Described is an actuation mechanism for a medicament delivery device having a needle with a distal tip. The actuation mechanism comprises an outer sleeve telescopically relative to the delivery device and an inner sleeve telescopically arranged relative to the outer sleeve. The outer sleeve is axially translatable relative to the delivery device, and the inner sleeve is axially translatable relative to the outer sleeve. In a first state, the inner sleeve protrudes distally from the outer sleeve and the outer sleeve protrudes distally from the delivery device. In a second state, the inner sleeve is contained within the outer sleeve. Movement of the outer sleeve proximally relative to the delivery device in the second state initiates delivery of a medicament in the delivery device.

A needle assembly for use with a drug delivery device comprises a cap releasably secured to the drug delivery device and a blocking member. The blocking member comprises a disinfectant swab and a user graspable portion. The blocking member is configured to be physically moved with respect to the needle assembly by a user. The needle assembly is configured such that in an initial position, the blocking member blocks the cap from being removed from the drug delivery device and movement of the blocking member from the initial position causes the disinfectant swab to contact a septum of a cartridge retained within the drug delivery device.

Disclosed is a safety syringe capable of preventing needle-stick injuries, filtering foreign matters in a fluid, and preventing reuse thereof. The safety syringe includes: a safety needle part provided with a safety cap, the safety cap being configured to pop out by an elastic force of an elastic body connected thereto when the safety cap is unlatched and to be fixed while surrounding a needle tip; a filter part being configured such that a first end thereof is coupled with the safety needle part, and filtering fluid introduced or discharged through the needle; and a main body part being configured such that a first end thereof is coupled with the filter part, and having a barrel with a piston mounted therein, the piston being provided at a fore end thereof with an insertion part pushing out the fluid by being inserted into a luer of the syringe.

An injector device includes a housing for receiving a medicament cartridge; a needle unit comprising a needle; and a first sleeve slideable along a longitudinal axis of the housing from a first position, in which the first sleeve conceals the needle, to a second position, in which the needle is exposed from an end of the first sleeve, the first sleeve configured to engage the needle unit so that, during use, movement of the first sleeve from the first position to the second position moves the needle unit from a primary position to a secondary position, in which secondary position the needle unit locates over an end of a medicament cartridge when a medicament cartridge is received in the device, wherein the device further comprises a second sleeve arranged to move telescopically with respect to the first sleeve, the first sleeve extending from the second sleeve when the first sleeve is in the first position.

A syringe safety device is disclosed herein that comprises a shaft configured to support a barrel of a syringe, a guard configured to be disposed inside the shaft before the syringe is used and to extend outwardly from the shaft after the syringe is used, and a lock disposed between the guard and the shaft having a lock head disposed at a first end thereof, the lock head being disposed in a first aperture in the shaft before the syringe is used and in a second aperture in the shaft after the syringe has been used. A method of using the device also is described.

A safety needle and hub module for selective connection with a medical device that includes a base and a head. The module includes a needle shield for selectively covering a distal end of a needle. A needle hub is movably received within a proximal opening of the needle shield, and extends through a passageway of the needle shield. An actuation button is movably received in opposing lateral apertures of the needle shield to engage the needle shield, the needle hub and the medical device. In a first position an upper leg of the actuation button is received in a recess of the needle hub, and a lower leg of the actuation button is received in an undercut between the base and head of the medical device. In a second position, after the actuation button is actuated, the module is removable from the medical device.

A drug delivery system is disclosed that includes a drug delivery device having a reservoir and a delivery cannula having a proximal end in fluid communication with the reservoir and a distal end to be received within a patient. The drug delivery system may further include one or more sensors coupled to the drug delivery device, a wireless transmitter, and a controller coupled to the one or more sensors and the wireless transmitter. The controller may be configured to use the one or more sensors to determine a condition or an operational state of the drug delivery device, and control the wireless transmitter to wirelessly transmit one or more reports representative of the condition or the operational state of the drug delivery device. A method for use with a drug delivery device is also disclosed.

A medicament delivery device has a syringe, a housing, a needle shield, a biasing member and one or more blocking members. The needle shield is biased axially forwardly by the biasing member so as to selectively cover a needle of the syringe. However, the biasing member is prevented from biasing the needle shield axially forwardly until a radial movement of the blocking members has occurred, which is precipitated by a forward axial movement of the syringe. Consequently, the forward movement of the syringe releases the needle shield to automatically make safe the device.

A method for treating a patient using a catheter insertion device. The catheter insertion device includes a housing, a needle, a catheter, a guidewire, and a thumbwheel. The needle extends through the catheter such that a distal end of the needle extends distal of a distal end of the catheter. The guidewire is coupled to the thumbwheel such that rotation of the thumbwheel advances a distal end of the guidewire through a lumen of the needle. The method includes holding the catheter insertion device, inserting the distal end of the needle and catheter into a blood vessel, rotating the thumbwheel to advance the distal end of the guidewire out of the lumen of the needle into the blood vessel, moving the catheter over the guidewire in the blood vessel, and removing the needle and the guidewire from the catheter.

A retractable needle catheter insertion device is provided with a cannula and a needle positioned within the cannula to assist with insertion of the cannula. After insertion of the cannula into a patient, the needle can retract into a protective sleeve that contains the needle in order to reduce the chance that a medical practitioner will be inadvertently stuck by a used needle. The needle is carried by a needle support that is slidably disposed within the sleeve. A spring biases the needle support and needle toward a retracted position, and the device also includes an activation hub that works in conjunction with the needle support to control retraction of the needle. The retraction may be activated manually by the medical practitioner or may be activated automatically. A modular system and method of manufacturing is also provided in which catheters having either manually or automatic retraction can be manufactured using common parts.