A liquid transfer device includes a monolithic trifurcated connector body defining a barrel at a first end thereof, a single IV spike at a second end thereof and a vial adapter lumen at a third end thereof. An IV port is connected to the barrel. The single IV spike has a first IV spike lumen fluidly connected at a proximal end thereof with only the vial adapter lumen via the trifurcated connector body and a second IV spike lumen fluidly connected at a proximal end thereof with only the IV port via the trifurcated connector body, thereby separating fluid communication between the vial adapter and the single IV spike from fluid communication between the IV port and the single IV spike.

This CIP, Continuation-in-part, presents constructive details of the material contained in the original document BR 10 2016 016091-0 and not specified until then, and the valve (3) can also be used in transfers, dilution and drip chamber and medicine bottles, vaccines and related, the valve (3) has five basic components: conical base (4), which receives in its interior the assembly of the second component, which is the conical movable part (7); the conical base (4) which receives in its core (16) the assembly of the third component which is a smaller diameter o-ring sealing ring (13); on the other hand, the conical movable part (7) receives in its lower groove (14) the assembly of the fourth component, which is a larger diameter o-ring sealing ring (12); the conical base (4) receives the assembly of the fifth component which is the cap (10), which protects the thread in the luer-lock pattern (8); the cover (10) prevents the separation of the conical movable part (7) in relation to the conical base (4); the movable conical part (7) has a surface (22) with an angulation (X), equal to that verified on the inner surface (27) of the conical base (4); the constructive variation of the valve (3a) is fixed to the mouthpiece (6a) of the bottle (F) through its conical base (4), this adjusted to the diameter of the bottle, keeping the valve system unchanged; in addition, the cover (10) of the valve (3a) presents a constructive variation (not shown) formed by a cylindrical body, internally threaded, provided with a lower ring connected to the cover body through a plurality of breaking points, welding points plastic or shrink.

A carousel configured to house a plurality of pump cartridges for a compounder system is provided. The carousel may include a plurality of cartridge pockets each having an extended portion that covers a portion of a cartridge and a bottom surface Shaving an extension with a recess. The bottom surface recess of each cartridge pocket may be shaped and sized to receive a needle housing of a pump cartridge in the cartridge pocket. A recess may be provided in the extended portion of each pocket that receives a protrusion that extends from a top surface of a backpack coupled to the pump cartridge to secure the pump cartridge in the cartridge pocket. The bottom surface recess may have an additional bottom surface that prevents actuation of the needle housing of the pump cartridge.

A sampling device including a body (101) having a sampling chamber (102) adapted to receive a liquid (103) to be sampled. An inlet (104) on the body (101) allows liquid (103) to flow into the sampling chamber (102). A sampling port (105) on the body is adapted to receive a sampling pot or sample receiving container (106) for collecting liquid (103) from the sampling chamber (102) wherein the sampling port includes a safety shield (107) slidaby mounted to the inside (108) of the sampling port, the safety shield slidable between a blocking position in which access to the sampling chamber is restricted and an accessible position in which access to the sampling chamber is allowed.

The present relates to a component mixing device comprising a central unit (10) and a disposable cartridge, said central unit (10) comprising a control unit, a plurality of vial positioning elements (13) and a cavity 14 for receiving said disposable cartridge, and said disposable cartridge (20) comprising a tubing circuitry adapted to put the components housed in said plurality of vials into communication for mixing, characterized in that the mixing device is adapted to put each vial into communication with each other through said tubing circuitry of said disposable cartridge (20) and mixing said components through an compressed air mechanism (12) located in said central unit (10) and controlled by said control unit.

A method of powderizing a dry cake pharmaceutical drug product for injection within a vial may include securing a vial containing a dry cake pharmaceutical drug product for injection to a shaker device and powderizing the dry cake pharmaceutical drug product within the vial by shaking the vial with the shaker device operated at between about 100 to about 5000 cycles per minute for between about 10 minutes and about 1 hour.

According to the present invention, a packing member (20) is disposed between a mouth portion (2b) of a container body (2) and a lid base portion (5). A crushing protrusion (20b) which protrudes downward and is crushed to an upper end opening edge of the container body (2) is formed on a lower surface of the packing member (20). An overhang recess (20c) which is at least partially located just above the crushing protrusion (20b) is formed on an upper surface of the packing member (20). After the lid base portion (5), the movable lid portion (6) and the syringe tube (8) are detached from the container body (2), when mounting again, until a crushing protrusion (20b) is crushed, the packing member (20) forms a communication gap (30) between the mouth portion (2b) of the container body (2) and the packing member (20).

An assembly for mixing drug components includes a housing to at least partially hold a first drug component container and a second drug component container. The assembly also includes a transfer member having first and second ends to fluidly couple the respective first and second drug component containers. The assembly further includes a pressure member to fluidly couple the first drug component container to a pressure generation chamber. In addition, the assembly includes an energy storage member to generate pressure in the pressure generation chamber to transfer a fluid from the first drug component container into the second drug component container. Moreover, the assembly includes an exit member to fluidly couple the second drug component container to an exterior of the assembly.

A body-fluid-and-medication leak-proof and closed medical connector has a first connecting assembly and a second connecting assembly. The first connecting assembly has a first sleeve and a first resilient valve. The first resilient valve tends to seal a first opening of the first sleeve. The second connecting assembly has a second sleeve and a second resilient valve. The second resilient valve tends to seal a second opening of the second sleeve. The two resilient valves can avoid leakage of the medication remaining in an injector and a vial, or remaining in a fluid infusion tube and a catheter. The two resilient valves also can seal in two directions to avoid leakage during connecting or separating the two connecting assemblies after supplying medication. Therefore, the transfer of the medication is more hygienic and safe, and the waste of medical resources is effectively reduced.

An automatic drainage device comprises a drainage container separated by a partition plate into a fluid storage cavity provided with a connecting pipe and a fluid discharge channel provided with a fluid discharge outlet. The partition plate is provided with a fluid drainage outlet that connects the fluid storage cavity to the fluid discharge channel. The device further comprises a movable gasket disposed below the partition plate for closing the fluid drainage outlet, and a control device comprising a remote control receiving module or a control device configured to monitor a liquid level in the fluid storage cavity, to move the movable gasket to open or close the fluid drainage outlet. The automatic drainage device remotely activates the control device by a remote control receiving module or by monitoring the status of the liquid level, to control the opening and closing of the fluid drainage outlet.