The present invention provides a system for augmenting the contraction of a contractile organ in a subject. The system comprises at least one implantable organ contraction device comprising an electronic linear actuation device (1) for producing a contraction force; an anchoring assembly (13,14) for operably coupling the electronic linear actuation device to at least one wall of the contractile organ; and a controller (65) configured to modify the output parameters of the electronic linear actuation device so as to activate the electronic linear actuation device in a pattern synergistic to the natural contraction cycle of the contractile organ.

The invention concerns a control device for controlling a blood flow of an intravascular blood pump for percutaneous insertion into a patient's blood vessel, the blood pump comprising a pump unit with a drive unit for driving the pump unit and configured to convey blood from a blood flow inlet towards a blood flow outlet, wherein the control device is configured to operate the blood pump in a selectable zero-flow control mode, wherein a blood flow command signal is selected, and the control device comprises a first controller and a second controller, wherein the first controller is configured to control the blood flow by adjusting a speed command signal for the drive unit, and the second controller is configured to control a drive speed of the drive unit.

The invention concerns a control device for controlling a blood flow of an intravascular blood pump for percutaneous insertion into a patient's blood vessel, the blood pump comprising a pump unit with a drive unit for driving the pump unit and configured to convey blood from a blood flow inlet towards a blood flow outlet, wherein the control device is configured to operate the blood pump in a selectable zero-flow control mode, wherein a blood flow command signal is selected, and the control device comprises a first controller and a second controller, wherein the first controller is configured to control the blood flow by adjusting a speed command signal for the drive unit, and the second controller is configured to control a drive speed of the drive unit.

A temporary, removable mechanical circulatory support heart-assist device has at least two propellers or impellers. Each propeller or impeller has a number of blades arranged around an axis of rotation. The blades are configured to pump blood. The two propellers or impellers rotate in opposite directions from each other. The device can be configured to be implanted and removed with minimally invasive surgery.

A temporary, removable mechanical circulatory support heart-assist device has at least two propellers or impellers. Each propeller or impeller has a number of blades arranged around an axis of rotation. The blades are configured to pump blood. The two propellers or impellers rotate in opposite directions from each other. The device can be configured to be implanted and removed with minimally invasive surgery.

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.

Disclosed is a cannula (CA1 to CA7) for endovascular and/or jugular blood circuit support, comprising: —a proximal portion (PP1 to PP6), —a distal portion (DP1 to DP7) that comprises at least one distal opening (DO1 to DO7), —a lumen portion (LP) that extends from the proximal portion (PP1 to PP6) to the at least one distal opening (DO1 to DO7), and—at least one intermediate portion (IP1 to IP7) that is arranged between the proximal portion (PP1 to PP6) and the distal portion (DP1 to DP7), wherein the intermediate portion (IP1 to IP7) comprises at least one intermediate opening (IO1 to IO7), and wherein the intermediate portion (IP1 to IP7) is configured such that more than 90 volume percent of the fluid flow are drained from the intermediate opening (IO1 to IO7) if a fluid flow within the proximal portion (PP1 to PP6) is directed proximally and such that more than 90 volume percent of the fluid flow are delivered through the at least one distal opening (DO1 to DO7) if a fluid flow within the proximal portion (PP1 to PP6) is directed distally.

Disclosed is a cannula (CA1 to CA7) for endovascular and/or jugular blood circuit support, comprising: —a proximal portion (PP1 to PP6), —a distal portion (DP1 to DP7) that comprises at least one distal opening (DO1 to DO7), —a lumen portion (LP) that extends from the proximal portion (PP1 to PP6) to the at least one distal opening (DO1 to DO7), and—at least one intermediate portion (IP1 to IP7) that is arranged between the proximal portion (PP1 to PP6) and the distal portion (DP1 to DP7), wherein the intermediate portion (IP1 to IP7) comprises at least one intermediate opening (IO1 to IO7), and wherein the intermediate portion (IP1 to IP7) is configured such that more than 90 volume percent of the fluid flow are drained from the intermediate opening (IO1 to IO7) if a fluid flow within the proximal portion (PP1 to PP6) is directed proximally and such that more than 90 volume percent of the fluid flow are delivered through the at least one distal opening (DO1 to DO7) if a fluid flow within the proximal portion (PP1 to PP6) is directed distally.

An arrangement (200 to 1200) is provided for transporting a liquid (B) through a cannula system (CS), comprising: a liquid guiding system (LGS) comprising at least three separated portions (SP2a, SP2b, SP3c) which define separate liquid guiding portions of the liquid guiding system (LGS), and a connecting portion (CP2 to CP12) which fluidically connects the at least three separated portions (SP2a, SP2b, SP3c) and which comprises a lumen that branches out into at least two lumens, wherein the liquid guiding system (LGS) is configured to be connected to a pump arrangement (Arr2 to An12) which drives a flow of the liquid (B), and wherein the liquid guiding system (LGS) is configured to be connected to a cannula system (CS) which is adapted to be inserted into a body of a human or of an animal and which comprises an inflow opening and an outflow opening of the liquid guiding system (LGS).

An arrangement (200 to 1200) is provided for transporting a liquid (B) through a cannula system (CS), comprising: a liquid guiding system (LGS) comprising at least three separated portions (SP2a, SP2b, SP3c) which define separate liquid guiding portions of the liquid guiding system (LGS), and a connecting portion (CP2 to CP12) which fluidically connects the at least three separated portions (SP2a, SP2b, SP3c) and which comprises a lumen that branches out into at least two lumens, wherein the liquid guiding system (LGS) is configured to be connected to a pump arrangement (Arr2 to An12) which drives a flow of the liquid (B), and wherein the liquid guiding system (LGS) is configured to be connected to a cannula system (CS) which is adapted to be inserted into a body of a human or of an animal and which comprises an inflow opening and an outflow opening of the liquid guiding system (LGS).