Abstract: A system and method for deglazing or defrosting items, for cleaning wares, and/or for thermalizing/rethermalizing food items. The system includes a tank for holding fluid and a wash pump for creating a rolling washing action within the wash tank. The method includes placing items into the fluid so that as the fluid rolls within the wash tank, the items become deglazed or defrosted. The system further includes a discharge manifold with a plurality of discharge jets, a flow balancer for equalizing flow to multiple sections of the tank, and a diffuser plate for equalizing flow within a section of the tank. The various components of the system can be removed for cleaning, inspection, and/or replacement. The discharge manifold is accessible for removal and is configured to be easily cleaned.

Abstract: A solid substrate for biological sample storage under dry-state and elution of biomolecules is provided. The dry, solid substrate comprises a surface modified with a plurality of hydrophilic groups; and the substrate is comprised of one or more protein denaturing agents impregnated therein under a substantially dry state. A method for elution of biomolecules from biological samples is also provided. The compositions disclosed herein provide for enhanced elution and recovery of biomolecules, such as nucleic acids, from the sample. The sample is disposed on a substrate, dried to a substantially dry state; eluted from the biological sample dried on the substrate by rehydrating the substrate in an elution buffer.

Abstract: A rapid diagnostic testing device for testing of a biological sample is provided. The device comprises a channeled construct, at least one lateral flow unit, and a cassette housing. The channeled construct is configured to receive a biological sample to form at least partially purified biological sample. The lateral flow unit is at least partially disposed in the cassette housing. The lateral flow unit comprises: a sample receiving zone, a conjugate zone and a detection zone. The sample receiving zone is operatively coupled to the channeled construct for receiving the partially purified biological sample comprising at least one analyte. The conjugate zone comprising a conjugate particle to bind the analyte is disposed adjacent to the first side of the sample receiving zone. The detection zone is disposed adjacent to the second side of the sample receiving zone and comprises at least one binding agent for detecting the analyte.

Abstract: A membrane including a block copolymer is presented. The block copolymer includes at least one block A including structural units having a formula (I), and at least one block B including structural units having a formula (II). A hollow-fiber membrane for hemodialysis or hemofiltration, and associated block copolymer are also presented.

Abstract: The present disclosure relates to a sample assessment device. By way of example, the sample assessment device may include a substrate including a sample application region; an amplification region comprising a plurality of amplification reagents; a waste region comprising an entrance fluidically coupled to the amplification region and extending away from the amplification region; and a detection region spaced apart from the amplification region. The sample assessment device may also include a valve coupled to the substrate and configured to separate the amplification region from the detection region in a closed configuration, wherein the amplification region and the valve are positioned on the sample assessment device between the sample application region and the detection region and wherein the sample assessment device is configured to permit lateral flow from the amplification region to the detection region when the valve is in an open configuration.

Abstract: A membrane including a block copolymer is presented. The block copolymer includes at least one block A including structural units having a formula (I), and at least one block B including structural units having a formula (II). A hollow-fiber membrane for hemodialysis or hemofiltration, and associated block copolymer are also presented.

Abstract: A device comprising a modified porous membrane is provided. The modified porous membrane comprises a polymer coating grafted to a porous membrane. The device is used for analyte detection from a biological sample using an immunoassay. The device comprises a sample application zone at one end of the device for applying a biological sample comprising a target analyte; and a detection zone present at another end of the device, downstream of the sample application zone for detecting the target analyte, wherein the detection zone comprises one or more first biomolecules immobilized on a modified porous membrane having a structure of Formula (I).

Abstract: A modified porous membrane comprising a polymer coating grafted to a porous membrane is described. A method for analyte detection from a biological sample using an immunoassay is also provided using the modified membrane, wherein the method comprises a) providing a modified porous membrane having the structure of Formula (I), b) incubating the modified porous membrane with a first biomolecule, wherein the first biomolecule binds to the modified porous membrane to form a first biomolecule bound modified porous membrane; and c) adding a biological sample comprising at least an analyte to the first biomolecule bound modified porous membrane for analyte detection by binding the analyte to the first biomolecule bound to the modified porous membrane.

Abstract: A storage system for storing a product sensitive to oxygen or moisture includes a container with a bottom, a top edge defining a top opening, and a wall extending between the bottom and the top edge. The bottom, top edge, and wall define an inside volume. The system further includes a sealing member removably attached to the top edge and sealing the top opening, and a scavenger element in fluid communication with the inside volume, where the scavenger element is constructed to absorb moisture, oxygen, or a combination thereof. The wall and the bottom of the container include layers with at least one of an in-mold label, an oxygen barrier, or a moisture barrier. The system may further include a scavenger compartment and a retainer disc for retaining the scavenging element in the scavenger compartment. The container may optionally be flushed with an inert gas and hermetically sealed, and be closed with a lid.

