A hollow body includes a wall which at least partially surrounds an interior volume of the hollow body. The wall comprises a layer of glass comprising a first glass composition, comprises a base surface, and has a wall surface. The wall surface comprises at least one surface region, in which the base surface is at least partially superimposed by at least one elevated region, and at least one contact region, which extends along a contact range of a height of the hollow body. The at least one elevated region comprises a further glass composition. An exterior diameter of the hollow body has a maximum throughout the contact range. The at least one surface region is at least partially positioned in the at least one contact region.

The present invention is a resin container having a multilayer structure including a first layer that comes into contact with liquid content and a second layer that is in contact with the first layer from an outer side of the first layer. The first layer includes a cyclic olefin copolymer and a linear low-density polyethylene resin, and the second layer includes a low-density polyethylene resin.

Mechanisms for dispensing items such as medications and medical supplies. Different mechanisms may be tailored to dispensing different kinds of items, for example medications in single dose packages, vials, syringes, or other similarly-shaped items. The dispensers may be placed in a dispensing unit that includes a lockable restock drawer and a dispense drawer into which items are dispensed by the dispensing mechanisms. The various kinds of dispensing mechanisms may be installed in the restock drawer in any workable proportion and arrangement. The dispensing mechanisms include multiple sensing technologies for tracking and inventory of items and for accurate sensing of items as they are dispensed.

A glass container is provided having a glass tube with a first end and a second end and a glass bottom closing the second end. The glass tube has a longitudinal axis and has, in a direction from the first to the second end, a top region, a junction region, a neck region, a shoulder region, and a body region. The top region is at the first end and has an outer diameter (d.sub.t), the neck region has an outer diameter (d.sub.n) with d.sub.n<d.sub.t, the body region extends to the second end and has an outer diameter (d.sub.b) with d.sub.b>d.sub.t, and the glass tube in the body region has a thickness (l.sub.b). The outer contour in a transition area between the top and neck regions is defined by a radius of curvature. The glass containers have a neck squeeze test load of at least 1100 N.

A fluid delivery manifold system assembled and configured to allow delivery of a single dose of a therapeutic agent (e.g., vaccine, drug, medicament, etc.) from a Blow-Fill-Seal (BFS) vial to a patient. The delivery assembly generally includes a modular manifold design consisting of separately constructed components cooperatively arranged and coupled to one another. The modular manifold construction allows for rapid manufacturing reconfigurations of one or more components with minimal costs to create new delivery manifold configurations that meet specific needs (i.e., different modes of delivery depending on agent to be delivered, such as subcutaneous, intramuscular, intradermal, intravenous injection, spray, or droplet delivery).

A fluid delivery manifold system assembled and configured to allow delivery of a single dose of a therapeutic agent (e.g., vaccine, drug, medicament, etc.) from a Blow-Fill-Seal (BFS) vial to a patient. The delivery assembly generally includes a modular manifold design consisting of separately constructed components cooperatively arranged and coupled to one another. The modular manifold construction allows for rapid manufacturing reconfigurations of one or more components with minimal costs to create new delivery manifold configurations that meet specific needs (i.e., different modes of delivery depending on agent to be delivered, such as subcutaneous, intramuscular, intradermal, intravenous injection, spray, or droplet delivery).

A fire blasting device for manufacturing a medical glass container prevented from breakage and deformation. A glass container is placed on the outer peripheral surface of each of a first roller and a second roller, which are disposed side by side in such a manner that the axis lines are parallel to each other. The axis line of the glass container is parallel to the axis lines of the first roller and the second roller. The entire outer peripheral surface in an inner surface of the glass container corresponding to a region deteriorated by processing is made to abut on the outer peripheral surface of each of the first roller and the second roller. A flame is ejected from a point burner to the region deteriorated by processing in the inner surface of the glass container while rotating the glass container by rotating the first roller and the second roller around the axis lines.

Devices, systems, and methods used to compound a first medicament and second medicament are disclosed. The devices include a single-use or single-dose vial containing a first medicament and configured to receive an ampule containing a second medicament. The vial includes a stopper and needle configured to inject the first medicament into the ampule to compound with the second medicament.

A combination includes: a holding structure including receptacles which are arranged in a regular arrangement and are formed by peripherally formed side walls; containers received in the receptacles, the containers having a basic body which, at an upper end, merges into a shoulder portion which is adjoined by a narrowed neck portion with a widened upper edge with an opening; holding projections provided at lower ends of the receptacles and configured to hold the containers in the receptacles, the holding projections at the lower ends protruding radially inwards into the receptacles, the containers being supported directly on the holding projections; and centering elements provided above the holding projections and configured to center the containers in the receptacles. The centering elements have a beveled configuration and protruding into the receptacles in order to reduce a width of the receptacles at the lower ends thereof in a funnel shape.

A pharmaceutical container for drug delivery includes a barrel configured to slidably receive a stopper. The stopper has a proximal end suitable for contacting a plunger rod and a distal end suitable for contacting a pharmaceutical composition. The stopper has a circumferential surface partially contacting an inner surface of the barrel. A surface roughness of the inner surface of the barrel declines from the stopper's start position to its end position by at least 3% of at least one of Ra roughness or Rms roughness.