A vascular access device may include a blood circuit having an arterial blood line and a venous blood line. The venous blood line is connected to a first access needle and the arterial blood line is connected to a second access needle. The venous blood line is connected to an access component affixed to the second access needle and configured such that when the second access needle is used to infuse blood into a patient, the access component is positioned to withdraw blood and convey it into the venous line. The withdrawn blood may also be conveyed to an air detector to detect withdrawal of the second access needle.

A light-emitting, antimicrobial tuber, instrument or catheter includes a thin, flexible tube having an optically transparent wall; and a light transmitter configured and arranged to emit light through the tube, which may be ultraviolet C (UVC) irradiation, photodynamic therapy (PDT), violet-blue light therapy, and other light-based therapies. In one embodiment, violet-blue light from 400-500 nm in wavelength, such as 405 nm, for instance, is used. The device is used on a patient and a therapeutic amount of light is administered to the patient, thereby reducing the risk of infections being transmitted from the instrument, tube or catheter to the patient, generally. The device may be configured for use in the urinary tract or as intravascular, and may be indwelling or temporary. Light may be administered for the duration of use or another time period effective to halt, inhibit, or reduce microbial or fungal growth.

The present invention is directed to a dual lumen cannula configured to be inserted into a patient's body as simple as a single lumen cannula. The dual lumen cannula includes at least one inner lumen configured to be inserted into an outer lumen and connected via an inner lumen connection unit and an outer unit connection unit. Embodiments of the presenting invention further allow for the connection of at least one flow router to the other end of the inner lumen connection unit. When installed, the outer lumen is first inserted into the patient's body, followed by the insertion of the inner lumen into the outer lumen of the already cannulated patient until the inner lumen connector unit is in coupling contact with the outer lumen connector unit. Advantages of the inventive cannula presented herein include, among other things, reduction of external forces on the dual lumen cannula.

A subcutaneous tunneling device includes a shaft having a bend, a catheter connector extending from a distal end of the shaft distal of the bend, and a sleeve. The catheter connector can include a body having a gripping portion, and a barbed extension distal of the body configured for insertion into a lumen of a catheter. The sleeve is slidably mounted on the shaft, and has a retracted position exposing the catheter connector to permit a distal end of a catheter to be coupled thereto, and an extended position covering the catheter connector and the distal end of the catheter.

Systems, methods, and articles for providing an antimicrobial composition to the proximal elements of a trans-dermal catheter and into the lumen of the transdermal catheter are disclosed. In an embodiment, an antimicrobial composition on surface a cap element transfers antimicrobial to the proximal end of the transdermal catheter. The system comprises an elongate member configured for insertion into a lumen of a catheter, the elongate member containing an antimicrobial.

The present application includes a sheath that is suitable for use in a variety of medical procedures. In one or more implementations, the sheath includes a shunt member, and a curvable portion. The curvable portion may be configured in various orientations to facilitate an intervention, such as a hemodialysis intervention, or the like, by an operator. The curvable portion may be configured to bend between a substantially straight configuration and a curved configuration. In implementations, the sheath may be configured to have detachable and/or interchangeable components (e.g., shunt member, curvable portion, etc.).

Non-removable connection system (100) for a medical apparatus comprising a first connector (1) comprising a fluid coupling portion (2), a second connector (11) comprising a respective fluid coupling portion (12) connectable to the fluid coupling portion (2) of the first connector (1), wherein the second connector (11) comprises a hooking portion (13) and at least one locking projection (14). The non-removable connection system (100) also comprises a collar (20) coupled to the first connector (1) and comprising a respective hooking portion (23) engageable to the hooking portion (13) of the second connector (11) through an engagement rotation (ER), wherein in a engaged configuration the hooking portions (23, 13) prevent axial removal of the collar (20) from the second connector (11). The collar (20) further comprises respective locking projections (24) engageable to the locking projections (14) of the second connector (11) through the engagement rotation; in a coupled configuration the locking projections (24, 14) prevent a disengagement rotation of the collar (20) with respect to the second connector (11).

A method of operating an extracorporeal blood treatment system to infuse blood into a patient at an end of an extracorporeal blood treatment includes clamping an access line of an arterial line set. The method further includes, after clamping the access line, initiating an operation to generate negative pressure in the arterial line set. The method further includes, after generating the negative pressure in the arterial line set, unclamping the access line to draw fluid in the access line further into the arterial line set in a direction away from an end of the access line that is connectable to an arterial access of the patient. The method further includes initiating an operation of a fluid pump engaged with the arterial line set such that the fluid in the arterial line set is infused into the patient through a venous line set.

Systems, methods, and devices for providing an antimicrobial composition to the proximal elements of a transdermal catheter and into the lumen of the transdermal catheter are disclosed. In an embodiment, the device includes a cap configured to be removably secured to the hub, the cap comprising a ring member comprising first threads for engaging second threads on the hub of the transdermal catheter, the ring member having an opening through its interior; and an insert member secured within the opening of the ring member; wherein the insert member comprises an antimicrobial composition and the ring and insert member do not readily rotate with regard to one another.

An apparatus for delivery of a vascular arteriovenous graft comprises a tubular sleeve defining an interior lumen adapted for being slidably positioned over a tunneling instrument. Once the tunneling instrument has been advanced to a desired subcutaneous anatomical location the shaft is removed while the sleeve remains in the tissue. The sleeve has a linear slit extending from a proximal end to a point intermediate the length of the sleeve. The lumen receives the distal end of the graft and at least a portion of a cannulation chamber such that the end of the sleeve progressively expands along the slit to provide an enlarged diameter for accommodating the cannulation chamber. Longitudinal force to the sleeve during removal of the sleeve from the tissue secures the graft in the sleeve by radial compression of the sleeve for pulling the graft and the sleeve through the tunnel and deploying the vascular graft.