A fluid transfer assembly is described that includes a fitting comprising a lumen having an opening, and at least one barb, the at least one barb extending circumferentially around the lumen proximate to the opening. The assembly also includes a flexible conduit, a deformable sleeve, and an elastomeric liner disposed between the sleeve and the conduit. The fitting extends at least partially into the conduit such that the conduit extends over the at least one barb. The elastomeric liner applies substantially 360 degree radial pressure to the conduit such that the conduit is sealingly compressed around the at least one barb of the fitting. The assembly is fluid tight up to a burst pressure of the conduit.

This disclosure includes an apparatus for detecting mating of a cap with a fluid delivery device having a housing, a receptacle, and a sensor. The housing is configured to carry an insulin delivery device having a reservoir of the fluid. The receptacle is provided by the housing having a coupling with a locking recess configured to receive a cap with a sprung locking arm. The pressure sensor is carried by the receptacle proximate the coupling and configured to detect engagement force of the sprung locking arm with the receptacle when mated with the housing. A method is also provided.

A coupling device that can removably couple medical tubing with a mating connector is disclosed and can include a housing and an inner body movable to different orientations, where an orientation is configured to resist separation of the coupling device and mating connector, and another orientation is configured such that resistance to separation from the mating connector is reduced, where any of the housing and the inner body can be moved relative to each other, and where the coupling device can permit separation of the coupling device and mating connector when a portion of the coupling device is moved, biased, and/or flexed when the coupling device and the mating connector are moved in directions away from each other, and where the coupling device can be re-coupled with a mating connector after separation of the coupling device and the mating connector.

A tool for engaging and disengaging connectors. The tool includes a longitudinal member and at least one aperture extending through the member. The aperture is sized and shaped to receive and retain a connector, and is configured to rotate the connector to engage and disengage the connector with a mating connector. In some of the embodiments a pair of such tools are utilized, one tool holding a first connector and a second tool holding a second connector. In these embodiments one tool may be held stationary while the other tool is rotated to engage and disengage the connectors as desired. Alternatively, both tools may be simultaneously rotated in opposite directions engage and disengage the connectors as desired.

A tool for engaging and disengaging connectors. The tool includes a longitudinal member and at least one aperture extending through the member. The aperture is sized and shaped to receive and retain a connector, and is configured to rotate the connector to engage and disengage the connector with a mating connector. In some of the embodiments a pair of such tools are utilized, one tool holding a first connector and a second tool holding a second connector. In these embodiments one tool may be held stationary while the other tool is rotated to engage and disengage the connectors as desired. Alternatively, both tools may be simultaneously rotated in opposite directions engage and disengage the connectors as desired.

A connection device includes a tube that is branched to two passages from a branch portion and includes a first and second branch tubes provided on one end side as a liquid-feeding destination, a first protruding plate that includes, on another end side, first another end edge provided in a direction orthogonal to an axis line of the first branch tube and that is provided so as to protrude from an outer circumference portion of the tube, and a second protruding plate that is provided so as to face the first protruding plate across the tube and protrude in a diameter direction of the tube and that includes, on the other end side, second another end edge provided so as to be orthogonal to an axis line of the second branch tube.

Tubing systems are described herein. A tubing system can include a tubing assembly, a tubing system component, and a coupling portion. The tubing assembly includes a tubing and a tubing assembly connector coupled to the tubing. The tubing assembly connector defines a connector lumen in fluid communication with the tubing lumen. The tubing assembly connector has a tubing assembly connector elastic modulus greater than the tubing elastic modulus. The tubing system component has a component connector abutted against the tubing assembly connector. The component connector has a component connector elastic modulus greater than the tubing elastic modulus. The coupling portion is overmolded over the tubing assembly connector and the component connector to couple the tubing to the tubing system component.

A needleless connector may include a housing having a proximal end, a distal end, and an inner surface defining an internal cavity extending between the proximal and distal ends. A compressible valve may be disposed within the internal cavity. The compressible valve may include a head portion, a flange portion for securing the compressible valve in the housing, and a body portion extending between the head portion and the flange portion. The body portion may include a cylindrical outer surface having an external notch extending along a portion of a circumference of the cylindrical outer surface and recessed radially-inward from the cylindrical outer surface. The body portion may further include a planar face extending distally from the external notch and disposed between the external notch and the flange portion. The planar face may be recessed radially inward relative to at least a portion of the cylindrical outer surface.

The present disclosure relates to a splitable introducer sheath assembly and the method of manufacturing the same. The splitable introducer sheath assembly includes a sheath tube, a hub portion, and at least two anchors. The sheath tube includes anchor tabs separately extending from the proximal sheath end. In one embodiment. The anchors secure the respective anchor tabs within the respective first and second hub halves. Alternatively, the hub halves may include a base having a first mating surface and a cap having a second mating surface; the anchor tabs extends within the corresponding one of the base with a proximal end of the anchor tab extending beyond the first mating surface; and the first mating surface of the cap is secured to the second mating surface of the base with the proximal end of the corresponding anchor tab secured therebetween.

An enteral feeding adapter suitable for use with a plurality of infusion sets includes an outer body component made of a flexible material and containing a feeding port for receipt of a distal connector of an infusion set. A rigid body insert is seated within an internal recess of the outer body component and defines a proximal section of the feeding port. The insert includes a first continuous radial seal barb that engages the flexible material of the outer body component, and a plurality of separate and circumferentially spaced radial second seal barbs distal to the first seal barb that engage the flexible material.