The present invention relates to a medicinal fluid flow rate control apparatus and a medicinal fluid injector including the medicinal fluid flow control apparatus. The medicinal fluid flow rate control apparatus includes: an operation knob being able to be turned; a plurality of medicinal fluid delivery lines each having an elastically deformable tube and arranged such that the tubes are arranged at different heights at a side from the operation knob; a tube support member supporting the tubes; a medicinal fluid converger converging medicinal fluids from the medicinal fluid delivery lines into one stream; and a pipe switch selectively pressing or releasing the tubes to open or block all of the medicinal fluid delivery lines or block some of the medicinal fluid delivery lines, depending on a rotational angle of the operation knob.

The priming method includes the steps of: in a state where a contrast agent bag containing a contrast agent is coupled to a second tube moving a second piston in a second syringe backward to introduce the contrast agent to the second syringe, and with a first tube kept open, moving the second piston in the second syringe forward to discharge air in the second syringe to the outside and to fill the first tube with contrast agent.

Various methods and devices for performing arthroscopic surgery are provided. In particular, methods and devices are provided for reshaping, unclogging, and vibrating tubing of an aspiration pump in a fluid management system. For example, a fluid management system is provided that includes a valve assembly disposed on a housing and configured to selectively pinch closed tubing disposed within a first pathway and a second pathway. The valve assembly is configured to bias tubing disposed within the first and second pathways to an open position after the tubing is pinched closed by the valve assembly. As another example, a fluid management system is provided that includes a vibratory mechanism coupled to a valve and configured to vibrate the valve so as to facilitate the flow of debris through tubing disposed within first and second tubing pathways.

A pump for treating a patient is disclosed that includes a spring-biased plunger biased toward actuation against a tube; a cam shaft configured to actuate the spring-based plunger; a lever actuatable between a closed position and an open position; a shaft coupled to the lever, the shaft having a central axis centrally along the length of the shaft, the shaft coupled to the lever to rotate around the central axis in accordance with actuation of the lever; and a lift cam pivotally coupled to the shaft, wherein the lift cam pivots around a lift cam axis, the lift cam axis of the lift cam is parallel to the central axis of the shaft, and the lift cam engages with the spring-based plunger to lift the spring-biased plunger off of the cam shaft as the shaft rotates in accordance with actuating the lever to the open position.

The invention relates to an automatic valve for regulating a flow rate of liquid intended to circulate in a flexible tube, comprising: a cam system (23) mounted moveably on a base and rotationally around an axis of rotation, a bearing part (24) translationally mounted on the base, arranged to be translationally moved as a result of a rotational movement of the cam system (23), and comprising a compression portion (240), an abutment part (25) positioned opposite the compression portion (240), defining with the bearing part (24) a receiving space intended to receive a flexible tube (3),
the translation of the bearing part (24) displacing the compression portion (240) along the direction of translation, in order to modify a dimension of the receiving space, a magnet and a magnetic sensor detecting the magnetic field generated by the magnet.

Described herein is an extravasation tester that pinches an infusion line closed between a wheel and a platen, and then peristaltically withdraws fluid into the infusion line as the wheel is rolled away from a puncture site. Extravasation is determined to have occurred if little or no blood appears in a sight chamber positioned near the puncture site when a test fluid is withdrawn into the infusion line from the puncture site.

Flow stop assemblies are described herein. A flow stop assembly configured to control flow through a tubing includes a flow stop base and a pincher. The flow stop base includes a base wall, at least one pincher guard, a tubing guide, a pincher recess, a pincher protrusion, and a base extension. The pincher is movable relative to the base extension and is configured to move between a flow position and an occlusion position, wherein in the flow position the pincher surface is spaced apart from the pincher protrusion and in the occlusion position, the pincher surface is disposed adjacent to the pincher protrusion and is configured to obstruct flow through the tubing.

A pump for treating a patient is disclosed that includes a spring-biased plunger biased toward actuation against a tube; a cam shaft configured to actuate the spring-based plunger; a lever actuatable between a closed position and an open position; a shaft coupled to the lever, the shaft having a central axis centrally along the length of the shaft, the shaft coupled to the lever to rotate around the central axis in accordance with actuation of the lever; and a lift cam pivotally coupled to the shaft, wherein the lift cam pivots around a lift cam axis, the lift cam axis of the lift cam is parallel to the central axis of the shaft, and the lift cam engages with the spring-based plunger to lift the spring-biased plunger off of the cam shaft as the shaft rotates in accordance with actuating the lever to the open position.

Keep vein open (KVO) infusion flow control devices are provided. The KVO infusion flow control device couples to intravenous (IV) tubing and includes a flow controller that provides a full open fluid flow rate through an outlet portion of the IV tubing when the flow controller is in an open position, and a KVO fluid flow rate through the outlet portion of the IV tubing when the flow controller is in a KVO position. Visual indicators are disposed on the KVO infusion flow control device.

Flow stop assemblies are described herein. A flow stop assembly configured to control flow through a tubing includes a flow stop base and a pincher. The flow stop base includes a base wall, at least one pincher guard, a tubing guide, a pincher recess, a pincher protrusion, and a base extension. The pincher is movable relative to the base extension and is configured to move between a flow position and an occlusion position, wherein in the flow position the pincher surface is spaced apart from the pincher protrusion and in the occlusion position, the pincher surface is disposed adjacent to the pincher protrusion and is configured to obstruct flow through the tubing.