Abstract: In one aspect the present disclosure relates to a sensor for measuring at least one physical or chemical parameter of a cartridge or syringe filled with a liquid substance. In further aspects the disclosure relates to a cartridge equipped with such a sensor as well as to a drug delivery device equipped with such a cartridge, wherein the sensor comprises: a planar flexible foil arrangeable to an outer circumference of a barrel of the cartridge or syringe, at least a first and a second measuring electrode arranged on said foil, and at least a first and a second contact electrode arranged on said foil, wherein the first contact electrode is connected to the first measuring electrode and wherein the second contact electrode is connected to the second measuring electrode.

Abstract: A data collection device comprises: a first portion having one or more features configured for attaching of the first portion to a dosage knob of an injection device; a second portion rotatably coupled with the first portion, wherein at least part of the second portion is movable axially relative to the first portion; a sensor arrangement configured to detect rotation of the first portion relative to the second portion; and a processor arrangement configured to, based on said detected movement, determine a medicament amount expelled by the injection device, wherein the coupling arrangement is configured to provide a non-permanent coupling between the first portion and the dosage knob of the injection device.

Abstract: A data collection device comprises: a first portion having one or more features configured for attaching of the first portion to a dosage knob of an injection device; a second portion rotatably coupled with the first portion, wherein at least part of the second portion is movable axially relative to the first portion; a sensor arrangement configured to detect rotation of the first portion relative to the second portion; and a processor arrangement configured to, based on said detected movement, determine a medicament amount expelled by the injection device, wherein the coupling arrangement is configured to provide a non-permanent coupling between the first portion and the dosage knob of the injection device.

Abstract: The present disclosure relates to a portable pressure container for driving a medical device. The container includes a pressure housing confining an interior volume and a pressure outlet extending through the pressure housing. The interior volume comprises a liquid storage portion and a gas storage portion. The liquid storage portion and the gas storage portion are in flow connection with each other. The liquid storage portion is configured to store a liquid phase of a driving medium. The gas storage portion is configured to store a gas phase of the driving medium. The pressure outlet is only in flow connection with the gas storage portion.

Abstract: A data collection device comprises: a first portion having one or more features configured for attaching of the first portion to a dosage knob of an injection device; a second portion rotatably coupled with the first portion, wherein at least part of the second portion is movable axially relative to the first portion; a sensor arrangement configured to detect rotation of the first portion relative to the second portion; and a processor arrangement configured to, based on said detected movement, determine a medicament amount expelled by the injection device, wherein the coupling arrangement is configured to provide a non-permanent coupling between the first portion and the dosage knob of the injection device.

Abstract: A data collection device comprises: a first portion having one or more features configured for attaching of the first portion to a dosage knob of an injection device; a second portion rotatably coupled with the first portion, wherein at least part of the second portion is movable axially relative to the first portion; a sensor arrangement configured to detect rotation of the first portion relative to the second portion; and a processor arrangement configured to, based on said detected movement, determine a medicament amount expelled by the injection device, wherein the coupling arrangement is configured to provide a non-permanent coupling between the first portion and the dosage knob of the injection device.

Abstract: The disclosure relates to a drug delivery device having a drive unit includes a stator comprising a plurality of coils consecutively arranged in an axial direction, and an armature axially movable within the stator, the armature including a number of magnets and pole shoes consecutively arranged in the axial direction. A respective pole shoe is arranged between respectively neighbouring magnets. At least one axial end of the armature comprises a terminal pole shoe.

Abstract: Described is a cartridge comprising a body adapted to contain a medicament, a bung slidably disposed in the body and having a distal face and a proximal face, and a light element coupled to a component of the cartridge. Further described is a medicament delivery device comprising the cartridge, a first receiver adapted to receive an optical signal from the light element and convert the optical signal into a first electrical signal, and a second receiver adapted to receive an optical signal from the light element and convert the optical signal into a second electrical signal.

Abstract: The disclosure relates to a drug delivery device having a drive unit includes a stator comprising a plurality of coils consecutively arranged in an axial direction, and an armature axially movable within the stator, the armature including a number of magnets and pole shoes consecutively arranged in the axial direction. A respective pole shoe is arranged between respectively neighbouring magnets. At least one axial end of the armature comprises a terminal pole shoe.

Abstract: A data collection device comprises: a first portion having one or more features configured for attaching of the first portion to a dosage knob of an injection device; a second portion rotatably coupled with the first portion, wherein at least part of the second portion is movable axially relative to the first portion; a sensor arrangement configured to detect rotation of the first portion relative to the second portion; and a processor arrangement configured to, based on said detected movement, determine a medicament amount expelled by the injection device, wherein the coupling arrangement is configured to provide a non-permanent coupling between the first portion and the dosage knob of the injection device.

Abstract: A method of priming a medical pump is disclosed. The method includes providing a medical pump comprising a chamber, a first plunger element and, a second plunger element. The method further comprises determining a minimum distance (MD) between the first and the second plunger element and determining the location of an opening of the chamber.

