Abstract: A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration device comprising a sintered porous polymer matrix comprising at least one concentration agent that comprises diatomaceous earth bearing, on at least a portion of its surface, a surface treatment comprising a surface modifier comprising ferric oxide, titanium dioxide, fine-nanoscale gold or platinum, or a combination thereof; (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration device with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration device.

Abstract: The present disclosure describes methods for concentrating microorganisms with concentration agents in a sampling device and the sampling device described herein. More specifically, methods for concentrating microorganisms from large volume samples with concentration agents in a sampling device can provide for rapid, low cost, simple (involving no complex equipment or procedures), and/or effective processes under a variety of conditions.

Abstract: The present disclosure describes holder devices, testing kits that include the holder devices, and methods for using the holder devices to allow a user to dispense an aqueous test sample from a sampling device onto a culture plate device having a cover sheet, whereby the cover sheet is supported in an open position by the holder while the user dispenses the aqueous test sample onto a base member of the culture plate device.

Abstract: A method for isolating microorganisms from a sample, the sample including sample matrix and microorganisms, the method including the steps of providing a receptacle, the receptacle configured to allow filtering of the sample and to reversibly contain the sample and a concentration agent; adding the sample to the receptacle, wherein a microorganism-bound composition will be formed in the receptacle, the microorganism-bound composition including concentration agent-bound microorganisms and sample matrix; and filtering the microorganism-bound composition through a filter to collect the concentration agent-bound microorganisms on the filter, wherein the filter has an average pore size that is greater than the average size of the microorganisms. Kits and systems are also disclosed herein.

Abstract: A process comprises (a) providing (1) at least one sample suspected of comprising at least one coliform strain, (2) at least one culture device comprising at least one culture medium that is hydrated or hydratable, and (3) at least one particulate concentration agent that is substantially optically transparent when in contact with the culture medium in the culture device when the culture medium is hydrated; (b) placing the particulate concentration agent in contact with the sample such that at least a portion of the coliform strain is bound to the particulate concentration agent to form coliform-bound particulate concentration agent; (c) placing the coliform-bound particulate concentration agent in contact with the culture medium; (d) incubating the culture device comprising the coliform-bound particulate concentration agent in contact with the culture medium, the culture medium being hydrated; and (e) optically detecting the presence of the coliform strain without separating the coliform strain from the part

Abstract: Methods and systems for detecting the presence of a target microorganism in a liquid sample are provided. Methods comprise the steps of passing the liquid sample through a surface filter, placing the surface filter into contact with a culture device, incubating the culture device for a period of time and detecting the presence of a target microorganism. Methods may be used with an automated detection system.

Abstract: Methods of analyzing a sample for target microorganisms of interest are described. In particular, the methods are useful for detecting a variety of yeast and mold microorganisms based on the presence of a ubiquitous cell wall component, such as zymosan. Methods of analyzing a sample for fungal microorganisms using liposomes and/or culture media are also described.

Abstract: A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a particulate concentration agent that comprises gamma-FeO(OH); (b) providing a fluid sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the concentration agent is dispersed in the sample and at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

Abstract: A process for limiting the growth of microorganisms comprises (a) providing an antimicrobial agent comprising fine-nanoscale gold on a support medium comprising nanoparticulate titania, the fine-nanoscale gold having been deposited on the support medium by physical vapor deposition; and (b) contacting at least one microorganism with the antimicrobial agent.

Abstract: A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration agent that comprises diatomaceous earth bearing, on at least a portion of its surface, a surface treatment comprising a surface modifier comprising titanium dioxide, fine-nanoscale gold or platinum, or a combination thereof; (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

Abstract: A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration agent that comprises an amorphous metal silicate and that has a surface composition having a metal atom to silicon atom ratio of less than or equal to about 0.5, as determined by X-ray photoelectron spectroscopy (XPS); (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

Abstract: Compositions, methods, devices, and kits, which include an immobilized-metal support material comprising a substrate having a plurality of —C(O)O? or —P(O)(—OH)2-x(—O?)x groups bound to the substrate and a plurality of metal ions, My+, bound to the —C(O)O? or —P(O)(—OH)2-x(—O?)x groups; wherein M is selected from the group consisting of zirconium, gallium, iron, aluminum, scandium, titanium, vanadium, yttrium, and a lanthanide; y is an integer from 3 to 6; and x is 1 or 2, and to which microorganisms and polynucleotides bind, and which can be used for separating and optionally assaying microorganisms and/or a polynucleotide from a sample material are disclosed.

Abstract: Devices to process a sample are configured to releasably attach a sample acquisition device to a drive mechanism that provides rotational and/or vibrational motion to the sample acquisition device. The devices can be used in sample processing methods to dislodge sample materials from the sample acquisition device. Sample processing methods using rotational or vibrational motion may further include the use of a liquid medium into which the sample is released. Sample processing methods may further include the detection of an analyte in the sample.