Single dye fluorescent staining (with a membrane—associated dye such as FM 1-43 or FM 4 -64) and the combination of differences in both intensity and spectral emission discriminate live from inactivated/dead bacteria and provides for rapid and accurate detection of live bacteria in mixed populations.

The invention provides a technology for promptly determining bacterial identification or an antimicrobial susceptibility testing. In the invention, first, a state where the bacteria are divided is monitored by performing microscopic observation with respect to the shape or the number of bacteria in each of wells of a culture plate for bacterial identification culture or the antimicrobial susceptibility testing. In addition, the shape, the number or the area of the bacteria are interpreted from the image obtained by the microscopic observation whether or not the bacteria proliferate at a stage from an induction phase to a logarithmic phase, and the time-dependent changes thereof are made into a graph. From the graph, it is determined whether or not the bacteria proliferate for each measurement, the determination results are displayed on the screen, and accordingly, the result of the antimicrobial susceptibility is provided every time when the measurement is performed (FIG. 12).

The present invention aims at providing a specific antibody that can simply and rapidly detect Mycoplasma pneumoniae which is a causative bacterium of mycoplasma pneumonia, with high sensitivity, and also an immunological detection method and a kit containing the same antibody. The present invention makes it possible to diagnose infection with Mycoplasma pneumoniae more rapidly and specifically than the conventional method, by producing an antibody recognizing a specific epitope of P30 protein of Mycoplasma pneumoniae and performing an immunological detection using the antibody. Also, the present invention enables easy and rapid detection of Mycoplasma pneumoniae and diagnosis of infection with the same at a hospital or the like without need of specialized instruments or skilled techniques.

The present invention aims at providing a specific antibody that can simply and rapidly detect Mycoplasma pneumoniae which is a causative bacterium of mycoplasma pneumonia, with high sensitivity, and also an immunological detection method and a kit containing the same antibody. The present invention makes it possible to diagnose infection with Mycoplasma pneumoniae more rapidly and specifically than the conventional method, by producing an antibody recognizing a specific epitope of P30 protein of Mycoplasma pneumoniae and performing an immunological detection using the antibody. Also, the present invention enables easy and rapid detection of Mycoplasma pneumoniae and diagnosis of infection with the same at a hospital or the like without need of specialized instruments or skilled techniques.

This document provides methods and materials involved in assessing mammals (e.g., humans) for arthritis. For example, methods and materials for assessing a mammal's gut microbial diversity to identify the mammal as having arthritis (e.g., rheumatoid arthritis) are provided. This document also provides methods and materials involved in treating arthritis.

This document provides methods and materials involved in assessing mammals (e.g., humans) for arthritis. For example, methods and materials for assessing a mammal's gut microbial diversity to identify the mammal as having arthritis (e.g., rheumatoid arthritis) are provided. This document also provides methods and materials involved in treating arthritis.

Among other things, motility of at least one individual microorganism or a change in motility of at least one individual microorganism or both is or are characterized. The characterized motility or change in motility is used to detect the presence or count of the at least one individual microorganism, or determine the identity of a species or strain of the at least one individual microorganism, or determine a susceptibility of the at least one individual microorganism to one or more antibiotics or other antimicrobials.

Among other things, motility of at least one individual microorganism or a change in motility of at least one individual microorganism or both is or are characterized. The characterized motility or change in motility is used to detect the presence or count of the at least one individual microorganism, or determine the identity of a species or strain of the at least one individual microorganism, or determine a susceptibility of the at least one individual microorganism to one or more antibiotics or other antimicrobials.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed comprising: (a) using a first device to generate smoke, aerosol or vapour from a target in vitro or ex vivo cell population; (b) mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and (c) analysing said spectrometric data in order to identify and/or characterise said target cell population or one or more cells and/or compounds present in said target cell population.

A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed comprising: (a) using a first device to generate smoke, aerosol or vapour from a target in vitro or ex vivo cell population; (b) mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and (c) analysing said spectrometric data in order to identify and/or characterise said target cell population or one or more cells and/or compounds present in said target cell population.