A safety injection needle device for delivery of a medicament from a storage reservoir with longitudinal axis A. The device includes: a device body; a needle; a needle shield device, and a spring. A rear end of the needle shield device is made of a deformable material such that at least a section of the rear end of the needle shield device is deformed such that the radius of the rear end is increased such that the needle shield device is locked in the extracted position.

A pen needle and a method of using the pen needle. The pen needle includes a housing, a needle carrier in the housing supporting a needle, a distal shroud positioned around the needle within the housing, a distal compression spring positioned around the needle between the needle carrier and the distal shroud, a proximal shroud positioned around the needle within the housing, and a proximal compression spring positioned around the needle between the needle and the proximal shroud. The proximal shroud is movable between a first position, in which it engages the distal shroud to hold it in engagement with the housing, and a second position in which the proximal shroud is disengaged from the distal shroud allowing the distal shroud to move in a distal direction to project from the housing and surround the end of the needle.

The present invention provides a drug delivery system (1) comprising a drug delivery device (2, 3) carrying at least one reservoir (40a, 40b), and a needle unit (4) being attachable to the drug delivery device (2, 3) in axial extension thereof and adapted to establish a flow way between the at least one reservoir (40a, 40b) and a drug delivery site. The needle unit (4) comprises a needle structure (11) comprising a front needle portion (12) for entering the drug delivery site, and at least one back needle portion (13a, 13b) for insertion into the at least one reservoir (40a, 40b), and a needle shield (20). The needle shield (20) and the needle structure (11) are capable of undergoing relative axial motion between an accommodating relative position in which the needle structure (11) is completely accommodated within the needle shield (20) and a protruding relative position in which the front needle portion (12) protrudes from the needle shield (20), the needle shield (20) and the needle structure (11) being biased towards the accommodating relative position by a first bias force. When the needle unit (4) is attached to the drug delivery device (2, 3) the needle structure (11) and the at least one reservoir (40a, 40b) are capable of undergoing relative axial motion between a disconnected relative position in which the at least one back needle portion (13a, 13b) is spaced apart from the at least one reservoir (40a, 40b), and a connected relative position in which the at least one back needle portion (13a, 13b) and the at least one reservoir (40a, 40b) are fluidly connected, the needle structure (11) and the at least one reservoir (40a, 40b) being biased towards the disconnected relative position by a second bias force which is greater than the first bias force.

A medical injection system comprising: a syringe provided with a barrel, a stopper and an injection needle; a plunger rod which engages with the stopper; an injection lock preventing relative movement of the plunger rod with respect to the barrel; and a needle guard comprising a trigger portion and configured to slidably engage the barrel so as to define a first position covering the injection needle and a second position not covering a predetermined portion of the injection needle. The trigger portion is adapted to disengage the injection lock from the plunger rod when the needle guard moves from the first position to the second position.

An auto-retractable blood collection needle, including: a needle holder including a first tube, a second tube and a holder tail; a needle in stalled in the first tube; a built-in sliding sleeve which is elongated and through and has a C-shaped cross section; a needle shield which is hollow and elongated; and a spring sheathed on the first tube. The second tube is installed in the built-in sliding sleeve and is capable of sliding back and forth. The built-in sliding sleeve is installed in the needle shield and is capable of sliding back and forth. A locking mechanism is formed by the holder tail and the needle shield. When the holder tail is unlocked from the needle shield, a force of the spring pushes the second tube to slide backward, and then the built-in sliding sleeve is driven to slide rearward to lock with the needle shield.

An injection device, for example, an auto-injector of any type, includes a sleeve configured to hold a medicament chamber. The sleeve may be sufficiently deformable such that it functions as a shock absorbing member to distribute the force exerted on the medicament chamber during use of the injection device.

