An injection device and an injection device trainer for training a user to use an injection device. Each one of the injection device and the injection device trainer can include: a body portion; and an actuator positioned towards a proximal end of the body portion, the actuator moveable from a proximal position to a distal position; wherein the body portion comprises a body protrusion and the actuator comprises a latch that is arranged to couple with the body protrusion when the actuator is in the distal position, thus holding the actuator in the distal position.

Disclosed is an injection device for receiving a syringe therein and for delivering a dose of medicament from the syringe, the injection device including: an insertion driver configured to drive the syringe forwards within the injection device for inserting a needle of the syringe into an injection site; an interlock mechanism configured to retain the insertion driver in a primed state and, when actuated, to allow the insertion driver to drive the syringe forwards; and an interlock actuator moveable between a stowed position and an operable position and configured on movement from the stowed position to the operable position to couple to an actuation system such that movement from the operable position back towards the stowed position actuates the interlock mechanism.

Disclosed is an injection device for delivering a medicament from a syringe contained within a housing, the device being configured to move the syringe through the housing to cause insertion of a needle of the syringe into a user's skin and move a syringe bung through a syringe body, delivering medicament through the needle. The device includes: a plunger engaging the bung; a sleeve around the plunger; an insertion spring biasing the sleeve to the housing; and a delivery spring biasing the plunger to the sleeve. A release mechanism releases the sleeve from the housing to commence insertion and release the plunger from the sleeve, following insertion, delivering medicament. A velocity regulator regulates the plunger upon release and disengages during delivery, and includes a screw thread associated with the sleeve or plunger and one or more thread engaging members formed on the other of the sleeve and the plunger.

The present invention relates to a medicament delivery device comprising: a housing; a drive mechanism arranged to act on a plunger rod; a release mechanism interactively connected to the drive mechanism for releasing the drive mechanism from a pre-tensioned state; and a signal generating mechanism for generating an audible and/or tactile and/or visual signal indicating that a medicament has been completely delivered. The signal generating mechanism is operably connected to said drive mechanism such that it is arranged movable in a longitudinal direction in relation to said drive mechanism. Said drive mechanism is arranged with a signal release mechanism capable of activating said signal generating mechanism at a certain longitudinal position of said drive mechanism after its release, for generating an audible and/or tactile and/or visual signal. Said signal generating mechanism comprises a signal delay mechanism.

Flush syringe assemblies capable of creating pulsatile movement of the plunger rod as it moves in the distal direction within a syringe barrel, while preventing overpressurization of the catheter are provided. An exemplary flush syringe assembly includes a syringe barrel with a first pulsing element and a chamber with flush solution, a plunger rod with a stopper and a second pulsing element that interacts with the first pulsing element to provide an engagement force that causes pulsatile movement of the plunger rod and a thumb press slidably attached to the plunger rod with a pulse control element. The pulse control element is compressible to create a compression force that is greater than the engagement force of the first pulsing element and the second pulsing element.

Device for dispensing a substance having: a dispensing element through which the substance can be dispensed, a displaceable protective element for the dispensing element, a drive element that is coupled with the protective element and a feedback element which can generate a signal when or after a predefined quantity or the entire quantity of the substance to be dispensed has been dispensed characterized in that the feedback device is coupled with the drive element.

The present disclosure relates to medical delivery devices that include a barrel having an inner surface, and in at least one embodiment, the inner surface is hydrophilic. The medical delivery device may further include a stopper may having an elastomeric body, one or more fluoropolymer layers, and two or more ribs laminated to the one or more fluoropolymer layers. In some embodiments, the contact angle of the inner surface of the barrel is less than about 58. Additionally, the stopper includes a sliding surface that is less than about 2.0 mm. The barrel provides inner surface that in combination with the fluoropolymer laminate or fluoropolymer film achieve high levels of air and liquid impermeability while also maintaining an acceptably low break loose force, low average glide force, and low glide force variation. In some embodiments, the compressibility stopper against the barrel is greater than about 7.9%.

A spring assembly for an administering device includes a driving spring configured as a spiral spring and a spring shaft. An inner end of the spring is rotationally fixedly attached to the spring shaft. A spring sleeve extends around the circumferential region of the spring, wherein the outer end of the spring is connected to the spring sleeve in a rotationally fixed manner and a disk-type spring-sleeve cover is attached to the spring sleeve or the spring shaft. The flange and the spring-sleeve cover extend radially away from an axis of the spring shaft and the flange is arranged near a distal end of the spring shaft. A radial stop is arranged on the flange periphery, and a blocking element is arranged on the spring sleeve to be complementary to the radial stop for releasably rotationally securing to each other when the blocking element and the radial stop engage.

A device that regulates, monitors, and provides data on the progress of a large-volume injector during its injection sequence. The device comprises an injector and a monitor assembly. The injector has a syringe having a plunger, and a biasing device that biases the plunger through the syringe. The monitor assembly comprises a resistance unit configured to resist movement of the plunger, a gear connected to the plunger by the resistance unit, and a control unit configured to monitor the position, and regulate the rotation, of the gear. Wherein linear movement of the plunger causes the gear to rotate so that the control unit generates information on the position of the plunger.

An autoinjector comprising a body (1, 2), and a reservoir (S) containing fluid and including a piston (P) and a needle (A), such as a pre-filled syringe, said autoinjector further comprising a piston rod (5) that is suitable for co-operating with the piston (P) of said reservoir (S), said piston rod (5) being movable between a rest position and an injection position in which said piston rod (5) has moved the piston (P) of the reservoir (S) so as to inject the fluid through the needle (A), an actuator spring (6) being provided so as to urge said piston rod (5) towards its injection position, the autoinjector further comprising a force-adjustment system (7, 8) that exerts a force (F2) on said piston rod (5), said force (F2) adding to the force exerted by said actuator spring (6) on said piston rod (5) at the beginning of injection, so as to amplify the force exerted on said piston (P) by said piston rod (5) at the beginning of injection.