The present disclosure relates to a drug delivery device, having a longitudinal axis and comprising a plunger movable along the longitudinal axis and a guide curve adapted to engage at least one part of the plunger so as to guide the plunger when the plunger is being released to move along the longitudinal axis.

A user-powered medicament injector including a reusable, user-powered automatic injection assembly including a user energizable medicament injection subassembly and a medicament module removably insertable into the reusable, user-powered automatic injection assembly and including a module housing adapted to receive a syringe having a barrel, a needle engaged to said barrel, and a removable needle cap covering the needle; a needle shield configured to be moveable with respect to the module housing and a needle cap remover associated with the needle shield. The medicament module is configured for energizing the user energizable medicament injection subassembly by insertion of the medicament module into the reusable, user powered automatic injection assembly.

An injection device for dispensing a product, the injection device including a moveable element which is moved for a dispensing operation, a spring, a product container holder and a product container, wherein the spring pushes against the moveable element to move the moveable element to an initial position after the dispensing operation has ended and against the product container to seat the product container in the product container holder.

An auto-injector device comprises a stopper for expelling a medicament out of a medicament reservoir; a driving element which has a first configuration and a second configuration and is configured to change shape from the first configuration to the second configuration when the temperature of the driving element is raised above a shape change temperature, so as to drive the stopper of the syringe mechanism through the medicament reservoir; and a heating mechanism configured to actively heat the driving element. The heating mechanism is a chemical heating element configured to generate heat through an exothermic process or comprises a fluid reservoir for retaining a fluid; a heater configured to heat the fluid in the fluid reservoir; a pump configured to expel the fluid out of the fluid reservoir; and a connecting conduit arranged to carry the fluid from the fluid reservoir to the driving element.

An autoinjector and method of injection are described. A power spring causes rotation of a drive nut about the central axis of the autoinjector that, in turn, causes a middle screw to rotate in the same direction as the drive nut and also to move in the distal direction while pushing a center screw in the distal direction that pushes the syringe and needle. The center screw also pushes a plunger that pushes the fluid out of the syringe. After injection, a locked retract screw is freed and rotates in the same direction as the middle screw causing the syringe to retract the syringe into the housing.

Disclosed is an auto-injection apparatus for receiving a syringe, including: an outer casing enclosing a drive assembly and a syringe carrier configured to hold a barrel of the syringe, the syringe carrier being forward of the drive assembly and having stowed and delivery positions; an interlock extending between the syringe carrier and a syringe carrier housing at least partially surrounding the syringe carrier, the interlock preventing forward motion of the syringe carrier under the influence of an insertion actuator whilst in the stowed position. The drive assembly includes the insertion actuator for inserting a needle of the syringe into an injection site and a delivery actuator for driving a plunger into a barrel of the syringe which contains a substance for injection. The syringe carrier includes an interlock release mechanism which is configured to release the interlock such that the insertion actuator drives the syringe carrier forward.

A feedback mechanism for an injection device that is configured to deliver a medicament to a user is described. The feedback mechanism comprises a piston and a fluid chamber, and the piston is adapted to move into the fluid chamber during use of the injection device. The feedback mechanism also has a damper that is arranged to damp movement of the piston, and an indicator that is arranged to provide feedback to the user after the piston has moved a pre-determined distance into the fluid chamber.

A medicament delivery device (100) for delivery of medicament from a container (12) into an injection site through a cannula (16). The device comprises a chassis (106), a drive mechanism (400) for driving a piston member (22) along a container axis (A) to expel the medicament through the cannula (16), and a carriage (200) for retaining the container (12), the cannula (16) and the drive mechanism (400). An insertion mechanism (70, 120, 130, 504) is provided for moving the carriage (200) in an insertion direction (H) relative to the chassis (106), and a cannula bending mechanism (300) is provided for bending the cannula (16) about a bending axis (B) to substantially align at least an end part of the cannula (16) with the insertion direction (H) prior to movement of the carriage (200) in the insertion direction (H).

The present disclosure relates to an assisted injection device for injecting a composition contained in a medical container. The injection device includes a main body adapted to receive a medical container in a fixed position relative to the main body. The main body includes an inner wall provided with a toothed surface. The injection device includes a piston. The piston includes a first part and a second part. The first part includes an inner spring-loaded piston rod, and an outer piston body extending coaxially around the inner spring-loaded piston rod. The second part is arranged between the inner spring-loaded piston rod and the outer piston body, and is provided with a pressing member. The injection device includes an actuator connected to the second part of the piston. The actuator is adapted to selectively move the second part between the proximal first position portion and the distal second position.

The invention provides a pen-type injection device (1) with a piston rod brake mechanism for improving the determination of an expelled dose.