Safety needle device (1) comprising: a hub (10) configured to be connected to a vessel, a needle (20) attached to the hub (10), the needle (20) extending along a longitudinal axis (X-X) between a distal end (21), formed for insertion into a patient, and an opposed proximal end (22) formed to be connected to the vessel, a shield (30) slidable relative to the hub (10) along the longitudinal axis (X-X) and rotationally constrained around the longitudinal axis (X-X), the shield (30) being slidable irreversibly from an initial position, before injection, to a locking position, after injection passing through an intermediate position, a housing (40) attached to the hub (10) and surrounding a portion of a portion of the hub (10) and a portion of the shield (30), an elastic member (50) arranged within the housing (40) and acting the shield (30), the elastic member (50) being biased to push the shield (30) towards the distal end (21) of the needle (10) and contrast a longitudinal sliding of the shield (30) towards the proximal end of the needle (10), a sleeve (60) arranged within the housing (40) and mounted rotatable around the longitudinal axis (X-X) relative to the shield (30) and the housing (40), a locking arrangement (70) comprising at least a first locking member (71) formed on the shield (30) and at least a second locking member (72) formed on the sleeve (60), the first locking member (71) cooperating with the second locking member (72) to rotate the sleeve (60) upon sliding of the shield (30) and to lock the shield (30) in the locking position, the shield (30) surrounds at least partially the sleeve (60), the safety needle device (1) comprises a guiding arrangement (80) comprising first guiding members (81) formed on the shield (30) and second guiding members (82) formed on the housing (40), the first locking members (81) cooperating with the second locking member (82) to guide the sliding of the shield (30) along the longitudinal axis (X-X) and to prevent rotation of the shield (30) relative to the housing (40).

A needling system, for use in areas where thin hollow needles are used to inject or aspirate fluids and gases, is provided and comprises a thin, rigid tube body needle that is open on both ends and throughout the length with one sharp end. The needle body and hub are designed such that the needle has a ball end that fits within a socket of the hub forming a seal and allowing the needle to be oriented non-colinearly and non-parallel to the central axis of the hub. Needle orientation relative to the hub can be limited from a conical volume to a planar or multi planar angular orientations. The needle so configured allows the user to circumvent an obstacle that otherwise inhibit direct linear access to a point-of-interest by providing a device that can fit around or between obstructions providing optimal direct path towards the desired therapy delivery point.

Safety needle device (1) comprising: a hub (10) configured to be connected to a pen-injector, the hub (10) comprising a lateral wall (11) and an upper wall (12) which define therebetween a cavity (13) extending between the upper wall (12) and an lower aperture (14) able to receive the pen injector; a needle (20) attached to the hub (10), the needle (20) extending along a longitudinal direction (X-X) between a distal end (21), configured for insertion into a patient, and an opposed proximal end (22) configured to be connected to the pen injector, a back-end shield (30) slidable along the longitudinal direction (X-X) within the cavity (13) of the hub (10) and rotatable about the longitudinal direction (X-X), the back-end shield (30) being movable irreversibly from an initial position, before connection of the pen injector to the hub (10), to a locking position, after removal of the pen injector to the hub (10) passing through an intermediate position, an elastic member (40) arranged within the cavity (13) and acting between the upper wall (12) and the back-end shield (30) to urge the back-end shield (30) towards the proximal end (21) of the needle (10) along the longitudinal direction (X-X), a locking arrangement (50) comprising at least a first locking member (60) formed on the back-end shield (30) and at least a second locking member (70) formed on the hub (10), the second locking member (70) cooperating with the first locking member (60) to guide the back-end shield (30) from the initial position to the locking position and to lock the back-end shield (30) in the locking position, the second locking member (70) comprises a passing through guide (71) formed on the lateral wall (11) of the hub (10); the first locking member (60) comprises a protrusion (61) configured to engage the guide (71) and to slide along the guide (71).

A safety pen needle assembly (12) is disclosed which comprises a hub (30), a needle cannula (20) engaged to the hub (30), the needle cannula (20) having a distal end for insertion into a patient, and a proximal end extending into the hub (30), a sleeve (14) surrounding the hub (30) and needle cannula (20), a shield (16) including a window (18), the shield (16) surrounding the sleeve (14) and movable relative to the sleeve (14) from a first position, to a second position and to a third position to expose and cover the distal end of the needle cannula (20), and a spring (144) urging the shield (16) to move relative to the sleeve (14) from the second position to the third position, wherein the window (18) indicates when the needle cannula (20) is extended in the second position.