The present disclosure is, in one aspect, directed to a locking assembly for securing a sample tube assembly to a sample manifold of a measurement system. The locking assembly includes a ramp block having one or more slots defined therein and configured to at least partially receive a portion of the sample tube assembly. The ramp block also includes a plurality of surface features defined therealong and configured to engage and move the sample tube assembly toward and into engagement with the sample manifold. The ramp block further is movable between a plurality of positions including an open position for allowing the sample tube assembly to be received through the one or more slots or openings, and a closed position substantially sealing the sample tube assembly against or within the sample manifold. Other aspects also are described.

A transport packaging includes a tray formation which is configured to hold a plurality of containers with mutual separation to avoid mutual contact of the containers. The tray formation includes a first tray part having a plurality of pockets configured to receive first ends of the containers and a second tray part removably coupled to the first tray part and having a corresponding plurality of pockets configured to receive second ends of the containers. The first tray part is formed such that, when the second tray part is removed so that the second ends of the containers are free from the pockets of the second tray part, the free second ends of the containers are free to be brought into mutual contact while the first ends of the containers are still received in the pockets of the first tray part.

A system and method facilitates transfers of specimen containers (e.g., vials with caps) between storage cassettes and carrier cassettes. The storage cassettes are designed to be stored in cryogenic refrigerators while the carrier cassettes are designed to be temporarily stored in a portable carrier. Identification information is read from wireless transponders carried by the specimen containers. Visual mappings of the positions of the specimen container in the cassettes is provided. Presence and position of the specimen containers in the cassettes is verified, and alerts of inconsistencies provided along with corrective commands. Inventories of specimen container and even specific specimen holders are provided.

The disclosure provides a system and method to safely and efficiently store and transport process tubes in a carrier tray comprising prior to and during amplification of nucleotides in the process tubes. The process tube disclosed includes a securement region having an annular ledge, a neck, and a protrusion. The securement region of the process tube can secure the process tube in a port of the carrier tray, but still allows the process tube to adjust or float in order to align the process tube into a rigid heater well of a thermal cycler.

The disclosure provides a system and method to safely and efficiently store and transport process tubes in a carrier tray comprising prior to and during amplification of nucleotides in the process tubes. The process tube disclosed includes a securement region having an annular ledge, a neck, and a protrusion. The securement region of the process tube can secure the process tube in a port of the carrier tray, but still allows the process tube to adjust or float in order to align the process tube into a rigid heater well of a thermal cycler.

A test tube rack having at least one perforated surface for the insertion of tubes that are held in a vertical position is disclosed. The rack being formed by at least one first pre-cut cardboard sheet is provided with fold lines that, prior to use, defines a laminar body having a minimal thickness, and, at the time of use, it may be assembled to form a volumetric body having at least one upper platform including perforations and maintaining the vertical position of the tubes inserted into the perforations, in turn, can be adjusted to the diameter of the tube as to receive tubes of different diameters. The test tube rack may have a second lower platform with perforations positioned in vertical alignment with the perforations in the upper platform that the tubes inserted therein are gripped at two heights.

A test tube rack having at least one perforated surface for the insertion of tubes that are held in a vertical position is disclosed. The rack being formed by at least one first pre-cut cardboard sheet is provided with fold lines that, prior to use, defines a laminar body having a minimal thickness, and, at the time of use, it may be assembled to form a volumetric body having at least one upper platform including perforations and maintaining the vertical position of the tubes inserted into the perforations, in turn, can be adjusted to the diameter of the tube as to receive tubes of different diameters. The test tube rack may have a second lower platform with perforations positioned in vertical alignment with the perforations in the upper platform that the tubes inserted therein are gripped at two heights.

The application is related to a test tube rack, and the test tube rack comprises a first supporting surface and a second supporting surface. The test tube rack further comprises a first hole used for inserting a test tube. The first supporting surface and the second supporting surface can be folded. Such test tube rack can be subject to folding shrink packaging when being packaged and is opened when being used, so that a test tube is inserted to operate.

The application is related to a test tube rack, and the test tube rack comprises a first supporting surface and a second supporting surface. The test tube rack further comprises a first hole used for inserting a test tube. The first supporting surface and the second supporting surface can be folded. Such test tube rack can be subject to folding shrink packaging when being packaged and is opened when being used, so that a test tube is inserted to operate.

A holding structure for simultaneously holding containers for pharmaceutical, medical, or cosmetic compositions, includes: at least 10 receptacles for receiving the containers and being formed by side walls; a flat base frame including a central recess; first webs running parallel to each other in a first direction across the central recess; second webs running parallel to each other in a second direction across the central recess, the first webs and the second webs being arranged such that the first webs and the second webs form the side walls, each of the first webs and the second webs being formed as a continuous beam having a maximum waviness w.sub.max of 4.0 mm; and a support structure connected with the first webs and the second webs and being formed as an outer frame or a plurality of stabilizing ribs in a grid pattern.