Ampoule (container)

In the beginning, ampoules, as well as many other dosage forms, were only produced in pharmacies. For this reason, the pharmaceutical training was changed and the focus was increasingly on technological knowledge as well as on knowledge of bacteriology and sterilization methods . This was laid down in the new examination regulations of December 8, 1934. However, the breakthrough of the ampoule only came through industrial production. Because only companies were able to manufacture and offer ampoules in large numbers with good quality and at the same time cheaply. In addition to the tablet , it was the ampoule that ensured a nationwide supply of pharmaceuticals in the 20th century through mass production. In the years that followed, a wide variety of drugs (e.g. alkaloids , chemotherapeutic agents , antibiotics and hormones ) were brought onto the market in the form of ampoules. Even nowadays new drugs are first introduced in ampoule form in order to examine their effect in the clinic independently of absorption problems or inaccuracies in intake.

Uses

cosmetics

Cosmetic preparations in ampoules are also produced. These are for external use. The entire content of an ampoule is used for one application. This makes dosing easier and the preparation cannot be contaminated through multiple use from one container.

Food supplements

Food supplements in the form of drinking ampoules are also produced, e.g. B. with 20 ml content. One ampoule corresponds to one application. This enables simple dosing and prevents contamination from multiple use.

Chemicals

A type of ampoule is also used as a container for industrially manufactured standard solutions for titrations , e.g. B. with 100 ml content. The entire contents of the ampoule are transferred completely into a volumetric flask and made up to the prescribed volume so that an exactly concentrated volumetric solution is obtained. Very aggressive or toxic chemicals (e.g. bromine or sulfur trioxide ) are also often melted down in glass ampoules in order to be able to handle them safely and so that they only come into contact with glass. Sulfur trioxide would attack all plastics or diffuse through them.

Types of ampoules

Glass ampoules

Glass ampoules are usually cylindrical in shape with an extended tip (spit or head) and a flat bottom. They are made from tubular glass and formed with open flames (burners) and melted shut. There are also variants with two tips fused shut (i.e. at both ends).

Breaking ampoules

Breakable ampoules are glass ampoules that have to be broken open to open. Their cylindrical shape is narrowed at one point (ampoule neck / constriction). There are different types:

• With a ring-shaped breaking point around the neck of the ampoule. This break ring can be a burned-in enamel ring , which creates tension in the glass that enables the skewer to break off cleanly. Alternatively, the break ring can be scratched into the glass (called scoring ring).
• OPC ampoule: One-point-cut ampoules usually have a notch or scratch on the neck of the ampoule. The point above this scratch marks the point of the scratch / the predetermined breaking point. The ampoule skewer can be broken off by pressing the marked point with your thumb.

Saw ampoules

Saw ampoules are glass ampoules whose upper end is first sawed to open and then broken off.

Dry ampoules

Dry ampoules are so named when the content is an undissolved substance, e.g. B. a powder. This is dissolved with a solvent (e.g. saline solution) before use and can then be injected.

Drinking ampoule

The contents of drinking ampoules are intended for drinking. Most of them are food supplements or drugs for oral application. It can be broken glass ampoules or plastic containers.

Ampoules for standard solutions for titrations

• Capsule-shaped glass containers: the glass is particularly thin in two places. With an aid (glass spike, glass spur) the glass can be pierced at these points.
• Plastic containers

Cylinder ampoule 3 ml "NovoRapid Penfill" with threaded head, partially filled with insulin

Syringes

Pre-filled syringes (as they are also called) are not only storage places for the injection, they also have an application function at the same time. They usually consist of glass, metal ( cannula ) and rubber (cap).

Opening ampoules

Ampoule file compared to a matchstick

Breaking ampoules

Breakable ampoules can be broken open by hand without the need for further aids.

Injection container

The crimp cap is pulled off by hand or must be removed with ampoule pliers. The cannula of a syringe is pierced through the septum and the solution is removed.

Glass ampoules for standard solutions for titrations

There are tools for handling these ampoules: a funnel that can hold the ampoule vertically and a spike. You also need a volumetric flask on which to place the funnel. Hold the ampoule vertically and use the spike to pierce the intended break point in the glass (opening for pressure equalization). Then the spike is dropped into the funnel with the tip pointing upwards. Then the ampoule (the second intended break point is at the bottom) is dropped onto the spike in the funnel. The solution can run into the volumetric flask and completely transferred by rinsing the ampoule.

Ampoule files

Ampoule files are available as an aid for filing glass ampoules, which can then be broken open.

Requirements for ampoule glass

Commercially available household glass cannot be used for the production of ampoules because it has only a low resistance to water, i. H. the aqueous solution can dissolve substances from the glass ( hydrolysis ) that would contaminate or undesirably change the solution.

The European Pharmacopoeia therefore differentiates types of glass according to their hydrolytic class and specifies for which application they are suitable.

• Class I: Highest hydrolytic resistance, e.g. B. borosilicate glass . Suitable for ampoules that are used several times.
• Class II: High hydrolytic resistance, mostly surface-treated soda-lime-silicate glass. Suitable for ampoules that are only intended for one-time use.
• Class III: Medium hydrolytic resistance, mostly soda-lime-silicate glass. Conditionally suitable for ampoules: only for powder or non-aqueous solutions.

Colorless glasses are mostly used, while brown glass is used for light-sensitive materials.

Identification of ampoules

The labeling of ampoules is particularly important for medicinal products. The ampoules can be labeled:

• with an adhesive label
• with an imprint of color, e.g. B. screen printing

In addition, a marking with applied colored rings is sometimes used, e.g. B. to avoid mix-ups during production before a label is affixed.

swell

• Rudolf Voigt, Alfred Fahr : Pharmaceutical Technology . 9th edition. Deutscher Apotheker Verlag, 2006, ISBN 3-7692-2649-6 . 
• European Pharmacopoeia Ph. Eur. 5.5 . Deutscher Apotheker Verlag, 2007, ISBN 3-7692-4063-4 ( European Pharmacopoeia Online - The currently valid version can be found online in English.). 
• Document from the University of Regensburg : Glass in the Pharmacopoeia (PDF file; 37 kB)

Individual evidence

1. ^ Wolf-Dieter Müller-Jahncke , Christoph Friedrich , Ulrich Meyer: Medicinal history . 2., revised. and exp. Ed. Wiss. Verl.-Ges, Stuttgart 2005, ISBN 978-3-8047-2113-5 , pp. 33 f . 
2. ↑ 250 microliter Vial iV2 ( Memento from August 3, 2012 in the web archive archive.today )
3. ↑ Egon Fanghänel, Joachim Eick, Helmut Hartung, Ernst-Gottfried Jäger, Manfred Lorenz, Wolfgang Schneider, Karl Schöne, Klaus Unverferth, Gert Wolf: Introduction to Laboratory Practice , 4th unchanged edition, VEB Deutscher Verlag für Grundstofftindustrie, Leipzig, 1986, Pp. 46-48, ISBN 3-342-00057-0 .

Web links

Commons : Ampoules  - collection of images, videos and audio files

• Axel Helmstädter: Louis Friedländer and the ampoule . In: Pharmazeutische Zeitung , issue 19/2012 of April 29, 2012.