A container for a solution of human plasma proteins has a primary inner bag made up of a first multilayer polymer film with two outer layers of polyethylene (PE) and an intermediate layer of ethylene vinyl alcohol (EVOH) copolymer, and a secondary outer bag made up of a second multilayer film with layers of polyethylene terephthalate (PET)-silicon oxides (SiOx), oriented polyamide (OPA), polypropylene (PP)-silicon oxides (SiOx) and polypropylene (PP), referred to as multilayer PP-SiOx.

The present invention provides, for example, a protective cover composition used for preparing a cap, the cap including a cap body and a protective cover. The protective cover composition is used for preparing the protective cover, includes a styrene-based block copolymer including a styrene monomer as a constituent unit. A content ratio of the styrene monomer is 10 to 60% by mass.

Disclosed is a method and a system for producing an ampoule filled with a medical liquid. A preform is produced by plastic injection moulding that is then inhomogeneously heated and blown to form an ampoule body. Further disclosed is an ampoule produced by means of stretching and blowing, which comprises a connector with a break-off part in which the predetermined breaking point is aligned with the septum of the connector.

A dispenser (1) for liquids includes a reservoir (100) defining a volume (V100) for housing a liquid (150); a delivery tube (200) with a first end (201) attached to the reservoir, and a second end (202) distal from the reservoir, the delivery tube including a passage (203) in fluid communication with the volume of the reservoir and extending away from the reservoir; an applicator element (300) including an applicator tip (320) and a base (310) attached to the second end of the delivery tube, the applicator tip having a plurality of fingers (322) extending away from the base to a distal end of the applicator element distal from the delivery tube; and a removable seal (340), wherein removal of the removable seal creates an opening in the passage at a location upstream of the applicator tip and a fluid distribution channel between the fingers.

Provided is a cap including: a cap body; a protective cover; and an attaching device for attaching the protective cover and a top plate of the cap body to each other. The top plate includes: a through hole; and a top plate annular portion. The protective cover includes a cover body having a lower surface arranged away from the top plate. The attaching device includes a cover attaching portion formed into an annular shape around the through hole and projecting from the lower surface of the cover body toward the top side of the top plate annular portion or from the top side of the top plate annular portion toward the lower surface of the cover body to attach the protective cover and the top plate to each other.

The present invention provides an integrated infusion system having a drug vial container adapted to hold a drug vial, the drug vial container having a drug vial holder element and a holder cap element, wherein the drug vial holder element and the holder cap element are fused together forming a seal; and a chemical indicator inside the drug vial container for sterility verification.

An apparatus and method of using a device for dispensing fluid comprising a flexible and collapsible container, a fluid dispenser pump connected to the flexible and collapsible fluid container configured to draw fluid from the flexible and collapsible fluid container into the fluid dispenser pump and to dispense fluid through a fluid delivery channel to an exit port upon actuation of the pump. The dispenser pump having an actuator comprising a dose delivery button, and a sensor located in the apparatus and configured to actuate the dispenser pump upon physical contact of the dose delivery button by a user.

The present disclosure relates to systems that rely on a self-locking cover to limit access to narcotics. A self-locking cover may allow for a single access opportunity to a narcotics vial, which may be one or both original vials and waste vials. In some aspects, a self-locking cover may be incorporated into narcotics transportation and tracking mechanisms, which may allow for to increased security against tampering or abuse of narcotics, particularly narcotics waste. Self-locking covers may prevent uninhibited and free access to waste narcotics, which may be susceptible to abuse.

The invention relates to a medical package designed as an infusion bag, which medical package is made from multi-layer films that are welded to one another and is filled with a medical liquid for infusion and/or for parenteral nutrition. The invention is described by a medical package designed as an infusion bag, which is made up of a film comprising multiple layers welded to one another and has at least one weld seam, preferably longitudinal and transverse weld seams, and is filled with a medical liquid. The multi-layer film has at least one inner layer of a matrix-phase polymer system, an intermediate layer of a matrix-phase polymer system, and an outer layer of a matrix-phase polymer system. The matrix polymer of the matrix-phase polymer system of the inner layer, the intermediate layer and the outer layer in each case comprises a polypropylene polymer (PP) having defined parts by weight in the individual layers, and the phase polymer of the matrix-phase polymer system of the inner layer, the intermediate layer and the outer layer in each case comprises a styrene-ethylene/butyl-styrene block copolymer (SEBS) having defined parts by weight in the individual layers. The film is characterised in that the styrene-ethylene/butyl-styrene block copolymer (SEBS) of the intermediate layer has a styrene-ethylene/butylene ratio (S/EB.sub.M) and the styrene-ethylene/butylene-styrene block copolymer (SEBS) of the outer layer has a styrene-ethylene/butylene ratio (S/EB.sub.A), in which S/EB.sub.A>S/EB.sub.M. It has been shown that in this way the mechanical properties of the multi-layer film can be improved, in particular in the event of expansion of the multi-layer film in the region of the weld seams. The improved mechanical properties appear both at room temperature and also at lower temperatures of down to 4° C.

The present invention relates to an injection port for connecting with a container, such as a medical fluid container. The injection port includes a barrel, a septum, and a cap, which are sequentially formed via a three-shot injection molding process. The present invention further relates to an assembly that includes the injection port connected to a container. Further, the present invention relates to a method of making the injection port utilizing a three-shot injection molding process.