The disclosure relates to devices, solutions and methods for collecting and processing samples of bodily fluids containing cells (as well as embodiments for the collection, and processing and/or analysis of other fluids including toxic and/or hazardous substances/fluids). In addition, the disclosure relates generally to function genomic studies and to the isolation and preservation of cells from saliva and other bodily fluids (e.g., urine), for cellular analysis. With respect to devices for collection of bodily fluids, some embodiments include two mating bodies, a cap and a tube (for example), where, in some embodiments, the cap includes a closed interior space for holding a sample preservative solution and mates with the tube to constitute the (closed) sample collection device. Upon mating, the preservation solution flows into the closed interior space to preserve cells in the bodily fluid. The tube is configured to receive a donor sample of bodily fluid (e.g., saliva, urine), which can then be subjected to processing to extract a plurality of cells. The plurality of cells can be further processed to isolate one and/or another cell type therefrom. The plurality of cells, as well as the isolated cell type(s), can be analyzed for functional genomic and epigenetic studies, as well as biomarker discovery.

The disclosure relates to devices, solutions and methods for collecting and processing samples of bodily fluids containing cells (as well as embodiments for the collection, and processing and/or analysis of other fluids including toxic and/or hazardous substances/fluids). In addition, the disclosure relates generally to function genomic studies and to the isolation and preservation of cells from saliva and other bodily fluids (e.g., urine), for cellular analysis. With respect to devices for collection of bodily fluids, some embodiments include two mating bodies, a cap and a tube (for example), where, in some embodiments, the cap includes a closed interior space for holding a sample preservative solution and mates with the tube to constitute the (closed) sample collection device. Upon mating, the preservation solution flows into the closed interior space to preserve cells in the bodily fluid. The tube is configured to receive a donor sample of bodily fluid (e.g., saliva, urine), which can then be subjected to processing to extract a plurality of cells. The plurality of cells can be further processed to isolate one and/or another cell type therefrom. The plurality of cells, as well as the isolated cell type(s), can be analyzed for functional genomic and epigenetic studies, as well as biomarker discovery.

A laboratory storage cabinet, including a cabinet housing, which delimits a storage space inside the cabinet housing from an outer surrounding area of the storage cabinet, wherein the cabinet housing has an air lock, which allows the transport of material between an inner transfer position, situated in the storage space, and an outer transfer position, situated in the outer surrounding area, wherein the storage space contains a storage device for receiving material at defined storage positions, and wherein the storage space contains a material-handling device for transporting material between the inner transfer position and the storage device, wherein, in a wall of the cabinet housing, the air lock has an air-lock opening, which passes through the wall, the air lock having a rotary element, which is mounted rotatably about an axis of rotation in relation to the cabinet housing and has at least one loading formation, which is fitted in the air-lock opening in such a way that the loading formation can be moved between the inner transfer position and the outer transfer position by rotation of the rotary element about the axis of rotation.

A digital slide scanning apparatus includes a safety light curtain that operates to disable the motor that rotates the carousel when the presence of an object (e.g., the fingers of an operator) is detected within a predetermined area of the carousel. The light curtain also operates to disable the motor that rotates the carousel when an improperly positioned glass slide or slide rack is detected. The digital slide scanning apparatus also includes a multi-color status indicator for each rack slot that indicates the rack slot location of an improperly positioned glass slide or slide rack.

According to an embodiment of the disclosure, a vial cap is configured for sealing attachment to a tube set and to a vial having a hollow interior configured for receiving and storing a liquid sample. The vial cap may comprise an axially extending cylindrical wall and a radially extending cap top disposed within the cylindrical wall, wherein the cap top has an upper surface and a lower surface. The vial cap may include at least two exterior tubes extending upwardly from the upper surface of the cap top, wherein each exterior tube defines a passageway configured to communicate with the tube set. The vial cap may further include at least two interior tubular structures extending downwardly from the lower surface of the cap top, wherein the at least two interior tubular structures each define a passageway configured to communicate with one of the exterior tubes and the hollow interior.

The present invention generally relates to a sample receiving device for releasably storing a substance. The sample receiving device includes a lid having a reservoir for retaining the substance, and a pierceable barrier sealing the substance within the reservoir; and b) a funnel for receiving a sample and configured for closure by the lid. The funnel is configured for releasable attachment to a sample receptacle such that a sample can be provided to the funnel and travel through the channel in the funnel into the sample receptacle. Further, the funnel includes one or more cutting ribs for cutting the pierceable barrier such that upon cutting of the pierceable barrier the substance is released from the reservoir, flows through the channel in the funnel and into the sample receptacle to be mixed with the sample. The present invention also provides a kit for collecting and storing biomolecules.

A fluid specimen collection receptacle includes a cup containing a chamber and an open end and a lid for connection with the cup open end and closing the cup chamber. A closure and a specimen collection needle are connected with the lid and a reservoir is arranged beneath the lid and connected with the closure for rotation relative to the lid between open and closed positions. The closure affords access to the needle when the closure is in the open position and prevents access to the needle when the closure is in the closed position. The reservoir includes a chamber closed by a portion of the lid when the closure is in the open position. When the closure is rotated to the closed position, the reservoir is opened for communication with the cup chamber to release an absorbent material from the reservoir chamber into the cup chamber to solidify any residual fluid specimen within the cup chamber.

A device for detecting nucleic acids in a biological sample has a sample port, a lysis station and a sample conduit configured to mix a sample and lysis agent to form a sample-lysis mixture, pass the sample-lysis mixture across a solid-state membrane to capture nucleic acids in the biological sample therein, and receive the remainder of the sample-lysis mixture in a waste chamber. The wash station is configured to introduce the wash solution following the sample-lysis mixture, pass the wash solution across the solid-state membrane to purify nucleic acids captured therein, and receive the wash solution from the solid-state membrane in the waste chamber. The elution station is configured to pass the eluent across the solid-state membrane, elute captured nucleic acids from the solid-state membrane, and pass the captured nucleic acids into one or more reaction chambers for amplifying and detecting the captured nucleic acids.

The present invention provides systems, methods and apparatus for enabling a female user to hygienically collect a urine sample, the apparatus includes a container including a urine collection body for receiving a urine sample from the female user with and a separator mechanism for separating a first volume of urine of the urine sample to a first urine storage element and a second volume of urine of the urine sample to a second urine storage element, a lid for closing the container after the urine sample has been received and optionally a handle for holding the container.

The disclosure provides a modular isolator apparatus. The apparatus comprises an isolator comprising a housing, having an opening therein, and an isolator coupling member disposed around the opening. The apparatus further comprises at least one functional unit comprising a functional unit coupling member configured to reversibly couple with the isolator coupling member, thereby reversibly coupling the functional unit and the isolator. The apparatus further comprises at least one sealing member, configured to create an airtight seal between the isolator and functional unit coupling members when they are coupled; and at least one locking member, configured to secure the functional unit to the isolator when the isolator and functional unit are coupled. The apparatus is characterised in that when the functional unit is not secured to the isolator it is removable therefrom.