The endothermic syringe sleeve is an insulating storage structure. The endothermic syringe sleeve is configured to store a burette that contains an arterial blood samples. The endothermic syringe sleeve is configured to cool the arterial blood sample. The endothermic syringe sleeve is configured to store the arterial blood sample in the cooled state. The endothermic syringe sleeve comprises an endothermic sleeve and the burette. The endothermic sleeve forms a cooled environment within which the burette is stored.

Methods and devices are provided for executing temperature-controlled shipment of relatively small temperature-sensitive payloads. A vacuum shipper may include a vacuum container and a PCM pack with an outer wall broadly form fitting to the vacuum container. The PCM pack includes a payload cavity and may be pre-conditioned at an effective charging temperature for an effective charging time. A temperature-sensitive payload is placed in the payload cavity. An insulated stopper is pressed into a mouth of the vacuum container. The vacuum shipper may then be conveyed by commercial express freight to its destination within an effective endurance time.

A temperature-control device for receiving a reaction vessel having a heat-insulated interior space and which is covered by a lid. The reaction vessel has a hollow body and a cap, this hollow body being closed on one side by a base. The base contacts a heatable heating block in order to heat a sample located in the reaction vessel. The hollow body is surrounded by a heatable heating body which communicates with the lid via a heat-conducting contact region so that the heating body heats the hollow body directly and heats the cap indirectly via the lid.

Provided is a safety cabinet that reduces a temperature change between a storage environment temperature and a temperature in the safety cabinet to reduce damage to cultured microorganisms, cultured cells, or the like. The safety cabinet that includes a front panel and an operation opening in front of an operation space and an operation stage below the operation space and supplies purified air into the operation space from above, in which the operation stage is provided with a temperature-regulatable portion of which a temperature is regulatable.

Provided is a safety cabinet that reduces a temperature change between a storage environment temperature and a temperature in the safety cabinet to reduce damage to cultured microorganisms, cultured cells, or the like. The safety cabinet that includes a front panel and an operation opening in front of an operation space and an operation stage below the operation space and supplies purified air into the operation space from above, in which the operation stage is provided with a temperature-regulatable portion of which a temperature is regulatable.

A melting device is provided that melts a bio-derived frozen product contained in a container including a heat transfer section comprising at least two heating bags, each of which is filled with a heating liquid and is capable of sandwiching the container between the at least two heating bags and a suction mechanism that sucks air from a space between the at least two heating bags and surrounding the container.

A melting device is provided that melts a bio-derived frozen product contained in a container including a heat transfer section comprising at least two heating bags, each of which is filled with a heating liquid and is capable of sandwiching the container between the at least two heating bags and a suction mechanism that sucks air from a space between the at least two heating bags and surrounding the container.

According to one embodiment, an automatic analyzing apparatus includes a liquid tank, a first pump, a dispensing probe, and a thermal exchanger. The liquid tank stores a first liquid. The first pump pressurizes and sends the first liquid supplied from the liquid tank. The dispensing probe uses the first liquid that is sent out from the first pump as a pressure transmitting medium. The thermal exchanger exchanges heat between an atmosphere in the automatic analyzing apparatus and the first liquid in at least a part of a first flow path connecting the first pump to the liquid tank.

According to one embodiment, an automatic analyzing apparatus includes a liquid tank, a first pump, a dispensing probe, and a thermal exchanger. The liquid tank stores a first liquid. The first pump pressurizes and sends the first liquid supplied from the liquid tank. The dispensing probe uses the first liquid that is sent out from the first pump as a pressure transmitting medium. The thermal exchanger exchanges heat between an atmosphere in the automatic analyzing apparatus and the first liquid in at least a part of a first flow path connecting the first pump to the liquid tank.

A nucleic acid analysis apparatus with isothermal based amplification includes a chamber, a fluid delivery unit, a thermal unit, a rotational driven unit and at least one optical unit. The chamber includes a cartridge mounted therein. The fluid delivery unit is connected with the chamber and adapted to transport reagents within the cartridge for sample purification and/or nucleic acid extraction. The thermal unit is disposed in the chamber and adapted to provide a predefined temperature for nucleic acid amplification. The rotational driven unit is connected with the chamber and comprises a motion control unit, wherein the motion control unit is capable of pressing the cartridge during sample purification and/or nucleic acid extraction and rotating the cartridge with a predefined program during nucleic acid amplification and/or detection. The at least one optical unit is disposed on the chamber and includes plural optical components for detection.