The invention provides a catheter including: a first lumen adapted for draining a first fluid from a subject; a second lumen adapted for passing a second fluid through the second lumen; and a third lumen adapted for passing a third fluid through the third lumen such that the third fluid can exit the third lumen to bathe at least a part of an outside surface of the catheter. The invention further provides a kit and/or system including said catheter and method of use for said catheter.

A cleaning apparatus for an internal bore formed in a feeding tube has a shaft with a distal end and an opposing proximal end. The distal end terminates at a blunt tip and the proximal end terminates at a cap. The shaft has a length such that when inserted into the feeding tube, the cap aligns with a proximal end of the feeding tube and the blunt tip extends only partway out of a distal end of the feeding tube. At least one disc is mounted on the shaft adjacent the blunt tip. Each disc has a diameter equal to or greater than said first diameter of the internal bore so that tip portions of the disc deflect and travel along the internal bore of the feeding tube providing a squeegee-like cleaning action.

The invention comprises an indwelling medical device which is capable of delivering a therapeutic agent evenly along the length of the indwelling portion, including the outer wall, of the device.

The present invention provides a curable calcium phosphate composition for biological hard tissue repair that yields a cured product excellent in durability in a wet environment such as in a body or an oral cavity. The present invention relates to a curable calcium phosphate composition for biological hard tissue repair, including tetracalcium phosphate particles (A), calcium hydrogen phosphate particles (B), calcium carbonate particles (C), and water (D), the curable calcium phosphate composition including 5 to 75 parts by weight of the tetracalcium phosphate particles (A), 10 to 70 parts by weight of the calcium hydrogen phosphate particles (B), and 2 to 50 parts by weight of the calcium carbonate particles (C) per 100 parts by weight of the total of the tetracalcium phosphate particles (A), the calcium hydrogen phosphate particles (B), and the calcium carbonate particles (C).

The present disclosure generally relates to systems and medical sponge for cleaning needleless connectors. A medical sponge can include a shaped foam configured to engage a portion of the needless connector and a disinfecting solution applied to the shaped foam. A system can include the medical sponge and a liquid-impermeable pouch in which the medical sponge is separately retained. The medical sponge can include highly-abrasive and highly-conforming foam material in place of wipes or other sponge products. The foam material may be an open-cell micro abrasive material such as melamine foam. The foam material may contain disinfecting solutions such as isopropyl alcohol, chlorhexidine gluconate, or povidone-iodine.

Methods and devices for actuating a clearance device to clear obstructive debris from medical tubes are disclosed. More particularly, a shuttle that includes a first primary magnetic element that is adapted to magnetically engage and translate a magnetic guide within a tube is disclosed. The first primary magnetic element is aligned so that a first primary magnetic field emanating therefrom is aligned substantially perpendicular to a longitudinal axis of the tube when viewed from a side of the shuttle.

Catheters and a method of preparation thereof, the catheter comprising a catheter body, a juncture hub, extension lines and connectors, the catheter body having a proximal end, a distal end, an exterior surface, a tip region having a length of 10 cm measured from the distal end of the catheter body, and at least two lumen, each of the catheter body lumen having a proximal end, a distal end, a Lumen Aspect Ratio of at least 3:1, and an intraluminal surface, the distal ends of the at least two catheter body lumen being (i) non-coterminus or (ii) laser-cut, the exterior surface of the catheter body in the tip region or the intraluminal surface of the two catheter body lumen comprising a hydrophilic polymer layer having an Average Dry Thickness of at least about 50 nanometers.

The present disclosure generally relates to systems for disinfecting Central Venous Catheter (CVC) system ports that use highly-abrasive and highly-conforming foam material in place of wipes or other sponge products, and methods for using such systems. The foam material may be an open-cell microabrasive material such as melamine foam. The foam material may contain disinfecting solutions such as isopropyl alcohol, chlorhexidine gluconate, or povidone-iodine.

An antimicrobial lubricant applied to an outer surface of an introducer needle as part of a catheter assembly device. The catheter assembly device further includes a blood control septum having a slit through which the introducer needle is threaded. The antimicrobial lubricant is squeegeed, or removed from the outer surface of the introducer needle as the needle is removed from the slit following catheterization. The removed antimicrobial lubricant forms a deposit on the septum at a location proximate to the slit, thereby preventing colonization and growth of pathogens on the septum and other adjacent components and surfaces of the catheter assembly device.

An obturator can include antimicrobial features which assist in sterilizing or maintaining the sterility of fluid contained within a vascular access device while the device is not being used for infusion or other access to the patient's vasculature. These antimicrobial features include antimicrobial coatings applied to various surfaces of an obturator and antimicrobial components bonded or otherwise secured to an obturator. Various combinations of antimicrobial coatings and/or components can be used on an obturator as necessary to provide a desired amount of antimicrobial agents within a particular enclosed volume of a vascular access device.