Presented is a method and apparatus for loading. The method includes loading one of an individually sterilized item or a non-sterile item into the cart, the cart comprising a top portion, and a plurality of wheels fixedly coupled to a bottom portion of the cart able to freely rotate and support the cart. The method further includes loading a sterilizing cabinet onto the cart, the sterilizing cabinet being removeably affixed to the cart and comprising an interior, the interior containing collectively sterilized items, the interior being sterilizeable and resealable.

A door for a laboratory workstation is disclosed. The laboratory workstation has a horizontally extending work surface for providing a working area. The door is movable in relation to the work surface in a vertical direction perpendicular to the work surface between a safety position, in which the door closes the working area for manual access of a user, an access position in which the working area is open for manual access of a user, and a loading position.

A reagent management apparatus utilizing a flexible sheet that is foldable along scores into a disposable liner which may be freestanding via a “three point” structure. The disposable liner includes a reservoir for reagents and allows the pouring off of unused reagent into a storage container. The disposable liner may be used with a permanent base in certain cases.

One embodiment of the present disclosure provides a condition detection see-through storage box that stores objects, the condition detection see-through storage box including a storage box body configured to store the objects, a sensor configured to detect a specific condition inside the storage box, a door that is installed on the storage box body and has a transmission window, a light emitting module configured to increase an amount of emitted light according to a signal from the sensor, which has detected the specific condition inside the storage box, to increase an amount of light that is reflected from inside the storage box and heads toward the transmission window, and an optical film provided on the transmission window, thereby informing a user of the specific condition inside the storage box body, wherein the optical film has a light transmittance that prevents the storage box from being see-through from the outside before the sensor detects the specific condition and allows the storage box to be see-through from the outside due to light that is reflected from inside the storage box and transmitted through the transmission window and the optical film due to the light emitting module increasing the amount of emitted light according to the signal from the sensor that has detected the specific condition.

Systems, methods, and collection devices are disclosed for rapid, local PCR testing. The system may include a PCR testing module, memory configured to store computer-executable instructions, and at least one computer processor configured to access the memory and execute the computer executable instructions to: (i) receive an order for a PCR diagnostic test; (ii) associate a sample collection device (SCD) received by the PCR testing module with the order for a PCR diagnostic test; (iii) instruct the PCR testing module to conduct the PCR diagnostic test on a biological specimen in the SCD received by the PCR testing module; and (iv) cause presentation of results of the PCR diagnostic test.

Systems and methods are disclosed for rapid PCR testing. Example embodiments may include a PCR testing module that includes a housing having a PCR machine disposed therein; a sample input station on the housing, wherein the sample input station is configured to receive a sample collection device (SCD) comprising a biological specimen sample provided by the patient; an SCD processing mechanism configured to transfer a lysed microportion of the biological specimen sample into a PCR sample tube attached to the SCD; at least one mechanism configured to separate the PCR sample tube from the SCD and transfer the PCR sample tube to the PCR machine; and a controller configured to (i) use the PCR machine to conduct a PCR test on contents of the PCR sample tube, and (ii) generate results of the PCR test.

A novel waste bin carrier (100) is proposed for carrying at least one waste bin (200). The waste bin carrier (100) includes a frame (110) having a base (130) for receiving thereon one waste bin (200) or more. The waste bin carrier (100) also has a locking mechanism (120) movably attached to the frame (110) for releasably securing at least one waste bin (200) to the waste bin carrier (100). The locking mechanism (120) has a pusher guide (121) that extends in a first horizontal Cartesian dimension (X) for lateral engagement with the waste bin (200). The locking mechanism also has at least one articulated arm (122) that connects the pusher guide (121) to the frame (110) of the waste bin carrier (100) for allowing movement of the pusher guide (121) in respect to the frame (110) between the deployed state and the released state.

A system (1) for handling containers (7) having electronic product ID tags (15), the system comprises a storage cabinet (5) with lockable compartments (51) for storing tool kits (53) for handling the containers; each tool kit has an electronic ID tag associated with a predetermined compartment (51) in the storage cabinet and with a predetermined product ID tag of a container; access to each compartment is allowed or blocked by a respective electronically controlled lock; an electronic control unit (21); an electronic ID reader device (25) in communication with the electronic control unit, operable to read electronic ID tags of the components of the system and communicate same to the electronic control unit; the electronic control unit is operable to actuate the electronic lock of a predetermined compartment in the storage cabinet to allow access to said compartment upon matching the electronic product ID tag of a container with the associated electronic ID tag of the tool kit stored in the predetermined compartment, whilst keeping the remaining compartments locked.

A sample measuring system to reduce waste generated in a plurality of measurement units to be discarded to a common disposal unit while suppressing interference between measurement units due to waste disposal is provided. The sample measuring system includes a first measurement unit and a second measurement unit for measuring a sample, and a common disposal unit for storing waste generated from the first measurement unit and the second measurement unit. The first measurement unit includes a first disposal port connected to the disposal unit for discharging the waste generated in the first measurement unit. The second measurement unit includes a second disposal port connected to the disposal unit for discharging the waste generated in the second measurement unit.

Provided is a safety cabinet that prevents oversights in airtightness tests and HEPA filter penetration ratio tests even if a pathogen or the like leaks from a workspace wall surface in the interior of the safety cabinet. The safety cabinet includes: a work surface at the bottom of a workspace; a front panel at the front of the workspace; a work opening section below the front panel; and a first air purification means that filters exhaust air that is air discharged from within the workspace. The safety cabinet is characterized in that the non-workspace sides of a side wall surface and a back wall surface of the workspace are formed by an outer wall of a device with prescribed airtightness performance.