The disclosure relates to a detector arrangement for detecting a position of an object with regard to a first direction, wherein the object includes a front edge and a rear edge separated from each other in the first direction and wherein the object is movable relative to the detector arrangement in the first direction. The detector arrangement includes a first detector configured to detect electromagnetic radiation, the first detector including a first detection area sensitive to the electromagnetic radiation, wherein the detection area is confined by a first detection front edge and by a first detection rear edge, wherein the first detection front edge is separated from the first detection rear edge in the first direction. At least one of the first detection front edge and the first detection rear edge extends non-parallel to at least one of the front edge and the rear edge of the object.

A medicine injection pen includes a body, a drive member, a cartridge housing, and a medicine cartridge retained within the cartridge housing. The drive member is configured to move relative to the body and the medicine cartridge defines an interior volume configured to retain a liquid medicine. The drive member is configured to translate a piston within the interior volume toward a dispensing end of the medicine cartridge to dispense at least some of the liquid medicine. The medicine cartridge also includes an insertion port configured to receive a medicine dispensing element therethrough for dispensing a liquid medicine into the interior volume to replace at least some of the liquid medicine dispensed through the dispensing end. Dispensing of the liquid medicine into the interior volume of the medicine cartridge applies a fluid pressure to the piston to translate the piston away from the dispensing end of the medicine cartridge.

The present invention relates to a dose control system adapted for an injectable drug delivery device, the drug delivery device comprising a substantially elongate drug delivery body, at least one injectable drug held by the body, the body having a distal and proximal extremity, wherein the dose control system comprises three-dimensional magnetic field producing means for producing a magnetic field along three axes (x,y,z); magnetic field detection means configured to detect changes in at least the magnetic field produced by the three-dimensional magnetic field producing means; displacement detection means configured to measure a relative displacement or relative movement of the drug delivery device, and an integrated control unit, wherein the integrated control unit is connected to the magnetic field detection means, and to the displacement detection means, for processing information received from both the magnetic field detection means and the displacement detection means; wherein the three-dimensional magnetic field producing means is configured to effect a rotating coaxial displacement around, and along, a longitudinal axis of the drug delivery system; the magnetic field detection means are located along said longitudinal axis; and the three-dimensional magnetic field producing means is located at, or near, a proximal extremity of the body of the drug delivery device.

Implementations of the present disclosure are directed to a module for attachment to an injection device that includes a flexible carrier foil configured to be attached to a surface of the injection device independent of a geometry of the surface, at least one light emitting diode attached to the flexible carrier foil in a first position and configured to emit a light signal in a direction based on the first position through a transparent wall of the injection device, at least one photodiode attached to the flexible carrier foil in a second position relative to the first position, the at least one photodiode being configured to detect at least a portion of the light signal from a direction based on the second position and being configured to emit an electrical signal based on the light signal to a microprocessor, and wherein the microprocessor is configured to receive the electrical signal emitted by the photodiode and to determine the position of a stopper and the amount of the fluid within the injection device based at least in part on the electrical signal.

A medicament delivery device includes a housing configured to receive a container of medicament and a piston rod moveable within the housing and configured to engage a container of medicament when received within the housing. The medicament delivery device further includes a position-sensing mechanism configured to detect the position of the piston rod within the housing. The position-sensing mechanism includes a first light source configured to emit light, a first sensor disposed proximate the first light source and configured to receive light emitted by the first light source, and a blocking member moveable between the first light source and the first sensor. The first sensor is configured to detect the light pattern received to determine the position of the piston rod within the housing.

The present disclosure relates to a dose detection system for use in combination with a medication delivery device in which a dose setting member rotates relative to an actuator during dose delivery. The dose detection system includes a module which is removably attached to the medication delivery device. The module includes a dosing component attached to the actuator during dose delivery. The dosing component includes a light source and a light sensor. A sensed element is attached to the dose setting member and includes surface features detectable by the light sensor.

A method for medicine administration and tracking and system for the same that may implement the method via a health management application running on a computing device includes tracking movement of an injection pen from a start location to a dispensing location, detecting a dispensing event of medicine dispensed from the injection pen at the dispensing location, determining a location of the dispensing location relative to a user's body, associating information relating to the detected dispensing event with information relating to the determined location, and providing feedback based upon the detected dispensing event information and the determined location information.

A medicine injection pen includes a body, a drive member within the body and configured to move relative thereto upon actuation, a cartridge housing releasably engageable with the body and configured to retain a medicine cartridge, at least one sensor, and at least one detector. The medicine cartridge has a liquid medicine therein and includes a piston configured to slide therein. The drive member is configured to move relative to the body to urge the piston to slide within the medicine cartridge to dispense at least some of the liquid medicine from the medicine cartridge. The sensor(s) is configured to sense movement of the drive member relative to the body to enable determination of an amount of the liquid medicine dispensed. The detector(s) is configured to detect a gap between the drive member and the piston.

A medicine delivery and tracking system includes a medicine injection pen and a delivery port. The pen includes a needle through which medicine is dispensed and an electronic unit configured to at least one of log dispensing of medicine from the pen, control dispensing of medicine from the pen, or communicate regarding dispensing of medicine from the pen. Alternatively, the electronic unit may be part of a separate computing device. The delivery port is configured for attachment to a user and to receive the needle of the pen such that medicine dispensed from the pen is dispensed into the delivery port and through the delivery port to the user. The delivery port includes a detector mechanism configured to detect a presence of the pen and, in response thereto, to communicate a signal to the electronic unit for use in the at least one of logging, controlling, or communicating.

A stopper is disclosed herein. The stopper is configured to be disposed within a medical cartridge. The stopper includes a shell defining a cavity, a core arranged within the cavity, and at least one electronic device embedded within the core, wherein the at least one electronic device includes a sensor and wherein the shell is configured to pass a sensing signal therethrough.