A bench top incubator is described. The bench top incubator includes a first tray stack designed to retain microscope slides in a plurality of slide trays and a second tray stack designed to retain multi-well plates in a plurality of plate trays. The incubator is relatively simple and small in design and can be conveniently located to carry out temperature processing of biological samples such as fixed cells and tissues, biological fluids, and so forth.

A separation container for extracting a portion of a sample for use or testing and method for preparing samples for downstream use or testing are provided. The separation container may include a body defining an internal chamber. The body may define an opening, and the body may be configured to receive the sample within the internal chamber. The separation container may further include a seal disposed across the opening, such that the seal may be configured to seal the opening of the body, and a plunger movably disposed at least partially inside the internal chamber. The plunger may be configured to be actuated to open the seal and express the portion of the sample.

The present invention relates to a sampling housing and to a modular controller formed by this sampling housing when it is connected to a control station. This housing comprises a device supporting an assembly (3) consisting of a well plate (4), of a cap adapter (5) comprising as many orifices as there are wells and arranged on said well plate (4), and of caps (6), each cap (6) cooperating with a single well of the plate (4). The invention is applicable in the field of analyzing biological samples.

A fluid specimen collection, storage, transport, and testing cup contains a removable chromatographic strip-carrying cartridge and an axially moveable liquid specimen preserving caddy which moves between a first, pre-test position and a second, post-test position. During which a caddy drain is temporarily opened allowing an amount of liquid specimen deposited in the caddy to flow into the cup and contact the strips. Once in the second position, the drain is sealed for later confirmatory testing. The caddy is moved between the two positions by screwing a threaded lid more tightly onto the top opening of the cup. The axial range of the screw is limited by a removable obstruction collar. The caddy can include a liquid specimen containing chamber having a lower opening sealed by a frangible barrier.

A positive displacement sampling pipette which includes a control rod, the bottom end of which controls the displacement of a device for gripping the top end of a piston of a capillary-piston assembly intended to cooperate with said pipette. The pipette includes an ejection rod of the capillary-piston assembly, movably mounted with respect to the control rod such that its bottom end exerts an ejection strain on the top end of the piston accommodated in the gripping device during a relative displacement between the ejection rod and the control rod.

A rigid mask protects selective portions of a chip including a plurality of wells for biochemical reactions. The rigid mask includes a supporting portion and a plurality of legs, where each leg is provided with a rigid stem and a plate. The plurality of legs are arranged and fixed with respect to the supporting portion in a way aligned to the spatial arrangement of the wells, and are configured in such a way that, when each leg is inserted into the corresponding well, the respective plate covers at least in part the bottom of the well, protecting it during a chemical/physical treatment of side walls of the wells.

A microfluidic device includes an integrated circuit and a first substrate layer having a first surface and a second surface. The first surface of the first substrate layer is connected to the integrated circuit. The first substrate layer is in fluid communication with the integrated circuit. The microfluidic device also includes a second substrate layer having a surface area substantially larger than that of the first substrate layer. The second substrate layer includes a first and second surface. The first surface of the second substrate layer is connected to the second surface of the first substrate layer. The second substrate layer includes a first fluid inlet. The second substrate layer is in fluid communication with the integrated circuit through the first substrate layer.

An aseptic manipulation system comprises first and second operation chambers, an aseptic manipulation chamber, and a control unit. The control unit controls the ventilation of the first operation chamber for more than a first specified number of times, after an object is introduced into the first operation chamber, and ventilates the second operation chamber for more than a second specified number of times that is greater than the first specified number of times, after the object is transferred into the second operation chamber from the first chamber.

A microfluidic package may include a fluid passage, a substrate having a substrate surface adjacent an interior of the fluid passage and components inset in the substrate, the components having component surfaces adjacent the fluid passage and substantially flush with the substrate surface.

Provided herein is technology relating to processing samples and particularly, but not exclusively, to technology for containing and processing a stool specimen. The technology provides an enclosing holder for securing a sample container in a leak-proof manner e.g., during mechanical shaking.