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.

A packaging device is configured to support medical containers, the packaging device including a first nest including a first set of supporting units configured to support a proximal end of a first plurality of medical containers and a second nest including a second set of supporting units configured to support a proximal end of a second plurality of medical containers. The first set of supporting units and the second set of supporting units being configured to maintainer the first plurality of medical containers and the second plurality of medical containers in an inverted position relative to each other. The first nest further comprises apertures configured to maintain a distal end of the second plurality of medical containers while the second nest comprises apertures configured to maintain a distal end of the first plurality of medical containers.

A packaging device is configured to support medical containers, the packaging device including a first nest including a first set of supporting units configured to support a proximal end of a first plurality of medical containers and a second nest including a second set of supporting units configured to support a proximal end of a second plurality of medical containers. The first set of supporting units and the second set of supporting units being configured to maintainer the first plurality of medical containers and the second plurality of medical containers in an inverted position relative to each other. The first nest further comprises apertures configured to maintain a distal end of the second plurality of medical containers while the second nest comprises apertures configured to maintain a distal end of the first plurality of medical containers.

A transport unit for a packaging structure for a plurality of containers for substances for pharmaceutical, medical or cosmetic uses includes a tray with a plurality of seats for positioning the containers and a planar inlay part for covering the containers positioned in the seats of the tray. The inlay part is configured to cover the containers positioned in the seats and at the same time to be received completely in the tray, without protruding above an upper edge of the tray. A plurality of depressions corresponding to the seats of the tray are formed in the inlay part, in order to position the containers at their two ends lying opposite each other. A gap is formed at least partially between the inlay part, received in the tray, and side walls of the tray.

A transport unit for a packaging structure for a plurality of containers for substances for pharmaceutical, medical or cosmetic uses includes a tray with a plurality of seats for positioning the containers and a planar inlay part for covering the containers positioned in the seats of the tray. The inlay part is configured to cover the containers positioned in the seats and at the same time to be received completely in the tray, without protruding above an upper edge of the tray. A plurality of depressions corresponding to the seats of the tray are formed in the inlay part, in order to position the containers at their two ends lying opposite each other. A gap is formed at least partially between the inlay part, received in the tray, and side walls of the tray.

A lockable vial sleeve assembly includes a sleeve configured to house a vial, the sleeve defining a body and a first opening provided at one end of the body, the first opening configured to receive the vial therethrough. A locking member is configured to pivotably lock to the sleeve adjacent the one end. The vial is insertable into the body through the first opening, and in response to the locking member being pivotably locked to the sleeve, the locking member at least partially closes the first opening to restrict withdrawal of the vial through the first opening.

An envelope is configured to hold, support, and protect an article such as a blood bag during transportation under cryogenic temperatures. The envelope includes a single piece component (e.g., a monolithic component), including multiple panels that are configured to fold to form an enclosure that surrounds the article such as the blood bag for support and protection of the article such as the blood bag.

An envelope is configured to hold, support, and protect an article such as a blood bag during transportation under cryogenic temperatures. The envelope includes a single piece component (e.g., a monolithic component), including multiple panels that are configured to fold to form an enclosure that surrounds the article such as the blood bag for support and protection of the article such as the blood bag.

A vial blinding assembly includes a vial having a bottle with a constricted neck and an annular shoulder that inwardly extends; a stopper disposed on an opening of the bottle and having a septum with a top surface; and a retainer securing the stopper to the bottle. A tubular blinding shell encircles a compartment that extends between a first end with an inlet opening and an opposing second end with an access opening. A floor plug is secured to the first end of the blinding shell. The vial is disposed within compartment of the blinding shell with the vial being supported by the floor plug and the neck passing through the access opening so that the top surface of the septum is disposed outside of the compartment of the blinding shell, the shoulder of the vial having an outside diameter larger than a diameter of the access opening.

A vial blinding assembly includes a vial having a bottle with a constricted neck and an annular shoulder that inwardly extends; a stopper disposed on an opening of the bottle and having a septum with a top surface; and a retainer securing the stopper to the bottle. A tubular blinding shell encircles a compartment that extends between a first end with an inlet opening and an opposing second end with an access opening. A floor plug is secured to the first end of the blinding shell. The vial is disposed within compartment of the blinding shell with the vial being supported by the floor plug and the neck passing through the access opening so that the top surface of the septum is disposed outside of the compartment of the blinding shell, the shoulder of the vial having an outside diameter larger than a diameter of the access opening.