline; and determining the heart rate of the patient based on the time interval.

Methods for synchronizing the actions of a pulsatile cardiac assist device with a dysfunctional heart using a cardiac pacemaker. Aspects include receiving a signal from the pacemaker and actuating the pulsatile cardiac assist device in response to the signal from the pacemaker to either help push blood out of the heart during systole or to help suck blood from the atria during diastole.

A hemodynamic flow assist device includes a miniature pump, a basket-like cage enclosing and supporting the pump, and a motor to drive the pump. The device is implanted and retrieved in a minimally invasive manner via percutaneous access to a patient's artery. The device has a first, collapsed configuration to assist in implantation and a second, expanded configuration once deployed and active. The device is deployed within a patient's aorta and is secured in place via a self-expanding cage which engages the inner wall of the aorta. The device includes a helical screw pump with self-expanding blades, sensors, and anchoring structures. Also disclosed is a retrieval device to remove the hemodynamic flow assist device once it is no longer needed by the patient and an arterial closure device to close the artery access point after implantation and removal of the hemodynamic flow assist device. The hemodynamic flow assist device helps to increase blood flow in patients suffering from congestive heart failure and awaiting heart transplant.