A safety catheter insertion device configured to automatically retracted needle cannula following insertion of a catheter assembly and to inhibit release of the catheter assembly from the safety catheter insertion device until the needle cannula has been retracted for the purpose of inhibiting inadvertent needle sticks. The safety catheter insertion device including an advancement arm slidably coupled to a needle housing assembly and configured to shift between a first position in which a needle cannula traverses through a catheter hub coupling portion of the advancement arm to inhibit release of a catheter assembly, and a second position in which one or more tabs of the advancement arm interact with one or more retention arms of the needle housing assembly to enable a biasing mechanism to shift the needle assembly to a proximal position and enable release of the catheter assembly from the safety catheter insertion device.

A needle assembly includes: a retaining portion; and an elastic member that includes a close contact portion that closely contacts and retains the needle tube such that the needle tube protrudes toward a fitting opening, and a deformation portion that extends from the close contact portion toward the fitting opening and is configured to deform when the drug ejection portion comes into contact with the elastic member, and which is provided in a fitting portion. Further, the length of the deformation portion is in a range of 35% or more and 50% or less with respect to the length of the elastic member, and the length of a portion of the needle tube which protrudes from the close contact portion toward the fitting portion is in a range of 45% or more and 245% or less with respect to the deformation portion.

A disconnecting mechanism includes a main body including a fluid transfer tip having a tapered surface to form a friction fit with a corresponding connector. The lever member includes a threaded portion to enable the corresponding connector part to be connected to the fluid transfer tip by a screw fit in addition to the friction fit, and an actuator portion to actuate release of the friction fit. In a first pivotal position, the threaded portion has a first position close to the fluid transfer tip to engage with an outer thread or rim of the corresponding part and thereby form the screw fit in addition to the friction fit. In a second pivotal position, the threaded portion has a second position further away from the fluid transfer tip to disconnect the screw fit and the actuator portion is moved forward to push the connector part and release the friction fit.

An assembly including a needle (3) for administering a fluid is presented. The needle (3) comprises a hollow needle body (4) to guide the fluid. The needle body (4) is furthermore formed such that an inlet section (20) of the needle body (4) defines a first flow direction for the fluid and an outlet section (21) of the needle body (4) defines a second flow direction for the fluid, wherein the first flow direction is inclined with respect to the second flow direction.

An apparatus for removing a needle from a needle holder, including a grasping unit for selectively grasping the needle; a receiving unit for receiving the needle holder, displaceably disposed relative to the grasping unit; a biasing member biasing the receiving unit in a first direction; and separating means for separating the entire needle from the needle holder. Preferably, the needle is heated to melt, soften, or otherwise weaken a material and/or adhesive connecting the needle with the needle holder. Preferably the heating is electrical heating, including completing an electrical circuit through the needle and passing current through the needle, and/or passing current through a heating element.

A needle assembly for a medical device, comprising a needle hub adapted for receiving a needle cannula, and a needle shield having an open end. The needle assembly is adapted to be changed from an integral configuration, wherein the needle hub is aligned with the needle shield, wherein the first end of the needle shield is covered by the needle hub, and wherein a frangible connection forms an integral connection between a shield connecting portion and a hub connecting portion, to a broken configuration, wherein the frangible connection is broken, and whereby the needle hub and needle shield are two separate parts, and whereby the needle shield is removable from the needle hub.

The invention relates to a Safe Syringe comprising a barrel, a needle seat and a plunger, wherein the needle seat has a hook rod, a linkage deformation portion and a barrel clamping portion; and the plunger has a rod body, and a hook insertion hole which can be sleeved with the hook rod of the needle seat and compress the linkage deformation portion for elastic deformation such that the barrel clamping portion of the needle seat is not clamped into the seat clamping slot of the barrel, and the hook insertion hole can hook the hook rod of the needle seat to move the needle seat. The Safe Syringe can allow stable positioning and quick pullback of the needle seat and effectively reduce liquid medicine residue.

A fluid transfer device may include a fluid transfer tip that has a tapered friction fitting for a corresponding hub and an additional means for gripping a hub in a locked position when connected to the fluid transfer tip by the friction fitting. A disconnecting member is provided with a resilient bias that causes it to engage the gripping means and thereby assist in holding the hub in the locked position. The disconnecting member is moveable relative to the fluid transfer tip and against the resilient bias so as to release engagement of the gripping means, move the hub out of the locked position provided by the gripping means and release the hub from the friction fitting.

Fluid collection/injection device comprises a body having a front end, a back end, and a main hollow section arranged between the front and back ends and a needle hub securing section arranged on the front end and being structured and arranged to receive therein a needle member. The fluid collection/injection device is structured and arranged to utilize at least an operational mode, an operational mode, and a post-use mode. In the installation mode, the needle member is coupled to the body via the needle hub securing section. In the operational mode, fluid passes through the needle member and into or out of a receptacle inserted into the main hollow section.

A removal device (121, 221) for removing and disposing of a pen needle (113, 213) connectable to a drug delivery device (111, 211) includes a body (123, 223) having a cavity (141, 241) for receiving the pen needle of the drug delivery device such that a patient end (116, 216) of a needle (115, 215) of the pen needle is covered by the body. An ejector (151, 251) is movably connected to the body (123, 223) for engaging the received pen needle (113, 213) and selectively ejecting the engaged pen needle from the body. The pen needle (113, 213) is securely retained within the removal device (121, 221) without exposing the needle (115, 215) of the pen needle until the pen needle (113, 213) can be properly disposed of, such as in a sharps container, thereby substantially preventing an accidental needle stick.