Abstract: The invention relates to an apparatus comprising an electromechanical device, a control unit and a motion detector, wherein said electromechanical device is controllable by said control unit via a control signal, wherein said motion detector is configured such that said mechanical movement of said electromechanical device is determined and wherein said motion detector provides a motion detector signal. The invention also relates to a method for operating an electromechanical device. The technical problem of providing an apparatus with an electromechanical device, the reliability as well as the power consumption of which is improved, is solved in that the control unit is configured such that it can be influenced by the phase difference between the control signal and the motion detector signal.

Abstract: The disclosure relates to a flow rate sensor for determining a flow rate of a liquid within a tube, the flow rate sensor comprising at least one coil arranged in the vicinity of the tube in such a manner that an eddy current in the liquid due to the liquid's flowing affects an impedance of the coil.

Abstract: A skin-patch type large volume drug delivery device (1) comprising a heat exchanger (24) to extract thermal energy from the body/skin surface of the user and to supply the extracted thermal energy to increase the temperature of the medicament. Alternatively or in addition, a Peltier element (35) can be used for the same purpose. The device includes a temperature sensor (31) and a controller (16) for varying the flow rate within the heat exchanger as a function of the drug temperature.

Abstract: The present invention relates to an injection device for dispensing of a liquid medicament, the device comprising: a base (10), a medicament reservoir (20) displaceably arranged on the base (10) and containing the liquid medicament (25), an injection needle (30) displaceably arranged relative to the base (10) between a retracted position (30a) and an extended position (30b), a pressure container (40) containing a pressurized fluid (24), a reservoir displacing arrangement (50) coupled with the pressure container (40) to displace the medicament reservoir (20) into a dispensing position (20b), in which the medicament reservoir (20) is in fluid communication with the injection needle (30), a needle displacing arrangement (60) coupled with the pressure container (40) to at least displace the injection needle (30) into the extended position (30b).

Abstract: In one aspect the present disclosure relates to a sensor for measuring at least one physical or chemical parameter of a cartridge filled with a liquid substance. In a further aspect the disclosure relates to a drug delivery device equipped with such a sensor, wherein the sensor includes a planar flexible foil having a first section and having a second section separated from the first section, at least one measurement electrode located on the flexible foil, wherein the flexible foil is wrappable into a wrapped configuration in which the foil forms at least a first wrap with an inner diameter that is equal to or larger than an outer diameter of the cartridge, wherein in the wrapped configuration the first section and the second section at least partially overlap, at least one fastener located in one of the first and second section and configured to attach to the other one of the first and second sections for keeping the flexible foil in the wrapped configuration.

Abstract: A container designed to contain a fluid medicament and adapted to cooperate with a delivery device for delivering the fluid medicament comprises an electrically operable sensor system for measuring at least one physical or chemical parameter value related to the container and/or fluid medicament therein, wherein the sensor system comprises an optical receiver designed to receive optical radiation energy and to transform said optical radiation energy into electrical energy for operating the sensor system.

Abstract: The invention relates to an apparatus, in particular for ejecting a fluid, having an electric motor (500), the motor comprising at least one motor winding (506a-d), having a control unit (656) for controlling the motor (500), wherein the apparatus further comprises an electronic detection circuitry (620) configured to determine an electrical quantity, the electrical quantity being a function of the electric resistance (Rw) of the motor winding (506a-d), and wherein the control unit (656) is configured to control the motor (500) as a function of the electrical quantity. The invention further relates to a method for controlling such an apparatus, comprising the steps of: determining an electrical quantity, the electrical quantity being a function of the electric resistance (Rw) of the motor winding (506a-d); and controlling the motor (500) as a function of the electrical quantity.

Abstract: The present disclosure relates to a sensor for measuring at least one physical or chemical parameter of a cartridge or syringe filled with a liquid substance. In further aspects, the disclosure relates to a cartridge equipped with such a sensor as well as to a drug delivery device equipped with such a cartridge, wherein the sensor comprises: a planar flexible foil arrangeable to an outer circumference of a barrel of the cartridge or syringe, at least a first and a second measuring electrode arranged on said foil, at least a first and a second contact electrode arranged on said foil, and a processor arranged on said foil and connected to the first and to the second measuring electrodes, wherein the first contact electrode and the second contact electrode are connected to the processor.

Abstract: In one aspect, the present disclosure relates to a sensor for measuring at least one physical or chemical parameter of a cartridge or syringe filled with a liquid substance. In further aspects the disclosure relates to a cartridge equipped with such a sensor and a drug delivery device equipped with such a cartridge. The sensor comprises: a planar flexible foil arrangeable to an outer circumference of a barrel of the cartridge or syringe. The sensor also includes at least a first and a second measuring electrode is arranged on the foil and at least a first and a second contact electrode is arranged on the foil. The sensor further comprises processor connected to the first and to the second measurement electrodes and a transceiver arranged on the foil. The transceiver is also and connected to the processor. Additionally, the first contact electrode and the second contact electrode are connected to the processor.