A syringe for medical use having a barrel with a longitudinally extending tubular fluid chamber and at least one longitudinally extending, outwardly facing, substantially flat indicia display surface disposed proximally to the fluid chamber, a plunger slidably inserted into the fluid chamber, a needle projecting forwardly from the barrel in fluid communication with the fluid chamber; and a fixed length needle safety device having an activation handle slidably engaging the barrel and a forwardly projecting needle tip shield encircling the needle that moves forwardly to cover a tip end of the needle when the activation handle is moved forwardly following use of the syringe.

A drug delivery device for setting and dispensing of a dose of a medicament includes a housing extending in an axial direction and a piston rod to operably engage with a piston of a cartridge to displace the piston in a distal axial direction. The drug delivery device further includes a drive spindle operably engageable with the piston rod during dose dispensing and a drive member axially displaceable relative to the drive spindle against the action of a spring element during dose setting and being threadedly engaged with the drive spindle to form a spindle gear.

A system includes a medicament delivery device and a container configured to receive at least a portion of the medicament delivery device. The medicament delivery device includes an actuator and a first electronic circuit system. The actuator is configured to initiate delivery of a medicament into a body when the actuator is moved from a first position to a second position. The first electronic circuit system is configured to output a first electronic signal when the actuator is moved from the first position to the second position. The container includes a second electronic circuit system configured to receive the first electronic signal. The second electronic circuit system is configured to output a second electronic signal associated with the first electronic signal.

Described is an autoinjector comprising a case, a door hingedly coupled to the case and having an open position and a closed position, a plunger slidably disposed in the case, and at least one drive spring applying a biasing force on the plunger relative to the case, wherein the door is operably coupled to the plunger, and wherein rotation of the door from the closed position to the open position moves the plunger from a distal position in the case to a proximal position in the case and compresses the at least one drive spring.

A syringe for medical use having a barrel with a longitudinally extending tubular fluid chamber and at least one longitudinally extending, outwardly facing, substantially flat indicia display surface disposed proximally to the fluid chamber, a plunger slidably inserted into the fluid chamber, a needle projecting forwardly from the barrel in fluid communication with the fluid chamber; and a fixed length needle safety device having an activation handle slidably engaging the barrel and a forwardly projecting needle tip shield encircling the needle that moves forwardly to cover a tip end of the needle when the activation handle is moved forwardly following use of the syringe.

An autoinjector includes a case, a door hingedly coupled to the case and having an open position and a closed position, a plunger slidably disposed in the case, and at least one drive spring applying a biasing force on the plunger relative to the case, wherein the door is operably coupled to the plunger, and wherein rotation of the door from the closed position to the open position moves the plunger from a distal position in the case to a proximal position in the case and compresses the at least one drive spring.

A method of making a delivery device for therapeutic agent, drug or vaccine. The method includes providing a flat panel wafer, forming a plurality of reservoirs, with each reservoir defining a cavity, within the flat panel wafer, and attaching a cover layer across the plurality of reservoirs. The method also includes filling the plurality of reservoirs with at least one of a therapeutic agent, drug, and vaccine to form a plurality of filled reservoirs, and providing a housing portion adjacent each of the plurality of filled reservoirs to form a composed layer. The method also includes separating the composed layer into a plurality of delivery devices, wherein each delivery device includes a reservoir. The delivery device may be suitable for self-injection use.

An auto-injection syringe shaped similar to a credit card and having a biased injection mechanism operable to drive a needle into a user's body by a fixed distance to dispense a dose of fluid at a subcutaneous location. A safety may be provided to avoid undesired actuation of the injection mechanism. After the safety is bypassed, a trigger may be actuated by the user to allow operation of the injection mechanism. A reciprocating needle-cover resists casual view of the needle by the user during and after use of the syringe. A locking mechanism automatically holds the needle-cover at an extended position to isolate the needle from further contact and to resist re-use of the syringe.

A hypodermic injection device configured to be attached to a portable electronic device is disclosed herein. The hypodermic injection device can be an auto-injector for delivering a dose of an injectable medicament. The injection device can include a durable barrier providing a sheath over an injectable cannula to maintain sterility of an injectable cannula that delivers the medicament. The injection device can also include tamper proof features such as by requiring that deployment of the device only be possible after completing two mechanical manipulations so as to prevent accidental discharge of the injection device. By incorporating the injection device within a case for a portable electronic device, the injection device is readily available to those that rely on auto-injectors to provide emergency therapeutic treatment, and is much less likely to be forgotten or left behind by a user than a typical auto-injector.

A method of making a delivery device (10) for therapeutic agent, drug or vaccine is disclosed. The method includes providing a flat panel wafer, forming a plurality of reservoirs, with each reservoir defining a cavity, within the flat panel wafer, and attaching a cover layer (20) across the plurality of reservoirs. The method also includes filling the plurality of reservoirs with at least one of a therapeutic agent, drug, and vaccine to form a plurality of filled reservoirs, and providing a housing portion adjacent each of the plurality of filled reservoirs to form a composed layer. The method also includes separating the composed layer into a plurality of delivery devices, wherein each delivery device includes a reservoir. The delivery device may be suitable for self-injection use.