Disclosed herein are system, method, and computer program product embodiments for adaptive specimen collection order processing. An embodiment operates by retrieving a specimen order for processing a specimen collection. The specimen order comprises a test code. The embodiment determines that the specimen order is an eligible specimen order by determining that the test code matches at least one of a plurality of qualifying test codes. The embodiment transmits, to an electronic patient system, a request to provide resource allocation information for processing the specimen collection associated with the eligible specimen order. The embodiment generates an event for performing the specimen collection that satisfies the resource allocation information. The embodiment retrieves digital evidence that the event was completed. The embodiment validates that the event was completed based on the retrieved digital evidence. The embodiment then updates the eligible specimen order with a completion test code indicating the specimen collection was completed.

The invention relates to a device comprising: a support tray (7) for tubes receiving samples to be analyzed, this tray (7) having holes (8) adapted to each receive a tube bearing on the upper surface and with its bottom protruding from the tray; a lid (10) provided with chimneys (11) arranged according to a distribution similar to the distribution of the holes of the tray, this lid (10) being designed to occupy at least one position of superposition above the tray (7), so that the lid can be removably assembled to the tray to form a unitary assembly for holding the tubes and to position the chimneys (11) above the tubes in order to guide the pipette tips penetrating inside the tubes.

The invention relates to a device comprising: a support tray (7) for tubes receiving samples to be analyzed, this tray (7) having holes (8) adapted to each receive a tube bearing on the upper surface and with its bottom protruding from the tray; a lid (10) provided with chimneys (11) arranged according to a distribution similar to the distribution of the holes of the tray, this lid (10) being designed to occupy at least one position of superposition above the tray (7), so that the lid can be removably assembled to the tray to form a unitary assembly for holding the tubes and to position the chimneys (11) above the tubes in order to guide the pipette tips penetrating inside the tubes.

A transport unit for a packaging structure for a plurality of containers for substances for pharmaceutical, medical or cosmetic uses includes a tray with a plurality of seats for positioning the containers and a planar inlay part for covering the containers positioned in the seats of the tray. The inlay part is configured to cover the containers positioned in the seats and at the same time to be received completely in the tray, without protruding above an upper edge of the tray. A plurality of depressions corresponding to the seats of the tray are formed in the inlay part, in order to position the containers at their two ends lying opposite each other. A gap is formed at least partially between the inlay part, received in the tray, and side walls of the tray.

An apparatus for performing nucleic acid amplification reactions includes a thermally-conductive receptacle holder with multiple receptacle wells. Each well has a through-hole extending from an inner surface of the well to an outer surface of the holder. A cover is rotatable between an open position and a closed position relative to the holder and is configured to exert a force onto any receptacles in the wells when the cover is in the closed position. The apparatus includes multiple optical fibers, and each of the optical fibers provides optical communication between one of the wells and an excitation signal source and/or an emission signal detector. A thermal element is positioned between a thermally-conductive support and the receptacle holder.

In one embodiment, a mixing device includes a sleeve that forms an inner space configured to receive a sample container, a housing associated with the sleeve, a mixing element contained within the housing that is configured to mix liquid contained within the sample container, and an activation element configured to activate the mixing element when the activation element is triggered.

Embodiments can provide a test tube vacuum retainer system, comprising an outer body comprising a midline plate; one or more side walls, a bottom wall, and a top plate comprising an access hole; a test tube holder comprising a sealant ring; a base; and a vacuum tube comprising an external outlet; wherein the test tube holder is secured within the outer body to the base, which in turn is secured to the midline plate; wherein the vacuum tube is connected to the test tube holder at a first end, and the external outlet is configured to be connected to a vacuum pump configured to apply a vacuum force to the test tube holder when a test tube is inserted into the access hole and placed onto the test tube holder.

Embodiments can provide a test tube vacuum retainer system, comprising an outer body comprising a midline plate; one or more side walls, a bottom wall, and a top plate comprising an access hole; a test tube holder comprising a sealant ring; a base; and a vacuum tube comprising an external outlet; wherein the test tube holder is secured within the outer body to the base, which in turn is secured to the midline plate; wherein the vacuum tube is connected to the test tube holder at a first end, and the external outlet is configured to be connected to a vacuum pump configured to apply a vacuum force to the test tube holder when a test tube is inserted into the access hole and placed onto the test tube holder.

A cover for a fluid container having an essentially plane cover plate for closing at least one opening of at least one fluid container and at least two ports, and each port has a through channel extending through the entire thickness of the cover plate and a fluid impermeable first membrane is arranged over the entire cross section of the through channel of the first port and an at least gas permeable second membrane is arranged over the entire cross section of the through channel of the second port is disclosed.

The present invention relates to an immunoassay apparatus and a method thereof. The immunoassay apparatus including a cartridge 13 in which a tube for T tip 9, a reaction tube 11, a tube for washing 3, and a tube for signal measurement 5 are integrally coupled or individually configured; a T tip 7 and a magnetic rod 31 used for performing reaction and washing processes while moving large magnetic particles m, capture materials, signal materials, and analyte materials with magnetic force by entering successively a plurality of tubes 3 and 5; a cartridge holder 15 in which the cartridge 13 is seated; and a heating member 17 that generates heat by being disposed at a region in which the reaction tube 11 is seated in the cartridge holder 15; is configured in a state where each of the different shapes of magnetic particles is bound with materials.