Abstract: The present invention relates to methods for manufacturing a cannula as well as cannulas, in particular for conveying body fluids, and corresponding circulatory support systems, which in particular reduce disadvantages which may occur during the manufacture and use of the cannulas. Accordingly, a method is suggested according to which a hollow body (10) is provided which comprises a continuous channel (22) in a longitudinal direction of the hollow body (10) and between opposite ends of the hollow body (10), and wherein the hollow body (10) is slid onto a holding mandrel (12), such that the holding mandrel (12) is at least partially received in the channel (22) and the hollow body (10) at least partially surrounds the holding mandrel (12), wherein the holding mandrel (12) has a predetermined configuration with a substantially circular cross-section.

Abstract: The present disclosure relates to devices and methods for expanding the tissue of a patient, e.g., guiding members for controllable vessel expansion systems and corresponding controllable vessel expansion systems as well as corresponding methods and applications. Accordingly, a guiding member is suggested for a controllable vessel expansion system, which includes an elongate body couplable to a controllable member of the vessel expansion system and is aligned along the longitudinal axis of the vessel expansion system from a proximal region to a distal region of the vessel expansion system in the coupled state. The body is expandable in a radial direction. Furthermore, the body may be releasably coupled to the controllable member, which together with the guiding member defines a radial extension of the vessel expansion system.

Abstract: A cannula has an electrically conductive material that runs along the cannula. This material has an electrical terminal, which can be wired or wirelessly connected with a measuring device. This makes it possible to acquire the position of the cannula in a human body, and generate a warning signal given a dislocation of the cannula.

Abstract: A mounting device for fastening a component, such as in particular a fixture, at a defined location has a base body having a holder or receptacle for the component and a suction device for retaining the component held in the holder at the defined location. In addition, the mounting device contains a pressing device to press the component held in the holder or receptacle to the defined location. A method for the validatable fixation of a component, such as in particular a fixture or bracket, at a defined location is also provided.

Abstract: The present disclosure relates to a casting device for producing a potting for a gas exchanger and a method for producing such a potting. Accordingly, a casting device is proposed for producing a potting for a gas exchanger under the influence of a centrifugal force, comprising a distributor comprising an opening and at least one continuous channel and adapted to receive a fluid potting material via the opening and to guide it via the at least one channel. The casting device further comprises a cassette defining an inner cavity for receiving gas exchanger elements and which is fluidly connected to the at least one channel. The distributor comprises at least two distributor components which, in the assembled state of the distributor, define the opening, are connected to one another in a leak-proof manner, and form the at least one channel between adjacent regions.

Abstract: A deaerating device set allows a priming circuit to be deaerated fully automatically using a deaerating unit and a priming control unit, a priming liquid container and preferably a priming pump or a priming compressor. A blood pump is operated in a pulsatile manner during the pumping of a priming fluid.

Abstract: A medico-technical measuring device for measuring a property of a fluid, such as pressure for pressure measurement, includes a line extending along a central longitudinal axis to guide a fluid, such as blood, within a longitudinal cavity delimited by a wall. A sensor unit has a sensor and measures a property of the fluid guided in the longitudinal cavity. The line is provided with a radial cavity inserted in the wall in a radial direction, in which the sensor unit is at least partially arranged, and which is integrated in the wall such that the sensor is in communication with the fluid. In this way, a measuring device can be provided that allows simple handling—in particular, in combination with a comparatively precise measurement—especially, pressure measurement. The measuring device may be produced according to a method and the measuring device may be used in a measuring method.

Abstract: A mounting device for fastening a component, such as in particular a fixture, at a defined location has a base body having a holder or receptacle for the component and a suction device for retaining the component held in the holder at the defined location. In addition, the mounting device contains a pressing device to press the component held in the holder or receptacle to the defined location. A method for the validatable fixation of a component, such as in particular a fixture or bracket, at a defined location is also provided.

Abstract: An intermediate element for a medical extracorporeal fluid line designed to conduct a fluid, such as blood, has a main part extending between two connection parts. A flow channel passes continuously through the main part and the connection parts. The connection parts hydraulically connect the main body to a fluid line. On the periphery of the main part a receiving area is arranged, which is designed to receive a measurement value transmitter. An opening to the flow channel is defined in the receiving area and is sealed in a fluid-tight manner towards the receiving area by an elastic element. The measurement value transmitter is a gas sensor of a sensor device for measuring at least one gas contained in the fluid. The elastic element is a diffusion element, which is permeable to at least one gas. The diffusion element is bonded to an edge of the opening.

Abstract: A method for conveying blood or priming liquid as a medium using a blood pump, measures gas in the medium in a feed line to the pump, in or on the pump, and the pump power is increased only for a short time as a function of the measured gas. A blood pump, in particular a centrifugal pump or diagonal pump, includes a rotor, a housing and a drive, the pump including a gas detector which acts upon the drive when gas is detected.

Abstract: A medico-technical measuring device for measuring a property of a fluid, such as pressure for pressure measurement, includes a line extending along a central longitudinal axis to guide a fluid, such as blood, within a longitudinal cavity delimited by a wall. A sensor unit has a sensor and measures a property of the fluid guided in the longitudinal cavity. The line is provided with a radial cavity inserted in the wall in a radial direction, in which the sensor unit is at least partially arranged, and which is integrated in the wall such that the sensor is in communication with the fluid. In this way, a measuring device can be provided that allows simple handling—in particular, in combination with a comparatively precise measurement—especially, pressure measurement. The measuring device may be produced according to a method and the measuring device may be used in a measuring method.

