Functionalized particulate support material and chromatographic media prepared therefrom are disclosed. The functionalized particulate support material is a plurality of particles, each particle having a particle surface. Chemically bonded to and extending from the surface of the particles is a combination of hydrophobic and hydrophilic functional groups. The hydrophobic functional groups enable polymerization of one or more monomers onto the particle surface while the hydrophilic functional groups provide increased wettability of the particle surface compared to an unmodified particle surface. The functionalized particulate support material may be further processed so as to form polymer chains extending from the hydrophobic functional groups. In one embodiment, the resulting polymer functionalized material is useful as a chromatographic media in chromatography columns or cartridges, such as in a liquid chromatography (HPLC) column. Chromatography columns or cartridges containing the polymer functionalized media, and methods of making and using the media, are also disclosed.

Functionalized particulate support material and chromatographic media prepared therefrom are disclosed. The functionalized particulate support material is a plurality of particles, each particle having a particle surface. Chemically bonded to and extending from the surface of the particles is a combination of hydrophobic and hydrophilic functional groups. The hydrophobic functional groups enable polymerization of one or more monomers onto the particle surface while the hydrophilic functional groups provide increased wettability of the particle surface compared to an unmodified particle surface. The functionalized particulate support material may be further processed so as to form polymer chains extending from the hydrophobic functional groups. In one embodiment, the resulting polymer functionalized material is useful as a chromatographic media in chromatography columns or cartridges, such as in a liquid chromatography (HPLC) column. Chromatography columns or cartridges containing the polymer functionalized media, and methods of making and using the media, are also disclosed.

A cartridge for a dispensing device contains at least one elongate film pouch, which is inherently non-rigid and which has a chamber for receiving a composition. The cartridge also contains a head part for interacting with the film pouch. The film pouch has an opening on a side facing the head part which is dosed by a cover. The insert is conical on a side facing the head part. A method can be used for producing such a cartridge.

A cartridge for a dispensing device contains at least one elongate film pouch, which is inherently non-rigid and which has a chamber for receiving a composition. The cartridge also contains a head part for interacting with the film pouch. The film pouch has an opening on a side facing the head part which is dosed by a cover. The insert is conical on a side facing the head part. A method can be used for producing such a cartridge.

A method for performing a magnetic separation procedure that includes transporting a receptacle containing a fluid medium to a first location of a system, where the fluid medium contains both a sample material and a suspension of magnetically-responsive solid supports. At the first location, the fluid medium is exposed to a first magnetic field for a first dwell period, thereby isolating the solid supports within the receptacle, where no portion of the fluid medium is removed from the receptacle at the first location. The receptacle is then transported from the first location to a second location of the system, where the fluid medium is exposed to a second magnetic field for a second dwell period. Following the second dwell period, at least a portion of the fluid medium is removed from the receptacle. A suspension fluid is then dispensed into the receptacle, and the contents of the receptacle are agitated to suspend the solid supports within the suspension fluid.

A method for performing a magnetic separation procedure that includes transporting a receptacle containing a fluid medium to a first location of a system, where the fluid medium contains both a sample material and a suspension of magnetically-responsive solid supports. At the first location, the fluid medium is exposed to a first magnetic field for a first dwell period, thereby isolating the solid supports within the receptacle, where no portion of the fluid medium is removed from the receptacle at the first location. The receptacle is then transported from the first location to a second location of the system, where the fluid medium is exposed to a second magnetic field for a second dwell period. Following the second dwell period, at least a portion of the fluid medium is removed from the receptacle. A suspension fluid is then dispensed into the receptacle, and the contents of the receptacle are agitated to suspend the solid supports within the suspension fluid.

A system for sterilizing a drug delivery device includes a drug delivery device having a first self-healing seal configured to seal a fluid reservoir disposed within the drug delivery device. A sealable container is configured to receive the drug delivery device therein. The sealable container has a base portion and a cover portion. The cover portion has a second self-healing seal positioned to align with the first self-healing seal when the drug delivery device is disposed within the sealable container. A fill port includes a fill path, the fill path being configured to pass through the first and second self-healing seals to fluidly couple the fill port to the reservoir of the drug delivery device. Other systems, methods, and devices of sterilization are also disclosed.

A system for sterilizing a drug delivery device includes a drug delivery device having a first self-healing seal configured to seal a fluid reservoir disposed within the drug delivery device. A sealable container is configured to receive the drug delivery device therein. The sealable container has a base portion and a cover portion. The cover portion has a second self-healing seal positioned to align with the first self-healing seal when the drug delivery device is disposed within the sealable container. A fill port includes a fill path, the fill path being configured to pass through the first and second self-healing seals to fluidly couple the fill port to the reservoir of the drug delivery device. Other systems, methods, and devices of sterilization are also disclosed.

Method and apparatus for eliminating oxygen in the filling of a flexible bag with a beverage utilizing sources of inert gas, vacuum, and beverage. A filling head regulates the injection of inert gas and applies a vacuum to the flexible bag the bag spout. The bag spout is separately rinsed of oxygen prior to recapping the same on the flexible bag.

A package handling arrangement and method for grouping packages filled with liquid food product includes a transportation belt that transports the packages in a downstream direction, a guide member arranged on one side of the transportation belt, a grouping arrangement that receives the packages from the transportation belt and groups a predetermined number of the packages together, and a retainer that is arranged on an opposite side of the transportation belt relative to the guide member. The retainer has a plurality of flexible elements angled relative to the transportation belt. Each flexible element is configured to flex to enable passage of a package in the downstream direction, and to retract from a flexed position after passage of the package, to prevent movement of the package in an upstream direction.