A catheter pump system is provided herein. The catheter pump system includes a catheter pump, a fluid system located within the catheter pump, and at least one filter membrane. The catheter pump has a proximal end, a distal end, and an elongate body extending therebetween, and the elongate body defining at least an inner lumen. The fluid system is configured to pressurize the catheter pump with fluid. The at least one filter membrane is configured to reduce an amount of particles within the fluid of the fluid system.

A coupling for a circulatory assist device includes a first coupler and a second coupler. The first coupler including a first inner portion configured to be secured to a first shaft, a first body extending from the inner portion, and first magnets joined to the body. The second coupler offset from and separate from the first coupler with a gap therebetween. The second coupler including a second inner portion configured to be secured to a second shaft, a second body extending from the second inner portion, and second magnets joined to the body. The second magnets magnetically coupled to the first magnets and configured to transfer a torque applied to one of the first shaft and the second shaft to an other of the first shaft and the second shaft.

A coupling for a circulatory assist device includes a first coupler and a second coupler. The first coupler including a first inner portion configured to be secured to a first shaft, a first body extending from the inner portion, and first magnets joined to the body. The second coupler offset from and separate from the first coupler with a gap therebetween. The second coupler including a second inner portion configured to be secured to a second shaft, a second body extending from the second inner portion, and second magnets joined to the body. The second magnets magnetically coupled to the first magnets and configured to transfer a torque applied to one of the first shaft and the second shaft to an other of the first shaft and the second shaft.

The present application describes various features for a catheter pump that prevents or inhibits unwanted fluids from entering a cavity or opening of a catheter pump. If unwanted fluids enter a cavity or opening of the catheter pump, the examples described herein cause the unwanted fluid to be expelled from the catheter pump.

Apparatus and methods are described including a ventricular assist device that includes an impeller disposed within a frame and configured to pump blood through a pump-outlet tube and out of one of more blood outlet openings. The frame includes an inner lining. A protective braid is disposed over a distal portion of the frame and configured to block structures from the subject's left ventricle from entering into the frame. A proximal end of the protective braid is embedded between the pump-outlet tube and the inner lining, such that, during crimping of the frame, the braid becomes crimped with the pump-outlet tube and the inner lining, thereby preventing the braid from moving with respect to pump-outlet tube or the inner lining. Other applications are also described.

A blood pump comprises a pump casing having a blood flow inlet and a blood flow outlet connected by a passage, and an impeller arranged in said pump casing so as to be rotatable about an axis of rotation. The impeller is provided with blades sized and shaped for conveying blood along the passage from the blood flow inlet to the blood flow outlet, and is rotatably supported in the pump casing by a first bearing at a first axial end of the impeller and a second bearing axially spaced apart from the first bearing. The first bearing comprises a projection extending along the axis of rotation and connected to one of the impeller and the pump casing and a cavity in the other one of the impeller and the pump casing, the projection comprising an enlarged portion that engages the cavity such that the first bearing and the second bearing are arranged to bear axial forces in the same axial direction.

A blood pump comprises a pump casing having a blood flow inlet and a blood flow outlet connected by a passage, and an impeller arranged in said pump casing so as to be rotatable about an axis of rotation. The impeller is provided with blades sized and shaped for conveying blood along the passage from the blood flow inlet to the blood flow outlet, and is rotatably supported in the pump casing by a first bearing at a first axial end of the impeller and a second bearing axially spaced apart from the first bearing. The first bearing comprises a projection extending along the axis of rotation and connected to one of the impeller and the pump casing and a cavity in the other one of the impeller and the pump casing, the projection comprising an enlarged portion that engages the cavity such that the first bearing and the second bearing are arranged to bear axial forces in the same axial direction.

A catheter system includes a catheter including an elongate body having an expandable medical device coupled with a distal end thereof, and an introducer sheath assembly disposed over a proximal section of the catheter. The introducer sheath assembly includes an introducer sheath disposed over the catheter to form a gap therebetween, and a tubular plug. The introducer sheath includes an elongate body extending from a proximal end to a distal end and defining a lumen therein. The tubular plug extends through the lumen and includes an elongate body extending from a proximal end to a distal end that protrudes from the introducer sheath distal end. The plug is disposed between the catheter and the introducer sheath to occlude the gap. The plug is releasably fixed relative to the introducer sheath such that the plug is removable from the lumen to allow the expandable medical device to pass therethrough.

A catheter system includes a catheter including an elongate body having an expandable medical device coupled with a distal end thereof, and an introducer sheath assembly disposed over a proximal section of the catheter. The introducer sheath assembly includes an introducer sheath disposed over the catheter to form a gap therebetween, and a tubular plug. The introducer sheath includes an elongate body extending from a proximal end to a distal end and defining a lumen therein. The tubular plug extends through the lumen and includes an elongate body extending from a proximal end to a distal end that protrudes from the introducer sheath distal end. The plug is disposed between the catheter and the introducer sheath to occlude the gap. The plug is releasably fixed relative to the introducer sheath such that the plug is removable from the lumen to allow the expandable medical device to pass therethrough.

Transcatheterly implantable mammalian body conduit intralumenal device and lumen wall anchor assembly. Anchor includes: wire network, connector positioning wires having a secured and a released position, and a connector disposed at end of each wire. Anchor has: a compact-secured-configuration, an expanded-secured-configuration, an expanded-released-configuration. When the anchor is in the expanded-secured-configuration, the wire network exerts a force on conduit lumen wall and the connector positioning wires are the in secured position. When the anchor is in the expanded-released-configuration, the connector positioning wires are in the released position, and do not obstruct fluid flow axially through conduit. Device includes an interconnector that allows for the releasable interconnector of the connectors thereto. Device and anchor assembly can be explanted from the conduit. Or, device can be released from the anchor at the implantation site and only the device explanted with the anchor remaining within the conduit.