Disclosed are compact rapidly insertable central catheter (“RICC”) insertion assemblies and methods. For example, a RICC insertion assembly can include a RICC, an introducer assembly, an access guidewire, and a coupler coupling together the RICC and the introducer assembly. The RICC can include a catheter tube, a catheter hub, and one or more extension legs connected in the foregoing order. The introducer assembly can include an introducer needle coupled to a syringe. The introducer needle can include a needle-hub through hole passing through a needle hub and connecting to a needle-shaft lumen of a needle shaft. The access guidewire can include a proximal portion disposed in the RICC and a distal portion disposed in the needle-shaft lumen through the needle-hub through hole. The coupler can enforce a loop in the access guidewire over which the catheter tube follows, thereby compacting the RICC insertion assembly and making it easier to handle.

Disclosed herein are couplers and assemblies thereof for rapidly insertable central catheters (“RICCs”). For example, an introducer-needle assembly for a RICC can include an introducer needle and a coupler coupled therewith. The introducer needle can include a needle having a longitudinal needle slot extending from a proximal portion of the needle shaft through a distal needle tip. A sheath can be over the needle shaft sealing the needle slot thereunder except for a portion of the needle slot under a sheath opening in a proximal portion of the sheath. A needle hub can include a distally extending needle-hub extension arm over the proximal portions of the needle shaft and sheath. The needle hub can also include a needle-hub portion of a RICC clip configured to hold a portion of the RICC therein. The coupler can include a complementary coupler portion of the RICC clip connected to a coupler housing.

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.

Disclosed are insertion assemblies of rapidly insertable central catheters (“RICCs”) and methods thereof. For example, a RICC insertion assembly can include a RICC, an introducer needle, an access guidewire, and a coupler assembly coupling the foregoing together. The introducer needle can include a needle hub over both a sheath and a needle shaft. The sheath can seal a needle slot except for that under a sheath opening. A distal end of the access guidewire can be disposed in the introducer needle just proximal of a needle tip. The coupler assembly can include a nose piece and a tail piece coupled together. The tail piece can include an extension arm by which a proximal end of the access guidewire is held. The access guidewire can enforce a loop in the access guidewire over which the RICC is disposed, thereby keeping the RICC insertion assembly in a relatively compact form.

A catheter assembly includes a flexible catheter (22), a needle (12) having a sharp distal tip, the needle (12) disposed in the flexible catheter (22) and moving from a first position that exposes the needle (12) to a second position, an outer member (26) that is configured to engage and disengage a catheter hub (14), an inner member (28) disposed in the outer member (26), and a needle protection (30) member disposed in the inner member (28), the needle protection member (30) enclosing at least a portion of the needle (12) when the needle (12) is in the second position.

A low-profile access port for subcutaneous implantation within a patient. The access port can include a set of receiving cups which can be placed in fluid communication with a catheter. The set of receiving cups can provide a greater skin surface with which to access the port to avoid repeated penetrations at a single locus, such as during consecutive dialysis treatments. The access port can alternatively include needle penetrable arms or elongate chambers that also have a slim, low profile. The access port can include a needle guide to direct subsequent needle access to different insertion points to permit healing at the previous insertion points. The access port can be formed of a modular construction with a first conduit, a second conduit, and an outer shell. The outer shell can include a proximal portion and a distal portion. The access port can include a stem assembly and a locking member.

The assembly comprises: a stand for hanging a container of a main liquid, a spike, to be introduced into the container of main liquid, a multi-inlet connector with inlet tubings, to be connected to containers of additional liquids and to the container of main liquid through the spike, and an outlet tubing to be connected to a luer syringe to be introduced into a patient. The length of the spike inlet tubing of the connector has a length determined for, during use of the assembly with a container of main liquid, keeping the connector hung up on the stand through the spike and the container of main liquid. Thanks to the invention, the problem of the tubing traffic is solved.

A system for delivering a fluid to a Eustachian tube (ET) of a patient includes a guide member and a tubular member. The guide member includes a shaft having a proximal portion, a distal portion, and a bend at the distal portion. The bend is configured to provide access to an opening in the ET. The system further includes a tubular member comprising a proximal end, a distal end, and a lumen extending therebetween. The tubular member is sized to fit within the ET. One or both of the tubular member and the guide member comprises a first stop member configured to engage the other of the tubular member or the guide member. The first stop member is configured to restrict a distal advancement of the tubular member relative to the guide member.

A catheter assembly includes an outer shaft having an outer shaft body forming an outer shaft bore that receives an inner shaft. The outer shaft has a wire transition section. The catheter assembly includes an exit path connector coupled to the outer shaft body at the wire transition section. The exit path connector has a rigid body section separate and discrete from the outer shaft body and coupled to the outer shaft body. The body section defines an exit path connector bore that receives the inner shaft. The body section has a side exit port at a side of the body section being open to the exit path connector bore. The catheter assembly includes a catheter wire passing through the side exit port from an interior to an exterior of the cable exit port.

An intermittent urinary catheterisation assembly (1) for self-catheterisation comprises an intermittent urinary catheter (5) comprising a catheter tube. The catheter further comprises a conduit (4) extending longitudinally within the catheter tube and defining at least part of a flow path from a distal insertion end of the catheter to a proximal outlet end thereof, a measuring system for determining at least one fluid parameter in the flow path. The measuring system comprises at least one sensor element (35) configured to determine the at least one fluid parameter in the conduit and/or in a space in communication with the conduit and a signal processing device. In one aspect, the signal processing device comprises is detachable secured in relation to the connecting portion of the intermittent urinary catheter. In another aspect, the measuring system is securely connected to or integrated with the non-insertable portion of the catheter tube.