A dispenser actuator assembly (100) for actuating a dispenser (10) is disclosed. The dispenser (10) is in the form of a glass ampoule assembly (10) having a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14) wherein the outer container (14) has a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has a base member (102) configured to mount on the outer container (14). The dispenser actuator assembly (100) also has an actuator assembly (104) operably connected to the base member (102) wherein the actuator assembly (104) has a first actuator arm (132a) and a second actuator arm (132b) each pivotally connected to the base member (102). The first actuator arm (132a) and the second actuator arm (132b) extend from the base member (102) in generally opposed relation defining a first position, or neutral position. The first actuator arm (132a) has a first protrusion (150a) depending therefrom and the second actuator arm (132b) has a second protrusion (150b) depending therefrom. The first actuator arm (132a) and the second actuator arm (132b) are pivotable from the first position towards one another to a second position, or actuating position, that is configured such that the first protrusion (150a) engages the outer container (14) and the second protrusion (150b) engages the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is configured to be dispensed from the glass ampoule assembly (10).

A system including a vial and methods of its use to provide a lyophilized cake removable from the vial without cracking or breaking.

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.

Mobile systems and methods are adapted to control and document prehospital patient care reports and communication of patient status to a receiving medical treatment facility. The systems and methods relate to systems and methods for managing, recording, and administering drugs such as narcotics in an ambulatory and/or emergency environment.

A method and apparatus for controlling and visually, audibly, and tactilely communicating the administration of discrete unit doses of material dispensed from a dropper through use of a modified plunger having a geometric profile corresponding to a unit dose. This profile engages with the dropper interior in a manner that creates audio, visual, and tactile cues as each unit dose is administered. The profile may take the form of peaks and valleys or teeth. Alternatively, the plunger profile may be threaded and may include a channel along the plunger's longitudinal axis.

In one aspect of the subject invention, a labeling shell is provided for a drug vial having a glass reservoir and an opening sealed by an elastomeric stopper, the labeling shell including: a polymeric tubular body formed to accommodate the reservoir of the drug vial, the tubular body having a first open end defining a first opening smaller than a diameter of the reservoir of the drug vial so as to prevent passage therethrough of the reservoir, wherein the elastomeric stopper is exposed through the first end with the reservoir being accommodated in the tubular body; and, a polymeric cap removably mountable to the tubular body to selectively cover the elastomeric stopper of the drug vial with the reservoir being accommodated in the tubular body. Advantageously, the subject invention provides a labeling surface for a drug vial, while also providing restricted access to the drug vial to limit tampering therewith.

At least one closed container includes a glass container having a total height, being characterized by a center axis and including a shoulder region; and a press-fit cap closing the glass container and including a cylindrical body having an upper end and a lower end. P is any given point at the lower end of the press-fit cap that is located above the shoulder region and that lies on a straight line running parallel to the center axis and hitting an outer surface of the shoulder region at a point Q. Among these points P at the lower end of the press-fit cap point P′ is the one that has a smallest distance to its corresponding point Q′ and a distance between points P′ and Q′ on the straight line is in a range from 0.17 to 8.4 mm.

Various embodiments are provided herein for checking proper inclusion and sequencing of drug modules in a combinatorial drug delivery device.

A transport tray with a plurality of sleeves each configured to receive a substantially cylindrical container having a cylindrical container wall and a container bottom surface arranged orthogonally to the container wall. Each sleeve includes a top opening, a bottom opening, a sleeve wall that extends along a sleeve axis between the top opening and the bottom opening and is configured to abut at least a portion of the container wall of a respective container, and one or more support feet adjacent to the bottom opening and extending from the sleeve wall towards the sleeve axis, wherein each support foot has a bottom surface and a top surface configured to abut the container bottom surface of a respective container forming a gap between the support foot bottom surface and the container bottom surface along the sleeve axis. The one or more support feet comprise a thermally conductive polymer.

The present disclosure describes a method that includes receiving a plurality of packaging units made of glass; coating at least a portion of an outer surface of each packaging unit with low-friction coating; curing the low-friction coating applied to the outer surface of each packaging unit; receiving a container configured to store the plurality of packaging units; and arranging each packaging unit in the container with the outer surface of each packaging unit able to touch the outer surface of one or more adjacent packaging units.