An injection system can have a Syringe Dose and Position Apparatus (SDPA) mounted to a syringe. The SDPA can have one or more circuit boards. The SDPA can include one or more sensors for determining information about an injection procedure, such as the dose measurement, injection location, and the like. The SDPA can also include a power management board, which can be a separate board than a board mounted with the sensors. The syringe can also include a light source in the needle. Light emitted from the light source can be detected by light detectors inside a training apparatus configured to receive the injection. The syringe can have a power source for powering the sensors and the light source. The SDPA and the power source can be mounted to the syringe flange.

A drive mechanism for an applicator for delivering a dose of a medicament, comprising: a dose setting assembly (N), a knob (1), a rotatable and axially non-translatable clutch element (2) coupled in rotation with the knob (1) and cooperating with the dose setting assembly (N), a rotatable piston rod (3) having an external thread (3.2), the piston rod (3) being located inside the clutch element (2), a drive element (4) and a drive spring (5), wherein when a dose is being set (1) by means of the knob (1), the clutch element (2) is rotated so that the drive spring (5) is loaded, while the drive element (4) and the piston rod (3) are immobilized, and when the dose is being delivered, the drive spring (5) is being released causing the drive element (4) to rotate together with the piston rod (3), the piston rod (3) being moved axially in a distal direction, wherein the piston rod (3) is hollow and has an internal thread (3.3) and a shaft (21) having an external thread (21.2) is located within the piston rod (3), the shaft (21) being engaged in rotation with the clutch element (2) so that during the setting of each subsequent dose the shaft (21) is rotated in relation to the piston rod (3) and moved axially in a proximal direction, while during the delivery of the dose the shaft (21) is immobilized in relation to the piston rod (3), and wherein the total translation of the shaft (21) in relation to the piston rod (3) caused by the setting of a defined number of doses is limited by means of blocking elements (B) located respectively on the piston rod and the shaft. An applicator for delivering a dose of a medicament, the applicator comprising the disclosed drive mechanism.

A plunger for an injector to inject an intraocular lens into the capsular bag of an eye has a deformable cushion and a contact surface with a cutout in which an imaginary reference point is arranged. The plunger has two points groups, each having a design point arranged on an outer contour, an inner contour point arranged on an inner contour, and a reference point. For each of the point groups, the distance from the design point to a circle or a closed curve is equal to the distance from the inner contour point to the reference point, the design point, the inner contour point and the reference point lie on a straight line, and the inner contour point lines between the design point and the reference point. The distance from the inner contour point to the reference point is different for at least two of the point groups.

An auto-injector for administering a dose of a liquid medicament (M) is presented having an elongate case, a carrier subassembly comprising a tubular carrier slidably arranged inside the case, where the carrier adapted to contain a syringe with a hollow injection needle. The injector also has, a drive spring and a plunger for forwarding load of the drive spring to a stopper of the syringe, wherein the syringe is lockable for joint axial translation with the carrier. A control spring is arranged around the carrier for translating the carrier in a proximal direction (P) for advancing the needle beyond a proximal end of the auto-injector, and a trigger button is used for releasing the control spring on actuation.

A medical injector including a cap remover or second cap is disclosed. The medical injector includes an injector housing defining a reservoir, a plunger rod, and a stopper engaged with a portion of the plunger rod and slidably disposed within the reservoir. The stopper being sized relative to an interior of the injector housing to provide sealing engagement with a sidewall of the injector housing. The medical injector further includes a needle having a sharpened first end and a second end in communication with the reservoir, a first cap covering the sharpened first end of the needle, and a second cap covering at least a part of the first cap. The second cap is engaged with the first cap such that removal of the second cap simultaneously removes the first cap from the first end of the needle.

A protective assembly includes a body for receiving the syringe; and a coupling device inside the body, rigidly connected to the barrel as regards to axial movement relative to the body. The coupling device includes an attaching element which can be either in an engaged state to axially fix the coupling device and the plunger rod, or in a release state in which the coupling device and the plunger rod are axially free relative to one another. The coupling device is axially movable in the body from a storage position to an injection position in which the needle extends beyond the body, and in which the attaching element can move towards the release state. The coupling device is axially movable in the body from the injection position towards a safety position, in which the needle is covered by the body.

An apparatus (100) for use with an auto-injector configured to receive a syringe and comprising: a firing assembly (102) comprising a rearward portion (108), a plunger rod (110) moveable forward relative to the rearward portion (108) and a plunger rod driver (112) configured to drive the plunger rod (110) forward relative to the rearward portion (108); an insertion driver (106) configured to drive the syringe forwards on an insertion stroke for inserting a needle of the syringe into an injection site; and wherein the firing assembly (102) further comprises a retainer (114) engaged with the plunger rod (110) and/or the rearward portion (108) and configured to prevent forward movement of the plunger rod (110) relative to the rearward portion (108), and to disengage from the firing assembly (102) at a point on the insertion stroke.

Disclosed is a device for the parenteral delivery of a medication, such as a drug. The device includes upper and lower housings in which the upper housing is configured to move relative to the lower housing as a result of application of an external force to permit the user of the device to control the rate at which the drug is administered.

The present specification relates to a plunger configured to transmit a force from an energy source to a piston of a primary container, the plunger comprising a plunger rod configured to be subjected to the force from the energy source, the plunger rod having an inner surface forming a cavity, wherein a support element adapted to constrain the energy source within the cavity protrudes radially inwards from the inner surface into the cavity.

A drug delivery device configured to provide a dose of medicament is disclosed. The drug delivery device includes a main housing, a syringe arranged in the main housing, and a pneumatic power pack arranged in the main housing. The pneumatic power pack includes a pressurized gas source storing pressurized gas, a valve for the pressurized gas source, a sleeve having an inner wall, and a plunger. The sleeve is configured to receive pressurized gas released from the pressurized gas source. The plunger is in sliding gas-tight engagement with the inner wall of the sleeve. Upon activation of the valve, the valve releases the pressurized gas, and the released pressurized gas flows into the sleeve and propels the plunger in a distal direction with respect to the sleeve and the syringe, so as to eject medicament from the syringe.