Abstract: A sensor assembly comprising a first rotary sensor part having a plurality of individual electrically conducting code segments arranged in a circumferential pattern, and a plurality of electrically conducting reference segments between the code segments, and a second rotary sensor part arranged rotationally relative to the first part a plurality of contact structures, each contact structure being arranged to be in contact with either a code segment or a reference segment depending on the rotational position between the first and second rotary sensor part. The contact structures are configured to engage and connect to different sensor segments as the first and second rotary sensor part rotate relative to each, the created connections being indicative of a rotational position between the first and second rotary sensor part. For a given rotational position, at least one contact structure engages a code segment and at least one contact structure engages a reference segment.

Abstract: Drug delivery device adapted to receive a drug-filled cartridge comprises a piston drive member for expelling a dose of drug from a loaded cartridge, a motor for driving the piston drive member, a rechargeable electric power source, an electrical connector allowing an external connector of a power source to be connected for recharging the power source, and a controller for controlling operation of the motor. The controller is adapted to detect a condition indicative of an external power source being connected to the electrical connector and subsequently disable the expelling assembly to thereby prevent that drug can be expelled from a loaded cartridge when an external power source has been connected to the electrical connector.

Abstract: Drug delivery device has drive assembly adapted to move a piston rod in a distal direction, the drive assembly comprising a drive spring. A rotatable setting member allows a user to set a dose amount to be expelled, the drive spring being strained during dose setting. User actuated release means is provided for releasing the drive spring to thereby move the piston rod in the distal direction corresponding to the set dose. The setting member can be moved axially between an initial position and a proximal setting position, and between the initial position and a distal expelling position, wherein the setting member cannot be rotated to set a dose when in the initial position, the setting member can be rotated to set a dose when in the proximal position, and a strained drive spring is released when the setting member is moved axially from the initial to the distal position.

Abstract: Drug delivery device adapted to receive a drug-filled cartridge comprises a piston drive member for expelling a dose of drug from a loaded cartridge, a motor for driving the piston drive member, a rechargeable electric power source, an electrical connector allowing an external connector of a power source to be connected for recharging the power source, and a controller for controlling operation of the motor. The controller is adapted to detect a condition indicative of an external power source being connected to the electrical connector and subsequently disable the expelling assembly to thereby prevent that drug can be expelled from a loaded cartridge when an external power source has been connected to the electrical connector.

Abstract: A transmission comprises a first gear wheel and a second gear wheel with a threaded bore, and a threaded non-rotationally arranged rod in threaded engagement with the threaded bore, rotation of the second gear wheel thereby providing axial movement of the rod. The first and second gear wheel are arranged in a common plane and in rotational engagement with each other, wherein the combined second gear wheel and rod are arranged to pivot corresponding to a centre point defined by the intersection of the rod axis and the common plane, whereby the rod, with the gear wheels in engagement, can be arranged out of alignment with the first gear wheel axis.

Abstract: A sensor assembly comprising a first rotary sensor part having a plurality of individual electrically conducting code segments arranged in a circumferential pattern, and a plurality of electrically conducting reference segments between the code segments, and a second rotary sensor part arranged rotationally relative to the first part a plurality of contact structures, each contact structure being arranged to be in contact with either a code segment or a reference segment depending on the rotational position between the first and second rotary sensor part. The contact structures are configured to engage and connect to different sensor segments as the first and second rotary sensor part rotate relative to each, the created connections being indicative of a rotational position between the first and second rotary sensor part. For a given rotational position, at least one contact structure engages a code segment and at least one contact structure engages a reference segment.

Abstract: A medical implant (10a, 10b), in particular a stent (12a, 12b), for implantation in an animal body and/or human body (14a, 14b), comprising a base body (16a, 16b) which includes at least two segments (18a, 18a?, 18b, 18b?; 20a, 20a?, 20b, 20b?) having at least two deflection points (24a, 24b; 26a, 26b) that are diametrically opposed in the axial direction (22a, 22b), and at least one adjusting means (28a, 28b; 30a, 30b) that acts on the deflection points (24a, 24b; 26a, 26b) to adjust an extension (32a, 32b) of the base body (16a, 16b) in the circumferential direction (34a, 34b).

