Abstract: A rapid, sensitive method of separating and detecting microorganisms from a sample potentially containing microorganisms, such as but not limited to bacteria, fungi, yeast, viruses, and the like. The method relies on separation techniques to separate and concentrate the cells from the sample, together with chemical techniques to amplify the amount of detectable signal from low numbers of cells to provide a rapid and sensitive method of detecting microorganisms. This detection method may utilize: a filtration device; a centrifugation device; a system; a swab device; and kit comprising one or more of the devices and components to perform the present method of separating and detecting microorganisms in a sample potentially containing microorganisms. The sample may be a chemical, cosmetic, personal care, pharmaceutical, or consumable good in its raw material, in-process, and/or finished product states that needs to be tested for any contaminating microorganisms prior to shipment to the consumer.

Abstract: A rapid, sensitive method of separating and detecting microorganisms from a sample potentially containing microorganisms, such as but not limited to bacteria, fungi, yeast, viruses, and the like. The method relies on separation techniques to separate and concentrate the cells from the sample, together with chemical techniques to amplify the amount of detectable signal from low numbers of cells to provide a rapid and sensitive method of detecting microorganisms. This detection method may utilize: a filtration device; a centrifugation device; a system; a swab device; and kit comprising one or more of the devices and components to perform the present method of separating and detecting microorganisms in a sample potentially containing microorganisms. The sample may be a chemical (e.g., household cleaners), cosmetic, personal care, pharmaceutical, or consumable (e.g.

Abstract: A rapid, sensitive method of separating and detecting microorganisms from a sample potentially containing microorganisms, such as but not limited to bacteria, fungi, yeast, viruses, and the like. The method relies on separation techniques to separate and concentrate the cells from the sample, together with chemical techniques to amplify the amount of detectable signal from low numbers of cells to provide a rapid and sensitive method of detecting microorganisms. This detection method may utilize: a filtration device; a centrifugation device; a system; a swab device; and kit comprising one or more of the devices and components to perform the present method of separating and detecting microorganisms in a sample potentially containing microorganisms. The sample may be a chemical, cosmetic, personal care, pharmaceutical, or consumable good in its raw material, in-process, and/or finished product states that needs to be tested for any contaminating microorganisms prior to shipment to the consumer.

Abstract: A microfluidics device includes a plurality of interaction cells and fluid control means including i) means for providing to the interaction cells a preparation fluid, ii) means for providing to the interaction cells a sample fluid, wherein each interaction cell receives a different sample fluid, and iii) means for thermal control. A plurality of cantilevers may be disposed in each of the interaction cells, the cells or chambers formed by a cartridge bottom and top that form the device, wherein each of the plurality of cantilevers is configured to deflect in response to an interaction involving a component of the sample fluid. The cantilevers in each cell are attached to a reference plane that controls for environmental factors or non-analyte deflections.

Abstract: A microfluidics device includes a plurality of interaction cells and fluid control means including i) means for providing to the interaction cells a preparation fluid, and ii) means for providing to the interaction cells a sample fluid, wherein each interaction cell receives a different sample fluid. A plurality of microcantilevers may be disposed in each of the interaction cells, wherein each of the plurality of microcantilevers configured to deflect in response to an interaction involving a component of the sample fluid.

Abstract: A microfluidics device includes a plurality of interaction cells and fluid control means including i) means for providing to the interaction cells a preparation fluid, and ii) means for providing to the interaction cells a sample fluid, wherein each interaction cell receives a different sample fluid. A plurality of microcantilevers may be disposed in each of the interaction cells, wherein each of the plurality of microcantilevers configured to deflect in response to an interaction involving a component of the sample fluid.

Abstract: A microfluidics device includes a plurality of interaction cells and fluid control means including i) means for providing to the interaction cells a preparation fluid, and ii) means for providing to the interaction cells a sample fluid, wherein each interaction cell receives a different sample fluid. A plurality of microcantilevers may be disposed in each of the interaction cells, wherein each of the plurality of microcantilevers configured to deflect in response to an interaction involving a component of the sample fluid.