A minimally invasive VAD installation system includes a curved hook having another hook at its distal end. The installation system also has a valve insertion tool having a gimbaled set of clamp jaws configured for releasably holding the inflow tube of a VAD pump. The installation system further has a pushing tool having a distal opening configured to pass over a tube.

A minimally invasive VAD installation system includes a curved hook having another hook at its distal end. The installation system also has a valve insertion tool having a gimbaled set of clamp jaws configured for releasably holding the inflow tube of a VAD pump. The installation system further has a pushing tool having a distal opening configured to pass over a tube.

A connecting device is provided for connecting a pipe or tube-shaped element to the heart or a blood vessel of a patient, comprising a suture ring that has an opening, which can be closed by means of a closure element and through which said pipe or tube-shaped element is guided in the axial direction. The closure element is secured to the suture ring by means of at least one elastic securing element. A radially-expandable sealing element can also be provided in order to establish a sealing placement of the closure element against the suture ring.

Apparatus is provided, including a flexible intraventricular receptacle positionable within a heart ventricle, and configured to assume a first volume upon passage of fluid that is not blood into the receptacle and a second, smaller volume upon passage of the fluid out of the receptacle. An expandable extracardiac receptacle is positionable outside of the heart, and is configured to expand upon transfer of the fluid into the extracardiac receptacle from the intraventricular receptacle and to contract upon passage the fluid out of the extracardiac receptacle. A transmyocardial conduit is disposed and allows passage of the fluid between the intraventricular receptacle and the extracardiac receptacle responsively to a cardiac cycle. During ventricular systole, a volume of fluid is expelled from the intraventricular receptacle, through the conduit, and the extracardiac receptacle, producing a corresponding decrease in a total volume of the ventricle during isovolumetric contraction of the ventricle.

An apparatus for coupling a blood pump to a patients heart is provided. The apparatus includes a sewing ring designed to be sutured to the patients heart, wherein the sewing ring has an opening sized and shaped to receive an inflow cannula of the blood pump. The apparatus further includes a locking element coupled to a housing of the blood pump and transitionable between a closed state and an open state. The locking element is structured to receive the sewing ring in the open state and engage the sewing ring in the closed state to prevent translational and rotational movement of the locking element relative to the sewing ring. In addition, the apparatus includes a biased structure designed to bias the locking element in the closed state.

An apparatus for coupling a blood pump to a patients heart is provided. The apparatus includes a sewing ring designed to be sutured to the patients heart, wherein the sewing ring has an opening sized and shaped to receive an inflow cannula of the blood pump. The apparatus further includes a locking element coupled to a housing of the blood pump and transitionable between a closed state and an open state. The locking element is structured to receive the sewing ring in the open state and engage the sewing ring in the closed state to prevent translational and rotational movement of the locking element relative to the sewing ring. In addition, the apparatus includes a biased structure designed to bias the locking element in the closed state.

Methods, systems, and devices for a mechanical circulatory support system are disclosed herein. An implantable power supply can be part of a mechanical circulatory support system. The implantable power supply can include one or several energy storage components, a power source, a voltage converter, and an output bus. Power can be provided to the voltage converter from one or both of the power source and the first energy storage component. The voltage converter can convert the voltage of the power from a first voltage to a second voltage and can power the output bus.

Apparatus includes a flexible intraventricular receptacle that assumes a first volume upon passage of fluid that is not blood into the receptacle and a second, smaller volume upon passage of the fluid out of the receptacle. An expandable extracardiac receptacle expands upon transfer of the fluid into the extracardiac receptacle from the intraventricular receptacle and contracts upon passage of the fluid out of the extracardiac receptacle. A transmyocardial conduit allows passage of the fluid between the intraventricular receptacle and the extracardiac receptacle responsively to a cardiac cycle. During ventricular systole, a volume of fluid is expelled from the intraventricular receptacle, through the conduit, and into the extracardiac receptacle, producing a corresponding decrease in a total volume of the ventricle during isovolumetric contraction of the ventricle. Other embodiments are also described.

An implantable system includes a ventricular assist device and a cuff for attachment to a heart. The ventricular assist device includes an inlet cannula. The cuff defines an opening for insertion of the inlet cannula into the opening. The cuff includes an annular fastening member and an attachment member. The annular fastening member is configured to be sutured to heart tissue. The attachment member includes flexible extensions. Each of the flexible extensions is configured to interface with the inlet cannula during insertion of the inlet cannula into the opening so as to cause the flexible extension to flex outward to accommodate passing of the inlet cannula along the opening. Each of the flexible extensions is configured to interface with the inlet cannula to impede extraction of the inlet cannula from the opening.

The present invention relates to an attachment device having a sewing ring frame and a locking element mounted on the sewing ring frame. The locking mechanism includes a flange element projecting from the outer surface of the sewing ring frame and a retractable locking pin projecting towards the interior of the sewing ring frame. The flange is coupled to the locking pin and the biasing element. The locking mechanism is transitionable between a locked configuration in which the locking pin is in an engaged position to an unlocked configuration in which the locking pin is in a disengaged position.