A kit may include a syringe; and a mixing device. The syringe may have a barrel, a plunger, a tip, and a foamable therapeutic disposed in the barrel. The mixing device may have (A) a syringe body and a mixing tip fluidly coupled to an interior of the syringe body, and a plunger and spring disposed within the syringe body; (B) a mixing channel, a supply channel and a delivery channel; wherein one end of the mixing channel is coupled to the mixing tip and one end of the supply channel includes a connector for removably coupling to the syringe; (C) a three-way valve that is configured to selectively couple an opposite end of the mixing channel, an opposite end of the supply channel and the delivery channel to one or more of the other; and (D) a mixing element disposed in the mixing channel.

The package comprises a sterile bag filled with liquid diluent, a bottle equipped with a pierceable cap to contain a medicinal substance and a tube extending from the bag and having a coupling and perforation device for the cap. The bag is housed in a first casing, while the bottle and the coupling and perforation device are in a second casing. The tube has a portion, housing a flow diverter adjustable from a first position which impedes any communication between the bottle and the bag, a second position which allows the bag to be put in communication with a sealed side opening for a syringe, or a third position which allows the bottle to be connected with said side opening. Another side opening of the flow diverter a flexible tube with hydrophobic filter is attached, terminating into one of said sterile sealed casings and serving as a pressure compensator.

An example of an electronic medical fluid transfer device can comprise a fluid transfer module with a multidirectional flow control valve and an intermediate container or pumping region, a sensor configured to detect whether at least one of a vacuum or gas is present in the fluid transfer module, a first electromechanical driver configured to interface with and control the multidirectional flow control valve on the fluid transfer module, a second electromechanical driver configured to be mechanically linked to and control the intermediate container or pumping region according to an operational parameter, and one or more computer processors configured to communicate electronically with the sensor and the first and second electromechanical drivers to determine the operational parameter based on a flow characteristic of medical fluid to be transferred and adjust the operational parameter based on output of the sensor.

Some embodiments disclosed herein related to a device for transferring precise amounts of fluid from at least one source container to at least one target container. In some embodiments, the fluid is first transferred from the source container (e.g., a vial) through a connector to an intermediate measuring container (e.g., a syringe). In some embodiments air can pass through an air inlet and enter the vial to compensate for the volume of fluid withdrawn from the vial. An air check valve or a bag or a filter can prevent the fluid from escaping through the air inlet. The precisely measured amount of fluid can then be transferred from the intermediate measuring container to the target container (e.g., an IV bag). In some embodiments the connector can include a source check valve and a target check valve to direct fluid first from the source container to the intermediate measuring container and then from the intermediate measuring container to the target container. Some embodiments of the device can include a motor and a controller for automatically actuating a plunger of the syringe to transfer the desired amount of fluid.

A drug mixing system including at least one receptacle port adaptor adapted to be inserted into a port of a fluid receptacle, at least one syringe adaptor adapted to be attached to a syringe and to the at least one receptacle port adaptor and at least one vial adaptor adapted for connection to a vial containing a drug and adapted for connection to the at least one syringe adaptor, the system being characterized in that at least one of the receptacle port adaptor, the at least one syringe adaptor and the at least one vial adaptor being vented to the atmosphere in a manner which prevents release to the atmosphere of possibly harmful contents of the vial in a liquid, solid or gaseous form.

An infusion apparatus including a body having an infusion reservoir and one end of the body adapted to receive a pierceable end of a vial, a barrel rotatably disposed in an opposing end of the body and having an internal fluid chamber, and a plunger received in one end of the barrel, wherein the barrel rotates relative to the body between a first position allowing bi-directional fluid flow between the barrel and the vial, and a second position allowing bi-directional fluid flow between the barrel and the infusion reservoir, and wherein the plunger is movable relative to the barrel to control the bi-directional fluid flow between the barrel and the vial and the bi-directional fluid flow between the barrel and the infusion reservoir.

The invention regards a device for reconstituting a bioactive agent and forming a paste, the device comprising: —a container (2) containing the bioactive agent, —a first syringe (4) containing a liquid, —a second syringe (5) containing a paste forming material, —a connector element (6) configured for establishing sequential fluid connections between 1) the first syringe and the container, 2) the container and the second syringe, and 3) the first and second syringes, such that the liquid can be transferred from the first syringe to the container to reconstitute the bioactive agent, whereupon the reconstituted bioactive agent can be transferred from the container into the second syringe to form a paste, and the paste can be transferred to the first syringe.

The invention relates to a valve unit for a system for producing parenteral nutrition, in which unit a three-way valve is used for each pair of connections to a source container. The valve unit is a component that can be mounted on die system and removed again after use. The valve unit is in particular provided as an interchangeable disposable component.

The invention relates to an installation for producing a medical preparation, in particular for producing a preparation for parenteral nutrition. Liquids are transferred by means of the installation from a plurality of source containers to a target container. The installation comprises a receptacle with drivers for a valve block, wherein the drivers of the valves are arranged offset from one another.

Some embodiments disclosed herein related to a device for transferring precise amounts of fluid from at least one source container to at least one target container. In some embodiments, the fluid is first transferred from the source container (e.g., a vial) through a connector to an intermediate measuring container (e.g., a syringe). In some embodiments air can pass through an air inlet and enter the vial to compensate for the volume of fluid withdrawn from the vial. An air check valve or a bag or a filter can prevent the fluid from escaping through the air inlet. The precisely measured amount of fluid can then be transferred from the intermediate measuring container to the target container (e.g., an IV bag). In some embodiments the connector can include a source check valve and a target check valve to direct fluid first from the source container to the intermediate measuring container and then from the intermediate measuring container to the target container. Some embodiments of the device can include a motor and a controller for automatically actuating a plunger of the syringe to transfer the desired amount of fluid.