Abstract: A catheter pump includes a cannula having an inlet, an outlet, and a blood flow channel extending between the inlet and the outlet along a longitudinal axis. At least one impeller blade is operable to convey blood through the blood flow channel between the inlet to the outlet, wherein the at least one impeller blade is axially movable relative the cannula in a first direction toward the inlet and in a second direction away from the inlet.

Abstract: A catheter pump includes a cannula having an inlet, an outlet, and a blood flow channel extending between the inlet and the outlet along a longitudinal axis. At least one impeller blade is operable to convey blood through the blood flow channel between the inlet to the outlet, wherein the at least one impeller blade is axially movable relative the cannula in a first direction toward the inlet and in a second direction away from the inlet.

Abstract: A catheter pump includes a cannula and an impeller system. The cannula has an inlet zone with a first maximum outer diameter, an outlet zone with a second maximum outer diameter and a blood flow channel extending between the inlet zone and the outlet zone. The first maximum outer diameter is greater than the second maximum outer diameter, and the impeller system has a rotatable impeller body operable to convey blood from the inlet zone to the outlet zone. The impeller body may be axially spaced from the cannula in a separated position.

Abstract: The present disclosure relates generally to percutaneous heart pumps including a self-expandable and collapsible impeller housing fabricated from a mesh of a shape memory alloy, such as nitinol, and a base polymer coating and a top polymer coating. Specifically, the present disclosure relates to highly flexible and fluid-impermissible polymer coatings having improved adherence and performance properties on the metallic surfaces of the impeller housing mesh thus improving the overall performance of the percutaneous heart pumps.

Abstract: The present disclosure relates generally to percutaneous heart pumps including a self-expandable and collapsible impeller housing fabricated from a mesh of a shape memory alloy, such as nitinol, and a base polymer coating and a top polymer coating. Specifically, the present disclosure relates to highly flexible and fluid-impermissible polymer coatings having improved adherence and performance properties on the metallic surfaces of the impeller housing mesh thus improving the overall performance of the percutaneous heart pumps.

Abstract: Disclosed herein is a catheter pump that includes an expandable cannula and an impeller system. The expandable cannula defines a blood flow channel and includes an impeller blade zone, an inlet zone, and an outlet zone. The catheter pump further includes an impeller system including an impeller body, the impeller system movable relative to the expandable cannula along a longitudinal axis of the catheter pump. The catheter pump is selectively transitionable between a separated configuration in which the impeller body is axially spaced from the expandable cannula along the longitudinal axis, and an operational configuration in which the impeller body is positioned within the impeller blade zone of the expandable cannula.

Abstract: An expandable cannula for a percutaneous heart pump includes a substantially open proximal end, a substantially open distal end and an elongate central portion disposed between the proximal end and the distal end. The elongate central portion has an inner surface and an opposing outer surface. The expandable cannula is made of a shape memory alloy having an austenite finish temperature Af that is at or below the body temperature of a human patient.

Abstract: A catheter pump includes a cannula and an impeller system. The cannula has an inlet zone with a first maximum outer diameter, an outlet zone with a second maximum outer diameter and a blood flow channel extending between the inlet zone and the outlet zone. The first maximum outer diameter is greater than the second maximum outer diameter, and the impeller system has a rotatable impeller body operable to convey blood from the inlet zone to the outlet zone. The impeller body may be axially spaced from the cannula in a separated position.

Abstract: Disclosed herein is a catheter pump that includes an expandable cannula and an impeller system. The expandable cannula defines a blood flow channel and includes an impeller blade zone, an inlet zone, and an outlet zone. The catheter pump further includes an impeller system including an impeller body, the impeller system movable relative to the expandable cannula along a longitudinal axis of the catheter pump. The catheter pump is selectively transitionable between a separated configuration in which the impeller body is axially spaced from the expandable cannula along the longitudinal axis, and an operational configuration in which the impeller body is positioned within the impeller blade zone of the expandable cannula.

Abstract: Disclosed herein is a catheter pump that includes an expandable cannula and an impeller system. The expandable cannula defines a blood flow channel and includes an impeller blade zone, an inlet zone, and an outlet zone. The catheter pump further includes an impeller system including an impeller body, the impeller system movable relative to the expandable cannula along a longitudinal axis of the catheter pump. The catheter pump is selectively transitionable between a separated configuration in which the impeller body is axially spaced from the expandable cannula along the longitudinal axis, and an operational configuration in which the impeller body is positioned within the impeller blade zone of the expandable cannula.

Abstract: The present disclosure relates generally to percutaneous heart pumps including a self-expandable and collapsible impeller housing fabricated from a mesh of a shape memory alloy, such as nitinol, and a base polymer coating and a top polymer coating. Specifically, the present disclosure relates to highly flexible and fluid-impermissible polymer coatings having improved adherence and performance properties on the metallic surfaces of the impeller housing mesh thus improving the overall performance of the percutaneous heart pumps.

Abstract: An expandable cannula for a percutaneous heart pump includes a substantially open proximal end, a substantially open distal end and an elongate central portion disposed between the proximal end and the distal end. The elongate central portion has an inner surface and an opposing outer surface. The expandable cannula is made of a shape memory alloy having an austenite finish temperature Af that is at or below the body temperature of a human patient.

Abstract: An expandable cannula for a percutaneous heart pump includes a substantially open proximal end and a substantially open distal end. The expandable cannula includes an elongate central portion disposed between the proximal end and the distal end, the elongate central portion having an inner surface and an opposing outer surface. A first fluid impermeable film is disposed on at least one of the inner surface and the outer surface. The first fluid impermeable film comprises a polymer and has a thickness within a range of from 10 ?m to 200 ?m.

Abstract: Disclosed herein is a collapsible and self-expanding cannula for a percutaneous heart pump. The collapsible and self-expanding cannula comprises an open proximal end, an open distal end, and an elongate fluid-impermissible wall structure that includes a first balloon film, a cannula strut, and a second balloon film. The first balloon film is disposed on an interior surface of the cannula, the second balloon film is disposed on the exterior surface of the cannula, and the cannula strut is between the two balloon films. Together they form an integrated hybrid structure upon thermal fusion bonding. Also disclosed herein is a method of manufacturing the collapsible and self-expanding cannula.

Abstract: Disclosed herein is a catheter pump that includes an expandable cannula and an impeller system. The expandable cannula defines a blood flow channel and includes an impeller blade zone, an inlet zone, and an outlet zone. The catheter pump further includes an impeller system including an impeller body, the impeller system movable relative to the expandable cannula along a longitudinal axis of the catheter pump. The catheter pump is selectively transitionable between a separated configuration in which the impeller body is axially spaced from the expandable cannula along the longitudinal axis, and an operational configuration in which the impeller body is positioned within the impeller blade zone of the expandable cannula.

Abstract: Disclosed herein is a catheter pump that includes an expandable cannula and an impeller system. The expandable cannula defines a blood flow channel and includes an impeller blade zone, an inlet zone, and an outlet zone. The catheter pump further includes an impeller system including an impeller body, the impeller system movable relative to the expandable cannula along a longitudinal axis of the catheter pump. The catheter pump is selectively transitionable between a separated configuration in which the impeller body is axially spaced from the expandable cannula along the longitudinal axis, and an operational configuration in which the impeller body is positioned within the impeller blade zone of the expandable cannula.

Abstract: Disclosed herein is a collapsible and self-expanding cannula for a percutaneous heart pump. The collapsible and self-expanding cannula comprises an open proximal end, an open distal end, and an elongate fluid-impermissible wall structure that includes a first balloon film, a cannula strut, and a second balloon film. The first balloon film is disposed on an interior surface of the cannula, the second balloon film is disposed on the exterior surface of the cannula, and the cannula strut is between the two balloon films. Together they form an integrated hybrid structure upon thermal fusion bonding. Also disclosed herein is a method of manufacturing the collapsible and self-expanding cannula.