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 present invention relates generally to an apparatus that is able to provide a sealed chamber system including a cell sorter, that allows for various oxygen tensions of choice to be maintained during cell harvest, sorting (and isolation of sub-populations of cells), analysis, etc.

A biological sample reaction vessel comprising a reagent storage portion and a push rod movable relative to the reagent storage portion is provided. The reagent storage portion comprises at least one reagent containing cavity, and the reagent containing cavity is sealed by a sealing element; and the push rod is connected to the sealing element, and the push rod is used for cooperation with an external device to separate the sealing element from the reagent storage portion. In reaction, the biological sample reaction vessel cooperates with a test cassette. By inserting the biological sample reaction vessel into the external device, the reagent in the reagent storage portion can be released rapidly.

Embodiments include a reaction vessel having a reaction chamber defined by opposing first and second interior-facing surfaces of the housing; a first light absorbing layer conforming to the first interior-facing surface of the housing component; and a second light absorbing layer conforming to the second interior-facing surface of the housing component; a first energy source configured to direct light through the housing at the first light absorbing layer; and a second energy source configured to direct light through the housing at the second light absorbing layer.

An insulated shipping container system for transporting temperature sensitive specimens includes an insulated body, an insulated lid, and a stretchable strap. The insulated body has an internal cavity that is accessible through an opening and has a cross-sectional shape. The insulated lid is configured for selectively closing the opening to the internal cavity when the lid is in a closed position. The stretchable strap is removably attachable to each of the insulated body and the insulated lid. The stretchable strap is configured to stretch and attach to a lug on the insulated body to selectively hold the insulated lid in the closed position and further configured to retain the insulated lid to the insulated body when the lid is in an opened position. The insulated shipping container system may also include a freezable cold pack having a shape corresponding to the cross-sectional shape of the internal cavity.

The embodiment of the present disclosure provides a temperature control device and a temperature control system. The temperature control device comprises an object stage, a housing, and at least one temperature control structure. The temperature control structure has a main body portion and a temperature control component, and main body portion defines an air duct, and wherein, the main body portion has a second air inlet and a second air outlet, and the first air inlet is connected to the second air outlet, and the external air enters the air duct defined by the main body portion from the second air inlet of the main body portion, and the air then enters the housing through the second air outlet, and the temperature control component is connected, so as to the main body portion to control the temperature of the air in the air duct.

A reactor is provided for controlling the temperature of materials undergoing a physical or chemical process. The reactor includes a reactor having a holder adapted to hold a plurality of the materials in a plurality of 2×n arrays, each array having two rows of n materials. The reactor further includes a fluid inlet adapted to receive a temperature-modifying fluid and a fluid outlet adapted to discharge the temperature-modifying fluid. The sample holder has a plurality of fluid flow channels configured such that a fluid flow channel is located adjacent to each of the two rows in each of the plurality of 2×n arrays. The fluid flow channels are adapted to provide substantially equal flow rates and substantially equal fluid flow volumes as the temperature-modifying fluid travels past the arrays. The sample holder may also be provided with a plurality of inlet-side air chambers, each inlet-side air chamber disposed between the fluid inlet and a respective one of the arrays and adapted to thermally insulate the materials from the temperature-modifying fluid as it is introduced into the fluid inlet.

The invention relates to a cartridge for an analysis method which is rotation-based and utilizes one-sided heat input. The cartridge has a planar main body in which a microfluidic channel-and-chamber structure is formed, with channels interconnecting multiple process chambers, a number of positioning and/or fastening elements, formed in the main body, for positioning and/or fastening the main body on/to a support plate of an analyzer for carrying out the analysis method, and a cover body which is fastened to the main body and which is one-sidedly arranged on a top side of the main body that faces away from a heat input side and which covers at least a chamber.

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.

A dispensing system has a sterilizable chamber. At least one robotic arm assembly and a dispensing device are within the sterilizable chamber. The dispensing device comprising a first dispensing element and a second dispensing element. The first dispensing element is connectable to the second dispensing element The at least one robotic assembly is configured to move the dispensing device. An external control device is connected to the at least one robotic arm assembly and is configured to control the at least one robotic arm assembly. The first dispensing element is configured to dispense a structural material and the second dispensing element is configured to dispense a biological material.