An injection device comprises a housing, a cartridge defining a chamber configured to hold a medicament, a plunger disposed within the chamber, and a plunger actuation assembly configured to drive the plunger. The injection device also comprises a power source configured to drive the plunger actuation assembly such that the plunger forces the medicament from the chamber a first disengagement element translationally fixed relative to the plunger actuation assembly, and a second disengagement element coupled to the plunger actuation assembly and to the power source, where the second disengagement element is translationally fixed relative to the plunger actuation assembly. The first disengagement element is configured to translationally decouple from the plunger actuation assembly when the power source drives the plunger actuation assembly a first distance, and translationally decouple the second disengagement element from the plunger actuation assembly when the power source drives the plunger actuation assembly a second distance.

An autoinjector (100′) for expelling a single dose of a drug from a held cartridge (600) comprising a piston (630). The autoinjector includes a needle shield (350, 380′) axially movable from an initial extended position via a triggering position to a trigger release position. The needle shield (350, 380′) is operatively coupled to a plunger release element (320′, 1320) cooperating with a plunger (310, 400) to define a releasable retaining mechanism that retains the plunger release element (320′, 1320) threadedly engaged with a base thread component (204′, 1204) in a predefined relative rotational and axial position and against rotational bias provided by an actuator (330). The needle shield (350, 380′) is configured for operating the retaining mechanism to release the retaining of the plunger release element (320′, 1320) and the base thread component (204′, 1204) from the predefined relative rotational and axial position upon the needle shield (350, 380′) being moved into the trigger release position.

A drug delivery device system with mutable indicia and method for using same are provided. The drug delivery device system includes a syringe and/or syringe components (e.g., needle shield, needle guard), or autoinjector pen, or wearable autoinjector with mutable indicia and a software application for an external device to analyze images of the mutable indicia to automatically determine and record status of the drug delivery device. The mutable indicia or codes on the drug delivery device or its components represent different medical events such as dose completion, dose amount, and safety feature deployment or removal and can be detected by and otherwise logged by the external device. The external device may execute an application configured to further process data obtained via captured images of mutable indicia and display related information (e.g., fluid remaining in syringe barrel, delivered dose, and so on).

An apparatus includes a housing, a medicament container and a movable member. The medicament container is movable within the housing between a first position and a second position in response to a force produced by an energy storage member. A proximal end portion of the medicament container includes a flange and has a plunger disposed therein. A first shoulder of the movable member exerts the force on the flange to move the medicament container from the first position to the second position. A portion of the first shoulder deforms when the medicament container is in the second position such that at least a portion of the force is exerted upon the plunger. A second shoulder of the movable member exerts a retraction force on the flange to move the medicament container from the second position towards the first position.

A drive mechanism for a delivery device is presented containing, a rotator having an outer surface and an inner surface, the rotator configured to rotate from a first position to a second position. A needle cover having an inner surface that engages the outer surface of the rotator. A rotatable plunger rod having an outer surface configured to engage the inner surface of the rotator. When the rotator rotates from the first position to the second position, the rotatable plunger rod is rotated by the rotator and a plunger rod spring is released from a pre-tensioned state to exert a force on the rotatable plunger rod.

A method of manufacturing one of a range of autoinjectors having cartridges (600, 600′, 600″) with different preset fill volumes, the method comprising the steps of: a) providing a front body assembly (100b, 100c, 100c′, 100c″), b) providing a cartridge (600, 600′, 600″) of given fill volume, c) providing a rear body assembly (100a) comprising a spring-driven drive ram assembly (310, 320) configured to drive the piston of a held cartridge (600, 600′, 600″), d) providing a ram spacer member (400, 400′, 400″), the ram spacer member defining a spacing geometry of length dimension (X1′, X1″, X1′″, XS′, XS″, XS′″, XR′, XR″, XR′″) selected according to the fill volume of the cartridge (600, 600′, 600″), and e) assembling a front body assembly (100b, 100c, 100c′, 100c″), the cartridge (600, 600′, 600″), the ram spacer member (400, 400′, 400″) and the rear body assembly (100a) so that the ram spacer member (400, 400′, 400″) is arranged axially between the drive ram assembly (310, 320) of the rear body assembly (100a) and the piston of a held cartridge (600, 600′, 600″).

The present disclosure relates to adrive mechanism for a medicament delivery device according to the disclosure comprises a compression member comprising a first cavity containing a first volume of fluid, said compression member also comprising a second cavity containing a second volume of fluid; a passage for fluid communication between the first cavity and the second cavity; a first movable piston arranged to seal the first cavity; a second movable piston arranged to seal the second cavity; wherein movement of the first movable piston or of the second movable piston, by an applied force, causes a relative change of volume between the first volume of fluid and the second volume of fluid, via a fluid flow through said passage, such that the respective second movable piston or the first movable piston is also moved.

The present invention relates to a medicament delivery device comprising a drive means configured to act on a medicament container for expelling a medicament; a holding means configured to hold said drive means in a pre-tensioned state; an activation means configured to interact with said holding means for releasing said drive means from the pre-tensioned state; wherein the device further comprises feedback means configured to interact both with said holding means and with said drive means for generating an audible and/or tactile and/or visual signal indicating that the medicament has been completely expelled.

An injection device with distal and proximal ends includes a housing, a needle-protecting sleeve that is longitudinally movable relative to the housing, a container holder that is longitudinally movable relative to the housing toward the proximal end from a non-delivery position to a delivery position, and a needle-protecting sleeve spring that is operatively coupled between the needle-protecting sleeve and the container holder such that the sleeve is longitudinally movable toward the distal end from an initial position to an activating position and toward the proximal end from the activating position to an end position. The sleeve spring is strained by a first amount when the sleeve moves from its initial position to its activating position, and by a second amount when the container holder moves from its non-delivery position to its delivery position.