Disclosed is a plastic cap useful for steadfastly maintaining a sealed state created in a container having a mouth with an opening by sealing the opening with a sealing member. The cap has a cap main body and a cover portion integrated with the main body via at least one bridge portion. The main body has a base portion and a top wall. The bridge portion is formed of a synthetic plastic filled in at least one fusion-bonding hole having a diameter of from 0.3 to 3 mm and arranged extending through at least one, preferably one of the main body or cover portion such that the main body and cover portion are integrally fusion-bonded by the bridge portion and the cover portion can be separated from the main body by breaking the bridge portion with hands. A production method of the plastic cap is also disclosed.

A container has an at least partially filled container body and at least one cap part (10). The cap part has at least one sealing part (16) that, for removal of the container contents, can be penetrated by a hollow-spike-shaped insertion part (22) from the outside, with a predeterminable actuating force, in an introduction direction. The insertion part can be removed from the container again, with a predeterminable pull-out force, in an oppositely directed pull-out direction. A device (16, 18) makes it difficult for the insertion part (22) to be removed with the pull-out force being increased such that unintentional removal of the insertion part (22) is at least made difficult.

A disposable container for containing a patient-customized medicinal fluid as a flowable material, which is adapted to dispense and seal the flowable material, the disposable container including: a plurality of container portions adapted to form spaces containing the flowable material; a bonding portion extended from tops of the container portions in such a manner as to come into contact with a surface of a film protecting the flowable material from the outside; and discharge portions extended from undersides of the container portions in such a manner as to be separable from the containing portions to discharge the flowable material to the outside, wherein the bonding portion connects the container portions with each other.

A drug-filled synthetic resin ampule includes an ampule body and a drug 8 filled in the ampule body. The ampule body includes a tip-side sealing portion, a hollow portion, and an annular breakable portion provided between the tip-side sealing portion and the hollow portion. The tip-side sealing portion includes a flat plate portion for grasping formed at an upper portion thereof, and an internal ceiling portion exposed to the interior of the hollow portion. The breakable portion includes an annular smallest diameter portion, and the smallest diameter portion is located near an annular circumferential edge portion of the internal ceiling portion and is located above the annular circumferential edge portion of the internal ceiling portion.

Aspects of the present invention are directed to an individual dose pack. The individual dose pack may comprise a single serving pod and an overwrap surrounding the entirety of the single serving pod and sealing the single serving pod therein, wherein the overwrap is child-resistant and creates an impermeable barrier being resistant to the passage of liquids and gases. The single serving pod may include a cup, at least one pharmaceutical active ingredient provided in the cup, and a lid affixed to the cup. The overwrap is a multi-layer structure including a first layer being a biaxially-oriented polyethylene terephthalate layer, a second layer being a polyethylene layer, a third layer being an aluminum foil layer, and fourth layer being an ionomer layer.

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.

A container, in particular an ampule, of a plastic material having a container part (10) for receiving the contents of a containers (14) dispensed via a container opening (12), which is closed by a head part (18) that can be separated along a separation line (16,) which is adjoined by a neck part (20), which has a plurality of different functional surfaces on the inner circumference, of which one functional contact surface (44) is used to seal against a withdrawal body (32), which is provided for withdrawing the contents of a container (14) when the container opening (12) is opened, wherein in addition to the existing functional surfaces a lead-in area (50) is provided as a further functional surface on the interior of the neck part (40), which differs geometrically from the functional contact surface (44), is characterized in that the lead-in area (50) seamlessly merges into the functional contact surface (44) and that the lead-in area (50) and the functional contact surface are located between the other functional surfaces (44) in the neck part (20).

The invention relates to a method and to a device for filling a medical packaging formed as a pouch. Preferably, the packaging is filled with liquid via a port, wherein the port is aerated with a protective gas, such as nitrogen, for example, during filling According to the invention, prior to filling with liquid, the packaging is filled with an inert gas, such as nitrogen, for example, which then provides the headspace of the filled and closed pouch. This results in a particularly low oxygen content in the headspace of the pouch.

The present invention relates to an overcap intended for a pharmaceutical container, in particular a container for an infusion solution or an injection solution, having a receptacle containing at least one preproduced closure stopper accommodated therein, the stopper consisting of a soft plastic material, optionally after pulling off a protective covering, for insertion of a withdrawal cannula, a spike and/or a transfer set.

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.