A self-venting self-resealing pre-cut elastomeric closure for vials, bottles and the like, comprising a dished elastomeric septum supported for closing an opening in a container, a cut across the dished elastomeric septum, and additional cuts defining with the cross cut one or more flap areas elastically displaceable from a closed condition to a venting condition in response to insertion of a liquid transfer implement through the central area of the septum dish.

A self-adhesive layered septum is disclosed. In one example, the septum includes a first outer layer including a thermoplastic elastomer such as a styrenic block copolymer, containing styrene ethylene butylene styrene (TPE-SEBS) capable of closing at least partially an aperture formed when a needle is inserted through the layer; an adhesive second layer for adhering the septum to a mouth area of a well or container to which the septum is attachable; and a thermoplastic third layer between the first and second layers, thermobonded to the first layer and providing better adherence for the adhesive layer. The first layer includes a recess and a vent, which reduce pressure differentials in use, but together with the third layer minimize evaporation through the septum.

Described is an automated reagent mixing container for separately storing and automatically mixing together at least two stored reagent components.

In one general aspect, a method for filling multiple containers with a pharmaceutical product is disclosed, which comprises decontaminating sealed nested materials in a transfer chamber, removing from the sealed nested materials one or both of a container nest holding the multiple containers and a closure nest holding multiple closures, transferring from the transfer chamber to a controlled environment enclosure the removed nest, aseptically filling the containers with the pharmaceutical product, and closing the containers with the multiple closures. The nests are configured to allow multiple closures and containers to be simultaneously aligned concentrically, and closed simultaneously. Spring-loaded retaining structures on the closure nest allow it to releasably retain multiple closures above the corresponding multiple containers. In some embodiments the spring-loaded features are monolithically integrated with the closure nest. The product may be lyophilized in partially sealed containers while the sealing closures are releasably retained by the closure nest.

A bubble manufacturing container of the present invention includes: a container body having an opening portion; and a rubber stopper provided on the opening portion of the container body. The rubber stopper is constituted so that the bubbles 1 of an inside of the container body are able to be taken by piercing an injection needle. It is preferred that the bubble manufacturing container has a fastening portion provided on the rubber stopper, having an opening and sealing the container body with the rubber stopper. Furthermore, it is preferred that the container body mounts a weight portion.

An oral care implement that includes a head having a face with a tuft hole therein. A plurality of bristles are disposed within the tuft hole and arranged in a bristle tuft that extends from the face of the head. The bristle tuft includes a first subset of the bristles and a second subset of the bristles. Each of the bristles has a longitudinal axis and a transverse cross-sectional profile having a major axis and a minor axis, the major axes of the bristles being longer than the minor axes of the bristles. The major axes of the bristles of the first subset may be non-parallel to the major axes of the bristles of the second subset.

Disclosed is a storage container, in which a valve coupled to an opening portion of a tube is not cut in advance, but the valve is cut when a liquid injection nozzle is inserted into the tube, such that a gap between the liquid injection nozzle and the valve may be perfectly blocked, thereby preventing a leak of a liquid. A storage container according to an embodiment of the present invention includes a tube made of an expandable or contractible elastic material, and a valve configured to be coupled to an upper end of the tube before a liquid is injected into the tube, in which the valve includes a ring-shaped support portion configured to be seated and supported at the upper end of the tube, and an elastic membrane extending from an end of the support portion and configured to close an opening portion of the tube.

In one general aspect, a method for filling multiple containers with a pharmaceutical product is disclosed, which comprises decontaminating sealed nested materials in a transfer chamber, removing from the sealed nested materials one or both of a container nest holding the multiple containers and a closure nest holding multiple closures, transferring from the transfer chamber to a controlled environment enclosure the removed nest, aseptically filling the containers with the pharmaceutical product, and closing the containers with the multiple closures. The nests are configured to allow multiple closures and containers to be simultaneously aligined concentrically, and closed simultaneously. Spring-loaded retaining structures on the closure nest allow it to releasably retain multiple closures above the corresponding multiple containers. In some embodiments the spring-loaded features are monolithically integrated with the closure nest. The product may be lyophilized in partially sealed containers while the sealing closures are releasably retained by the closure nest.

A container includes a base with a top wall, a vessel depending from a top wall aperture in the top wall, a fluid retainer projecting above the top wall and surrounding the top wall aperture, and a skirt surrounding the vessel and including opposed grooves for gripping the container. A lid is disposed on a top end of the base and includes a cover wall with a lid aperture generally aligned with the top wall aperture of the base. A septum is disposed between the top wall of the base and the cover wall with a portion of the septum disposed between the lid aperture and the top wall aperture. Fluid retainer/return structure is configured to prevent fluid deposited on the septum from dripping off the container and to allow at least a portion of the fluid deposited on the septum to run off the septum and into the vessel.

A cap for coupling to a medical adapter may include a housing with a closed top end and an open bottom end with legs that extend from the housing away from the bottom end. Members may extend from an inner surface of the legs to engage and secure the cap to a medical adapter or an insert configured to mate with a medical adapter. A cap may include angular ridges between a cap housing and an insert to permit rotation of the cap in single direction and prevent removal of the cap from a medical adapter. A cap may include hinged legs to permit the cap to be secured to a medical adapter by rotating the legs toward each other until a portion of a collar on each leg may be matingly joined around the medical adapter.