A system, configured to facilitate processing and detection of nucleic acids, the system comprising a process fluid container and a cartridge comprising: a top layer, a set of sample port-reagent port pairs, a shared fluid port, a vent region, a heating region, and a set of detection chambers; an intermediate substrate, coupled to the top layer comprising a waste chamber; an elastomeric layer, partially situated on the intermediate substrate; and a set of fluidic pathways, each formed by at least a portion of the top layer and a portion of the elastomeric layer, wherein each fluidic pathway is fluidically coupled to a sample port-reagent port pair, the shared fluid port, and a detection chamber, comprises a portion passing through the heating region, and is configured to be occluded upon deformation of the elastomeric layer, to transfer a waste fluid to the waste chamber, and to pass through the vent region.

The present disclosure, in some aspects, provides devices useful for determining a target nucleic acid profile of a sample. The device comprises an enrichment module, a reaction module and a nucleic acid sequencer. In other aspects, the present disclosure provides kits, components and compositions (such as consumables) of the devices and methods of using the devices described herein.

Methods and systems for managing a petri-dish. Embodiments herein disclose a RFID tag affixed on the petri-dish, wherein the RFID tag has a thin formfactor, so as not to interfere in the use and operation of the petri-dish and a sufficiently large readability range. Embodiments herein disclose methods and systems for RFID based asset tracking of petri-dishes in a laboratory/pharmaceutical/manufacturing environment, wherein the movement of the petri-dishes are tracked automatically with minimal manual intervention.

An apparatus for preparing a reagent solution includes an enclosure and a container disposed within the enclosure. The container defines an internal cavity having a compressible volume and defines a passage providing fluidic communication between the internal cavity and the exterior of the container. Optionally, a compressible member is disposed within the internal cavity. A reagent is disposed within the internal cavity.

A system for biological analysis includes a housing, a block assembly within the housing having a sample block and a baseplate, a heated cover and a cover carrier. The sample block receives a sample holder comprising an RFID tag. A first drive mechanism generates relative movement between the sample block and the baseplate along a first axis. A second drive mechanism generates relative movement between the heated cover and the cover carrier along a second axis that is different from the first axis. Based on a first command the first drive mechanism releasably engages the sample block and operates the second drive mechanism to releasably engage the heated cover with the cover carrier. The system also includes first and second RFID antennas that receive RFID data from the sample holder RFID tag that is read by at least one RFID reader.

The present disclosure relates to a radio-frequency identification system for a cryogenic straw comprising: at least one integrated circuit configured to store information and generate a radio-frequency signal in a frequency range of between 30 MHz and 3 GHz; and at least one antenna comprising a conductive thread configured to be integrated, such as molded, into a sidewall of the cryogenic straw. The disclosure further relates to a cryogenic straw comprising at least one antenna, the antenna comprising a conductive thread or rod, wherein the at least one antenna is integrated, such as molded, into a sidewall of the cryogenic straw.

The invention provides devices that improve tests for detecting specific cellular, viral, and molecular targets in clinical, industrial, or environmental samples. The invention permits efficient detection of individual microscopic targets at low magnification for highly sensitive testing. The invention does not require washing steps and thus allows sensitive and specific detection while simplifying manual operation and lowering costs and complexity in automated operation. In short, the invention provides devices that can deliver rapid, accurate, and quantitative, easy-to-use, and cost-effective tests.

A work glove is installed at the port flange, with the result that the operator can enter the working chamber of the containment in a protected manner. A multiplicity of port flanges are usually mounted on the containment and a work glove is fastened in each case to the respective port flange. Machinery for processing material to be treated is often set up in the working chamber. In order to temporarily block the access, a shut-off part which can be moved into a blocking position and an open position is provided. In order to record personal data relating to the operator, the arrangement has a capture unit which has a connection to a microcontroller.

The invention relates to a system and method for traceability of transport of containers of biological samples, arranged in a containment rack, from a drawing point to an analysis point, in which a preparation apparatus is able, for each containment rack going out from the drawing point, to identify the containment rack, to detect the measurement of the outgoing mass of the containment rack and to store the measurement of the outgoing mass in a centralized database, and in which a check-in apparatus is able, for each containment rack coming to the analysis point, to identify the containment rack, to detect the measurement of the incoming mass of the containment rack and to compare the measurement of the outgoing mass with the detected measurement of the incoming mass, generating an alert if the measurement of the outgoing mass is different from the measurement of the incoming mass.