A cardiac assist device with an expandable cup (4) having a transport state and an operational state, the expandable cup comprising a plurality of inflow apertures (5), and an outflow nozzle (6), and an inflatable balloon (8) positioned inside the expandable cup (4). A catheter assembly (3) is connected to the inflatable balloon (8) during operation, and a control unit (2) is connected to the catheter assembly (3). The control unit (2) is arranged to operate the inflatable balloon (8) with a frequency of more than 100 beats per minute.

A ventricular ejection device adapted to be delivered percutaneously or surgically in to a ventricle of the heart, and the device comprising of an anchoring stent which is adapted to be fitted along a perimeter to a myocardium of the ventricle, and a recoiling part in physical coupling to the anchoring stent, extends from the perimeter of the anchoring stent to a center of the device, and adapted to extend or recoil based on flow of blood into and out of the ventricle.

A ventricular ejection device adapted to be delivered percutaneously or surgically in to a ventricle of the heart, and the device comprising of an anchoring stent which is adapted to be fitted along a perimeter to a myocardium of the ventricle, and a recoiling part in physical coupling to the anchoring stent, extends from the perimeter of the anchoring stent to a center of the device, and adapted to extend or recoil based on flow of blood into and out of the ventricle.

The invention relates to a clamping element for securing a tube, having the following: a first guide and a second guide for receiving a tube, wherein the two guides run towards each other, and the clamping element is designed in such a manner that it is connectable to a pump device such that a tube guide can be formed by the two guides at a pump inlet and pump outlet.

The invention relates to a clamping element for securing a tube, having the following: a first guide and a second guide for receiving a tube, wherein the two guides run towards each other, and the clamping element is designed in such a manner that it is connectable to a pump device such that a tube guide can be formed by the two guides at a pump inlet and pump outlet.

A portable ventricular assist system may comprise a heart pump and at least one hardware controller. The heart pump may comprise a rotor, a motor configured to drive rotation of the rotor at one or more speeds, a first optical pressure sensor configured to detect a first pressure signal, and a second optical pressure sensor configured to detect a second pressure signal. The at least one hardware controller may comprise a primary power source, a secondary power source, at least one light-emitting diode (LED) coupled to the first optical pressure sensor via at least one first optical fiber, and the second optical pressure sensor via at least one second optical fiber. The at least one hardware controller may further comprise at least one hardware processor configured to determine a differential pressure based, at least in part, the first pressure signal and the second pressure signal.

A portable ventricular assist system may comprise a heart pump and at least one hardware controller. The heart pump may comprise a rotor, a motor configured to drive rotation of the rotor at one or more speeds, a first optical pressure sensor configured to detect a first pressure signal, and a second optical pressure sensor configured to detect a second pressure signal. The at least one hardware controller may comprise a primary power source, a secondary power source, at least one light-emitting diode (LED) coupled to the first optical pressure sensor via at least one first optical fiber, and the second optical pressure sensor via at least one second optical fiber. The at least one hardware controller may further comprise at least one hardware processor configured to determine a differential pressure based, at least in part, the first pressure signal and the second pressure signal.

Disclosed are example embodiments of a dialysis machine having a frame, a cartridge cassette, one or more alignment-locking features, and an actuation mechanism. The frame is fixedly coupled to the dialysis machine, and the cassette is slidably coupled to the frame. The cassette can have one or more track structures, with each of the one or more track structures having a rotor and one or more rollers. The one or more alignment-locking features extend from the frame and are configured to be inserted into one or more alignment features of a disposable cartridge that functions to secure or release the disposable cartridge. The actuation mechanism is made to slide the cassette with respect to the one or more track structures.

Disclosed are example embodiments of a dialysis machine having a frame, a cartridge cassette, one or more alignment-locking features, and an actuation mechanism. The frame is fixedly coupled to the dialysis machine, and the cassette is slidably coupled to the frame. The cassette can have one or more track structures, with each of the one or more track structures having a rotor and one or more rollers. The one or more alignment-locking features extend from the frame and are configured to be inserted into one or more alignment features of a disposable cartridge that functions to secure or release the disposable cartridge. The actuation mechanism is made to slide the cassette with respect to the one or more track structures.

A blood pump housing device designed to enclose and protect a total artificial heart when implanted in a subject is disclosed. The blood pump housing device comprises a first and second artificial heart pump receiving part (3a, 3b) configured to receive and partly enclose a first and a second artificial heart pump (20a, 20b) of a total artificial heart (TAH); and a first and second pump actuation enclosing part (4a, 4b) configured to partly enclose a first and second pump actuation means (60a, 60b), said artificial heart pump receiving parts (3a, 3b) and pump actuation means enclosing parts (4a, 4b) are arranged to connect to each other in a leak-free manner.