Abstract: A cannula has an electrically conductive material that runs along the cannula. This material has an electrical terminal, which can be wired or wirelessly connected with a measuring device. This makes it possible to acquire the position of the cannula in a human body, and generate a warning signal given a dislocation of the cannula.

Abstract: The invention relates to a medical technology measuring system (1) comprising a measuring device (10) for measuring a characteristic of a fluid—in particular, for pressure measurement—wherein the measuring device comprises a lead (20) which extends along a central longitudinal axis (M) and is equipped to guide a fluid—in particular, blood—inside a longitudinal cavity (24) enclosed by a wall, and a sensor device (30) comprising a sensor (32) which is equipped to measure a characteristic of the fluid guided in the longitudinal cavity, wherein the measuring system (1) has an overmolding (9) which at least partially surrounds the measuring device (10)—preferably, both at least the sensor device (30) and also a section of the lead (20). As a result, the measuring device can be fastened and positioned on the lead in a simple and/or reliable, robust manner. The invention further relates to a method for producing such a medical technology measuring system.

Abstract: A medico-technical measuring device for measuring a property of a fluid, such as pressure for pressure measurement, includes a line extending along a central longitudinal axis to guide a fluid, such as blood, within a longitudinal cavity delimited by a wall. A sensor unit has a sensor and measures a property of the fluid guided in the longitudinal cavity. The line is provided with a radial cavity inserted in the wall in a radial direction, in which the sensor unit is at least partially arranged, and which is integrated in the wall such that the sensor is in communication with the fluid. In this way, a measuring device can be provided that allows simple handling—in particular, in combination with a comparatively precise measurement—especially, pressure measurement. The measuring device may be produced according to a method and the measuring device may be used in a measuring method.

Abstract: A deaerating device set allows a priming circuit to be deaerated fully automatically using a deaerating unit and a priming control unit, a priming liquid container and preferably a priming pump or a priming compressor. A blood pump is operated in a pulsatile manner during the pumping of a priming fluid.

Abstract: An intermediate element for a medical extracorporeal fluid line designed to conduct a fluid, such as blood, has a main part extending between two connection parts. A flow channel passes continuously through the main part and the connection parts. The connection parts hydraulically connect the main body to a fluid line. On the periphery of the main part a receiving area is arranged, which is designed to receive a measurement value transmitter. An opening to the flow channel is defined in the receiving area and is sealed in a fluid-tight manner towards the receiving area by an elastic element. The measurement value transmitter is a gas sensor of a sensor device for measuring at least one gas contained in the fluid. The elastic element is a diffusion element, which is permeable to at least one gas. The diffusion element is bonded to an edge of the opening.

Abstract: A method for conveying blood or priming liquid as a medium using a blood pump, measures gas in the medium in a feed line to the pump, in or on the pump, and the pump power is increased only for a short time as a function of the measured gas. A blood pump, in particular a centrifugal pump or diagonal pump, includes a rotor, a housing and a drive, the pump including a gas detector which acts upon the drive when gas is detected.

Abstract: The invention relates to a medico-technical measuring device (1) for measuring a property of a fluid—in particular, for pressure measurement—comprising a line (20) extending along a central longitudinal axis (M) and configured to guide a fluid—in particular, blood—within a longitudinal cavity (24) delimited by a wall (22), and a sensor unit (30) having a sensor (32), which sensor unit is configured to measure a property of the fluid guided in the longitudinal cavity (24). The line (20) is provided with a radial cavity (26) inserted in the wall (22) in a radial direction, in which the sensor unit (30) is at least partially arranged, and which is integrated in the wall (22) such that the sensor (32) is in communication with the fluid. In this way, a measuring device can be provided that allows simple handling—in particular, in combination with a comparatively precise measurement—especially, pressure measurement.

Abstract: The invention relates to a medical technology measuring system (1) comprising a measuring device (10) for measuring a characteristic of a fluid—in particular, for pressure measurement—wherein the measuring device comprises a lead (20) which extends along a central longitudinal axis (M) and is equipped to guide a fluid—in particular, blood—inside a longitudinal cavity (24) enclosed by a wall, and a sensor device (30) comprising a sensor (32) which is equipped to measure a characteristic of the fluid guided in the longitudinal cavity, wherein the measuring system (1) has an overmolding (9) which at least partially surrounds the measuring device (10)—preferably, both at least the sensor device (30) and also a section of the lead (20). As a result, the measuring device can be fastened and positioned on the lead in a simple and/or reliable, robust manner. The invention further relates to a method for producing such a medical technology measuring system.

Abstract: A sealed circuit board connector for electrically connecting a connector to a circuit board. The connector includes an interface housing which has at least one signal contact in the connection region and which has at least two press-in elements with press-in zones. The interface housing is designed with a contact area for a seal. The seal is arranged in the sealing region of the circuit board plug. The seal has a passage opening for the at least one signal contact or contacts and has in each case one opening for the at least two press-in elements.