Abstract: A stent is provided having a base body circumscribing a cylindrical shape and radially expandable from a contracted starting position into a dilated support position, including a plurality of meander-shaped struts disposed in the circumferential direction and arrayed on one another in the axial direction, each strut being meander-shaped in its coarse structure and made of a flexible material, and at least one axial connector in the axial direction, connecting the meander-shaped struts of two axially adjacent meandering curves, wherein the at least one axial connector connects the inside radius of a zenith point of a first meandering curve with a second meandering curve, characterized in that the at least one axial connector at the inside radius of the zenith point of the first meandering curve has an at least double-arm structure.

Abstract: A medical supporting implant, in particular a stent, comprises a tubular base body which is made up of bendable struts (2), such that at node points (4) of at least two struts (2), the bendable struts (2) form an acute angle (W) to one another which angle becomes larger on dilatation of the implant with plastic deformation of the struts (2) at the node point (4). At least a portion of the struts (2) between the plastic deformation areas (4) is provided with a telescoping ratchet mechanism (R) for irreversible lengthening of the respective struts (2) on dilatation.

Abstract: A stent is provided having a base body circumscribing a cylindrical shape and radially expandable from a contracted starting position into a dilated support position, including a plurality of meander-shaped struts disposed in the circumferential direction and arrayed on one another in the axial direction, each strut being meander-shaped in its coarse structure and made of a flexible material, and at least one axial connector in the axial direction, connecting the meander-shaped struts of two axially adjacent meandering curves, wherein the at least one axial connector connects the inside radius of a zenith point of a first meandering curve with a second meandering curve, characterized in that the at least one axial connector at the inside radius of the zenith point of the first meandering curve has an at least double-arm structure.

Abstract: A medical implant (10a, 10b), in particular a stent (12a, 12b), for implantation in an animal body and/or human body (14a, 14b), comprising a base body (16a, 16b) which includes at least two segments (18a, 18a?, 18b, 18b?; 20a, 20a?, 20b, 20b?) having at least two deflection points (24a, 24b; 26a, 26b) that are diametrically opposed in the axial direction (22a, 22b), and at least one adjusting means (28a, 28b; 30a, 30b) that acts on the deflection points (24a, 24b; 26a, 26b) to adjust an extension (32a, 32b) of the base body (16a, 16b) in the circumferential direction (34a, 34b). It is provided that an axial distance (36a, 36b) between the two deflection points (24a, 24b; 26a, 26b) can be shortened using the adjusting means (28a, 28b; 30a, 30b).

Abstract: A stent is provided having a base body circumscribing a cylindrical shape and radially expandable from a contracted starting position into a dilated support position, including a plurality of meander-shaped struts disposed in the circumferential direction and arrayed on one another in the axial direction, each strut being meander-shaped in its coarse structure and made of a flexible material, and at least one axial connector in the axial direction, connecting the meander-shaped struts of two axially adjacent meandering curves, wherein the at least one axial connector connects the inside radius of a zenith point of a first meandering curve with a second meandering curve, characterized in that the at least one axial connector at the inside radius of the zenith point of the first meandering curve has an at least double-arm structure.

Abstract: A medical supporting implant, in particular a stent, comprises a tubular base body which is made up of bendable struts (2), such that at node points (4) of at least two struts (2), the bendable struts (2) form an acute angle (W) to one another which angle becomes larger on dilatation of the implant with plastic deformation of the struts (2) at the node point (4). At least a portion of the struts (2) between the plastic deformation areas (4) is provided with a telescoping ratchet mechanism (R) for irreversible lengthening of the respective struts (2) on dilatation.