Abstract: A method is provided herein, the method includes: applying a sample comprising target nucleic acids to a sample application zone of a substrate; and flowing a nucleic acid amplification reaction mixture across a length of the substrate through the sample application zone to amplify the target nucleic acid forming a nucleic acid amplification product; wherein the target nucleic acid having a first molecular weight is substantially immobilized at the sample application zone and wherein the amplification product having a second molecular weight migrates away from the sample application zone. An associated device is also provided.

Abstract: A membrane including a block copolymer is presented. The block copolymer includes at least one block A including structural units having a formula (I), and at least one block B including structural units having a formula (II). A hollow-fiber membrane for hemodialysis or hemofiltration, and associated block copolymer are also presented.

Abstract: An electrospinning approach is disclosed for generating a dissolvable formulation of a reagent of interest in a nanoscale fiber medium. In one embodiment, the nanoscale fibers can incorporate and stabilize biological agents of interest, such as for storage at room temperature for extended periods. In one implementation, the fibers can be produced in a continuous manner and dissolve rapidly.

Abstract: Provided herein are methods for amplification a target dsDNA that is impregnated within a porous matrix using endonuclease-assisted DNA amplification. The amplicons may be subsequent detected within the porous matrix or may be eluted out of the porous matrix. Methods for extracting a genetic material from a biological sample using endonuclease-assisted DNA amplification within a porous matrix are also provided.

Abstract: The present disclosure generally relates to solid matrices for the extraction, stabilization, and storage of nucleic acids, particularly RNA, in a dry format under ambient conditions for a prolonged period of time. Methods for extracting, collecting, and recovering nucleic acids from the solid compositions are also described.

Abstract: A solid substrate for biological sample storage under dry-state and elution of biomolecules is provided. The dry, solid substrate comprises a surface modified with a plurality of hydrophilic groups; and the substrate is comprised of one or more protein denaturing agents impregnated therein under a substantially dry state. A method for elution of biomolecules from biological samples is also provided. The compositions disclosed herein provide for enhanced elution and recovery of biomolecules, such as nucleic acids, from the sample. The sample is disposed on a substrate, dried to a substantially dry state; eluted from the biological sample dried on the substrate by rehydrating the substrate in an elution buffer.

Abstract: A separation matrix comprises a porous surface layer; and a bulk porous support, wherein both the porous surface layer and the bulk porous support comprising a block copolymer. The block copolymer comprises A-B or A-B-A repeating units, wherein A and B at each occurrence are two different blocks of oligomer, or polymer. A structural unit of block A is derived from one or more atom transfer radical polymerization (ATRP)-active monomer or oligomer and a structural unit of block B is derived from a thermoplastic ATRP-active macro initiator. A poly dispersity index of the block copolymer is at least about 2.

Abstract: In various implementations, a supplemental system may be provided. The supplemental system may be coupled to business intelligence environment(s) to facilitate deployment, version control, testing, and/or other processes. In some implementations, the supplemental system may be communicably coupled to an external version control. The external version control may store one or more versions of components of the business intelligence environment(s) and the supplemental system may utilize the versions to perform one or more operations, such as, but not limited to, facilitating deployment, version controlling, and/or testing. In some implementations, the supplemental system may utilize information from a ticket manager in deployments of BI Artifact(s).

Abstract: The present disclosure relates to methods and compositions for the detection of infectious proteins or prions in samples, including the diagnosis of prion related diseases. One embodiment is an ultrasensitive method for detecting PrP-res (PrPSc) that allows the use of recombinant PrP-sen (rPrP-sen) as a substrate for seeded polymerization. A sample is mixed with purified rPrP-sen to make a reaction mix which is incubated to permit aggregation of the rPrP-sen with the PrP-res that may be present in the sample. Any aggregates are intermittently disaggregated by agitation and the reaction allowed to proceed to amplify target substrate. Any rPrP-res(Sc) in the reaction mix is detected to indicate the presence of PrP-res in the original sample. In the QUIC method in, the reaction mixture is shaken intermittently. The surprising speed and efficiency of the method permits the rapid identification and diagnosis of prion disease.

Abstract: The present disclosure generally relates to solid matrices for the extraction, stabilization, and storage of nucleic acids, particularly RNA, in a dry format under ambient conditions for a prolonged period of time. Methods for extracting, collecting, and recovering nucleic acids from the solid compositions are also described.