Abstract: A sterility indicating composition comprising a plurality of sterilization process resistant spores; a germination medium comprising a sub-lethal amount of at least one cell-permeant nucleic acid-interacting fluorescent dye and at least one nutrient for germination of the spores; wherein the at least one cell-permeant fluorescent dye can interact with nucleic acids present in and produced by the plurality of spores during germination or during germination and outgrowth of the spores to produce an increase in fluorescence intensity, indicating that viable spores are present, and wherein the cell-permeant fluorescent dye is sufficiently stable at least at a temperature for incubating the spores to produce the increase in fluorescence intensity, a sterilization process indicator comprising the composition, and a method of determining the effectiveness of a sterilization process using the composition and indicator are disclosed.

Abstract: A sterility indicating composition comprising a plurality of sterilization process resistant spores which contain an active protease during germination and initial outgrowth of the spores; and a germination medium comprising at least one labeled protease substrate and at least one nutrient for germination of the spores; wherein the medium is essentially free of a) any active protease other than the active protease contained by the plurality of spores and b) any protease substrate other than the at least one labeled protease substrate, other than any protease substrate originating from the plurality of spores, and other than any protease substrate which does not compete with the labeled protease substrate for the active protease; and wherein the at least one labeled protease substrate comprises a peptide which can be cleaved by the active protease and which is labeled with one or more dye groups, at least one of which undergoes a detectable change when the peptide is cleaved by the active protease, and wherein

Abstract: A biological sterilization indicator, system, and methods of determining the effectiveness of a sterilization process. The biological sterilization indicator can include a locus of spores, a reservoir containing a liquid, and a sterilant path positioned to provide fluid communication between ambience and the locus of spores. The reservoir can have a closed state in which the reservoir is not in fluid communication with the locus of spores and an open state in which the reservoir is in fluid communication with the locus of spores. The biological sterilization indicator system can include the biological sterilization indicator and a detection device adapted to be coupled to the biological sterilization indicator. In some embodiments, the method can include assaying the spores for a detectable change in a characteristic, and detecting substantially all of the detectable change.

Abstract: The invention relates to methods of capturing bacterial whole cells that includes the use of one or more antibodies having antigenic specificities for one or more distinct analytes characteristic of the specific bacterium, followed by analyzing the target whole cells using a direct or indirect ATP assay.

Abstract: The invention relates to methods of analyzing a sample for a bacterium of interest. In particular, the methods involve an initial capture process that includes the use of one or more antibodies having antigenic specificities for one or more distinct analytes characteristic of the specific bacterium. After initial capture of a specific bacterium, techniques of analyzing involve colorimetric techniques, particularly using colorimetric sensors that include polydiacetylene (PDA) materials.

Abstract: In certain embodiments, the invention relates to methods of capturing bacterial whole cells that includes the use of two or more antibodies having antigenic specificities for two or more distinct analytes characteristic of the specific bacterium. In certain embodiments, the invention relates to methods of analyzing a sample for a bacterium of interest. In particular, the methods are useful for detecting one or more analytes characteristic of a bacterium of interest, such as components of cell walls that are characteristic of a bacterium, particularly Staphylococcus aureus.

Abstract: The invention relates to systems and methods for preparing and analyzing samples (e.g., mucosal samples) for a microorganism of interest. In particular, the systems and methods are useful for detecting one or more analytes characteristic of a microorganism (i.e., microbe) of interest, such as components of cell walls that are characteristic of a microbe, particularly Staphylococcus aureus.