An article of manufacture includes an array of distinct and separate regions with respective pharmaceutical compounds located thereon. The array of distinct and separate regions includes a first region with a first set of one or more pharmaceutical compounds located thereon; a second region, that is distinct and separate from the first region, with a second set of one or more pharmaceutical compounds, that is distinct from the first set of one or more pharmaceutical compounds, located thereon; and a third region, that is distinct and separate from the first region and the second region, with a third set of one or more pharmaceutical compounds, that is distinct from the first set of one or more pharmaceutical compounds and the second set of one or more pharmaceutical compounds, located thereon.

A beverage bottle checking arrangement is designed to check beverage bottles in a beverage bottle handling arrangement. The beverage bottle checking arrangement includes a single framework and checking devices mounted on the framework, which checking devices are designed to essentially simultaneously check characteristics of beverage bottles being moved through or past the framework.

Systems and processes for which containers are placed to detect contamination more effectively than current practices may be provided. This may be done using a combination of imaging techniques. Specifically, one approach combines UV, visible, and IR images to enhance the contrast of contamination in sealed pharmaceutical containers. The images may be further enhanced through the use of a flash of heat. The use of resonance to manipulate the vial contents may be further used. These approaches may be combined with mechanical motion so that the material inside the container is turned over in a way to expose the potential contamination. In some embodiments the orientation of the sealed container may be positioned to maximize the surface area and inspection volume of the material under investigation.

Information is obtained from a package filling machine, regarding sampling occasions in the form of sampling records. Each sampling record comprises a first time stamp for the sampling occasion, information describing a trigger for the sampling occasion, a number of package samples taken at the sampling occasion, and a second time stamp that specifies when the package samples were taken. Analysis information regarding contaminated package samples is obtained from a package sample analysis system. The sampling records and analysis information are processed to link contaminated package samples with sampling occasions. A table is generated that comprises, for each sampling occasion, the first time stamp, the information that describes a trigger for the sampling occasion, the number of package samples taken at the sampling occasion, the second time stamp and a number of contaminated package samples at the sampling occasion.

One example discloses a liquid exposure sensing device, including: a first sensor configured to be coupled to a reference material; wherein the first sensor configured to generate a first signal in response to either a liquid phase and/or vapor phase of a substance passing through the reference material; a second sensor configured to be coupled to an exposed material; wherein the second sensor configured to generate a second signal in response to the liquid phase and/or vapor phase of the substance passing through the exposed material; and a controller coupled to the first and second sensors and configured to generate a liquid detection signal in response to a time delay between the first signal and the second signal that exceeds a threshold time delay.

In an X-ray inspection system (1), a reject bin (14) is split into a reject bin top (15) and a reject bin bottom (16) along a separation gap (17) which is arranged at the level of a transport section (21) of a conveyor belt loop (10) and runs uninterrupted from the outfeed opening (26) to the conveyor access opening (43) which, in turn, continues uninterrupted to the infeed opening (8). After a conveyor access door (19) has been opened and a tensioning mechanism (32) has been released, the conveyor belt loop can be taken out of the enclosure cabinet (5) by sliding the transport section (21) through the separation gap and the conveyor access opening and simultaneously slipping a return section (22) of the conveyor belt loop around the reject bin bottom.