The present invention provides photosensitizer compounds for use in detecting beta-lactamase activity. Methods and kits that utilize the photosensitizer compounds of the invention for the detection of, quantitation of, and classification or typing of microbial beta-lactamases.

In an analysis method of the present invention, a compound represented by the following formula (I) as a matrix is mixed into an analysis target sample and the mixture is subjected to matrix-assisted laser desorption ionization mass spectrometry. In the formula (I), R is an alkyl group having 3-11 carbon atoms. The analysis target sample is a substance for which whether or not β-lactamase is contained is to be determined. Analysis targets include, for example, bacteria and an extract from bacteria. ##STR00001##

The present invention relates to a method for detecting a pathogenic strain having resistance to β-lactam antibiotics in a biological sample, and a method for identifying a protein involved in resistance in β-lactam antibiotics, which is contained in a biological sample. According to the present invention, it is possible to quickly and accurately determine not only whether a pathogenic strain has resistance to antibiotics, but also the type of protein involved in the resistance, by directly identifying an extended spectrum β-lactamase (ESBL) protein with a truncated N-terminus through mass spectrometry. Accordingly, the present invention can be effectively utilized to quickly establish an appropriate antibiotic administration strategy at the initial stage of infection.

A method of calibrating a device for measuring the concentration of creatinine using one or more calibration solutions, the method comprising: receiving concentrations at an initial time of creatine, Cr, and/or creatinine, Crn, of the one or more calibration solutions; receiving outputs of the measuring device at the end time; calculating the concentration of Cr and/or Crn in the calibration solutions at an end time using a temperature model, wherein the temperature model indicates changes in temperature of the calibration solutions from the initial time to the end time; and determining a relationship between the outputs of the measuring device and the calculated concentrations of Cr and/or Crn.

Provided herein are compositions, methods, systems and/or kits for detection of bacteria expressing enzymes that confer resistance to antimicrobial agents. Certain embodiments of the compositions, methods, systems and/or kits of the present disclosure are related to detection of carbapenemase-producing gram negative bacteria. Certain embodiments of the compositions, methods, systems and/or kits of the present disclosure are related to detection of Ambler Class A, B and/or D carbapenemase-producing enteric and non-fermenting gram negative rod bacteria.

Phenotypic antimicrobial susceptibility testing (AST), the gold-standard diagnostic that indicates whether an antimicrobial will be clinically effective, often suffer the slowest times-to-result for the most resistant pathogens. Here we introduce novel assays to be performed in parallel with standard AST assays that enable rapid, same-shift reporting of AST results for a plurality of pathogens. The assays developed here are further capable of detecting resistance to carbapenems, the most powerful class of beta-lactams commonly used as “last-resort” antimicrobials.

Phenotypic antimicrobial susceptibility testing (AST), the gold-standard diagnostic that indicates whether an antimicrobial will be clinically effective, often suffer the slowest times-to-result for the most resistant pathogens. Here we introduce novel assays to be performed in parallel with standard AST assays that enable rapid, same-shift reporting of AST results for a plurality of pathogens. The assays developed here are further capable of detecting resistance to carbapenems, the most powerful class of beta-lactams commonly used as “last-resort” antimicrobials.

The present disclosure relates to a compound represented by Chemical Formula 1, a probe for detecting antibiotic-resistant bacteria, which includes the compound, a composition containing the compound, a kit including the compound and a method for detecting antibiotic-resistant bacteria. A compound probe having a carbapenem structure and including a linker and a fluorophore can detect beta-lactamase or carbapenemase at high sensitivity and, therefore, can be applied to various biochemical researches. In addition, the compound probe can clinically detect carbapenemase-producing antibiotic-resistant bacteria and allows molecular diagnosis of antibiotic-resistant bacterial infectious diseases and analysis of antibiotic-resistant bacteria from a target sample at high sensitivity. Therefore, it can be effectively used for medicinal uses such as in-vitro diagnosis.

Presented herein are methods and compositions for the detection of specific beta-lactamases, including class A serine carbapenemases, metallo-beta-lactamases, AmpC beta-lactamases, and extended-spectrum beta-lactamases (ESBLs). The methods presented herein include methods that permit the detection of the presence of specific beta-lactamases in bacterial samples within as few as 2 to 10 minutes.

A method of calibrating a device for measuring the concentration of creatinine in a sample including one or more enzyme modulators, the device comprising an enzyme layer, the method comprising: determining sensitivities of the device for each of one or more calibration solutions; determining a degree of modulation for the sample to be measured, determining a degree of modulation for each calibration solution; wherein said determining of each of the degrees of modulation comprises estimating the concentration of an enzyme modulator in the enzyme layer of the device; and calculating the sensitivity of the device for the sample, wherein the said calculating comprises adjusting the sensitivity of the device for each calibration solution by a factor comprising the determined degrees of modulation of the sample and the calibration solution.