Provided herein is a method and apparatus for venting of intravenous tubing to remove air bubbles, and more particularly, to a venting valve that allows air bubbles to escape along a venting path while not permitting fluid passage through the venting path. An example air extraction device may include: a chamber; a fluid inlet to convey fluid from intravenous tubing into the chamber; a fluid outlet to convey fluid from the chamber to intravenous tubing for supplying to a patient; a top portion of the chamber; a branch tube extending from the top portion of the chamber, where the branch tube receives air from the fluid in the chamber; and a ball received within the chamber, where the ball is configured to rise with an influx of fluid to the chamber from the fluid inlet and to seal off the branch tube from the chamber in response to the fluid level rising to the top portion of the chamber.

A unilaterally driven drug infusion device includes: a reservoir, a piston and a screw, the piston connected with the screw and arranged in the reservoir; a driving unit including rotating shaft and driving member, and the driving member including driving end; driving wheel provided with wheel teeth; a linear actuator and a reset unit respectively connected to the driving member; and at least two blocking walls, arranged at one side of the driving unit to limit the advancing position of the driving unit. The infusion device is able to precisely control the rotation amplitude of the driving member and improve the infusion accuracy of the infusion device. The user or the closed-loop system is able to flexibly select different infusion modes to precisely control the body fluid level to meet the needs of the body, improving user experience.

A catheter system may include a luer adapter, which may include an outer surface having threading or a recess. The catheter system may also include a flow control plug, which may include a proximal end and a distal end. The proximal end of the flow control plug may include a filter element permeable to air and not to blood. The distal end of the flow control plug may include a cylinder and a taper-shaped luer tip spaced apart from the cylinder. An inner surface of the cylinder may include a protrusion engaged in a snap-fit with the recess or corresponding threading mated with the threading.

A catheter system may include a luer adapter, which may include an outer surface having threading or a recess. The catheter system may also include a flow control plug, which may include a proximal end and a distal end. The proximal end of the flow control plug may include a filter element permeable to air and not to blood. The distal end of the flow control plug may include a cylinder and a taper-shaped luer tip spaced apart from the cylinder. An inner surface of the cylinder may include a protrusion engaged in a snap-fit with the recess or corresponding threading mated with the threading.

Medical devices capable of filling liquid into a syringe barrel while evacuating any air from the syringe are described. An exemplary medical device includes a syringe barrel having a tapered sidewall portion for permitting air to vent from the chamber and preventing liquid from exiting the chamber, a plunger rod, and stopper. Another exemplary medical device includes a syringe barrel having a plurality of air venting grooves associated with the sidewall of the barrel, a plunger rod and stopper. Also described is a medical device including a syringe barrel, plunger rod and stopper having a porous plug. Described is a medical device including a syringe barrel having a plurality of air venting grooves associated with the sidewall of the barrel and a porous membrane disposed over the air venting grooves, a plunger rod and stopper. Methods for filling a syringe barrel with a liquid are also provided.

Medical devices capable of filling liquid into a syringe barrel while evacuating any air from the syringe are described. An exemplary medical device includes a syringe barrel having a tapered sidewall portion for permitting air to vent from the chamber and preventing liquid from exiting the chamber, a plunger rod, and stopper. Another exemplary medical device includes a syringe barrel having a plurality of air venting grooves associated with the sidewall of the barrel, a plunger rod and stopper. Also described is a medical device including a syringe barrel, plunger rod and stopper having a porous plug. Described is a medical device including a syringe barrel having a plurality of air venting grooves associated with the sidewall of the barrel and a porous membrane disposed over the air venting grooves, a plunger rod and stopper. Methods for filling a syringe barrel with a liquid are also provided.

Systems and methods are provided for removing air from a medical device, such as a stent-graft and/or its delivery device. In an exemplary embodiment, the stent-graft or its delivery system or both are exposed to perfluorocarbon, by immersing the stent-graft or flushing the delivery device to remove air from the stent-graft. Optionally, the stent-graft and/or delivery system may be flushed multiple times, e.g., with perfluorocarbon before or after flushing with carbon dioxide, saline, a bio-inert gas, and the like. Thereafter, the stent-graft may be introduced into a patient's body and deployed at a target location, such as the site of an abdominal aortic aneurysm.

Systems and methods are provided for removing air from a medical device, such as a stent-graft and/or its delivery device. In an exemplary embodiment, the stent-graft or its delivery system or both are exposed to perfluorocarbon, by immersing the stent-graft or flushing the delivery device to remove air from the stent-graft. Optionally, the stent-graft and/or delivery system may be flushed multiple times, e.g., with perfluorocarbon before or after flushing with carbon dioxide, saline, a bio-inert gas, and the like. Thereafter, the stent-graft may be introduced into a patient's body and deployed at a target location, such as the site of an abdominal aortic aneurysm.

A fluid injection system includes an injector housing, a sleeve, and a lighting assembly. The sleeve is coupled to the injector housing and is configured to receive and secure a fluid reservoir. The lighting assembly is coupled to the injector housing. The lighting assembly includes a light source configured to illuminate an interior of the fluid reservoir by directing light emitted by the light source into the fluid reservoir.

A distal end portion of an elongate shaft member of a catheter may be inserted into a liquid within a vessel. While the distal end portion of the elongate shaft member is inserted in the liquid in the vessel, a manipulable portion of the catheter may be manipulated within the liquid to remove an undesired fluid therefrom. The liquid may be pressurized to cause the liquid to flow into a lumen of the elongate shaft member from a distal end of the elongate shaft member at least toward a proximal end of the elongate shaft member to facilitate flushing of the undesired fluid from the lumen. The distal end portion of the elongate shaft member of the catheter may be inserted into the liquid within the vessel while at least the elongate shaft member is in a substantially horizontal orientation.