A method for administering successive dosages of a medical fluid from a fluid injection device to a patient via an IV set during a medical procedure comprising: obtaining an IV set having a primary flow line defining a primary fluid path, and an access point defining an access port; establishing a fluid connection with a primary fluid in a fluid source with the primary fluid path; connecting a fluid injection device (e.g., syringe) to an unidirectional access port assembly comprising an anti-backflow device; injecting a first dosage of a secondary fluid (medication) from the fluid injection device into through an anti-backflow device (e.g., one-way check valve) and into the primary fluid path; maintaining the connection of the fluid injection device to the unidirectional access port assembly; and injecting a second dosage, or n number of additional dosages, of the secondary fluid through the anti-backflow device. Associated devices and systems are disclosed.

A siphon guard includes a housing having an inlet and an outlet. A primary flow path is disposed within the housing and is in fluid communication with the inlet and the outlet. A secondary flow path is disposed within the housing and is in fluid communication with the inlet and the outlet. The secondary flow path has a higher resistance to fluid flow than the primary path. A valve is disposed within the primary flow path. The valve has a valve seat and a first ball and a second ball. The first ball is movable by gravity between a valve closed position, where the first ball is in contact with the valve seat, and a valve open position, where the first ball is spaced from the valve seat. The first ball is disposed between the second ball and the valve seat. The second ball is movable by gravity between a valve closed position and a valve opened position.

Disclosed herein is a temporary knee spacer system for the temporary replacement of a knee joint, which is designed for the interim phase of two-stage septic revisions of knee joint total endoprostheses. The knee spacer system can be used in particular with two-phase septic revisions with which two or more microbial germs are the cause of an infection of the knee joint total endoprosthesis and the surrounding tissue.

A drug delivery device includes a housing defining a shell and an inner volume, a container, a drive mechanism, a needle assembly, a fluid flow connection, and a backflow prevention mechanism. The container has an inner volume to contain a medicament to be administered to a user. The drive mechanism is at least partially disposed within the housing and exerts a force to urge the medicament out the container. The fluid flow connection is coupled to the container and the needle assembly and allows the medicament to flow from the container to the needle assembly to be administered. The backflow prevention mechanism is associated with at least one of the container, the fluid flow connection, or the needle assembly and includes at least one flow restrictor to restrict a fluid from flowing from the needle assembly to the container.

A flow selector valve assembly for an enteral feeding pump system (i.e., an enteral feeding pump system including a fluid delivery set with first and second feeding tubes, an enteral feeding pump and a pinching mechanism for regulating the flow of nutrient formula or water out of the first and second feeding tubes), and a twin port adapter for use in the valve assembly. The twin port adapter includes a body configured to receive the first and second feeding tubes therein, and a feeding tube guide rotatably connected to the body and configured to secure the first and second feeding tubes within the body.

A surgical apparatus of the present disclosure includes a wound retractor having a specimen bag attached thereto. Kits of the present disclosure include the surgical apparatus and a vacuum tube. In embodiments, the vacuum tube may be introduced into a lumen of the wound retractor. A vacuum source is attached to a proximal end portion of the vacuum tube to draw a vacuum through the vacuum tube, which in turn draws a tissue specimen into the lumen of the vacuum tube through an opening in the distal end portion of the vacuum tube. The vacuum tube, possessing the tissue specimen therein, may then be removed from the wound retractor. Methods for using the surgical apparatus and/or kits of the present disclosure are also provided.

Disclosed is a conduit that is adapted to be positioned in the myocardium to provide a passage for blood to flow from a heart chamber to a coronary artery. The conduit has a sphincter to open or close the passage in response to an electric current applied from a control unit and a one-way valve positioned therein to prevent the backflow of blood from the coronary artery into the heart chamber. Also disclosed is an implantable system or device comprising the conduit, a sensor unit to measure at least one physiological condition and a control unit to analyze signals form the sensor unit and open the sphincter for improving coronary blood flow in order to increase myocardial oxygen delivery during periods of high myocardial demand.

An implantable medical pump system configured to selectively permit access to a medicament reservoir by way of at least one contactless key, including an implantable medical pump having an medicament reservoir fluidly couple to an access port via a conduit including an access valve, and at least one contactless key configured to impart a magnetic field upon a portion of the implantable medical pump to manipulate the access valve between a closed position isolating the medicament reservoir from the access port, and an open position fluidly coupling the medicament reservoir to the access port.

In a first aspect, the present invention is directed to a reversible hydraulic nozzle that includes a front body section, which includes a hydraulic orifice, and a rear body section, which includes a rear opening. The reversible hydraulic nozzle is configured to be in fluid communication with an outlet valve of a hydraulic device in each of a dispensing orientation and a cleaning orientation. In a second aspect, the present invention is directed to a hydraulic device that includes an outlet valve and the reversible hydraulic nozzle of the first aspect of the present invention. The present invention is further directed to using a needle-free injection device that includes the reversible hydraulic nozzle of the first aspect of the invention to perform a method of injection and a method of cleaning the reversible hydraulic nozzle.

Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir.