[Evaluation of the Clinical Validity of the Clostridioides difficile Nucleic Acid Detection Kit "Smart Gene® CD ToxinB"].

Clostridioides difficile is the most common anaerobic bacterium that causes healthcare-associated infections, and prompt diagnosis and infection control are important because it causes C. difficile infection (CDI). In this evaluation, the C. difficile nucleic acid detection reagent, Smart Gene CD Toxin B (Mizuho Medy Co., Ltd., hereinafter referred to as the "evaluation reagent") was evaluated for its clinical performance in comparison with real-time PCR and toxigenic culture (TC). Measurement of evaluation reagents and real-time PCR were performed on 157 residual stool specimens from suspected CDI patients. For TC, stool culture was performed, and colonies in which C. difficile was identified by a mass spectrometer (MALDI Biotyper) were checked for toxin production using a rapid antigen diagnostic kit. The results of the evaluation reagents showed a high concordance rate; 100% sensitivity (81/81) and 100% specificity (76/76) with real-time PCR, 89.8% sensitivity (79/88), and 97.1% specificity (67/69) with TC. The evaluation reagent enables a simple nucleic acid amplification test (NAAT) in a short time and is thought to be useful in CDI treatment, which requires rapid diagnosis and infection control.

[Development and Evaluation of Screening Culture Medium for Detection of Drug-Resistant Gram Negative Rods Containing Stealth Type CPE].

There is a report that an infection by medicine resistant bacteria will be the number one cause of death in 2050 according to the recommendation of WHO, and the CPE (carbapenem-producing Enterobacteriaceae) infection is regarded as a problem in particular. When detecting CPE, it is important how to detect stealth type CPE sensitive to carbapenem series medicines. So we used the 2 types of screening culture medium, "KBM" CRE-JU culture medium (CRE-JU culture medium) and the FRPM culture medium, and tried to detect drug-resistant gram-negative bacilli such as CPE, stealth type CPE, ESBL-producing bacteria, and excess AmpC-producing bacteria (AmpC-producing bacteria), etc. in combination of this culture mediums. As a result, CRE-JU culture medium showed a difference in the growth of CPE depending on the amount of inoculated bacteria while ß-lactamase non-producing strain and other strains except for high concentration ESBL-producing bacteria and AmpC-producing bacteria were un-growing. Most of the CRE, stealth type CPE, ESBL-producing bacteria and AmpC-producing bacteria grew in the FRPM culture medium while most of the ß-lactamase non-producing strains with a MIC value of meropenem (MEPM) of 2 µg/mL or less were un-growing. From these results, it was suggested that when a strain grown on CRE-JU and FRPM culture mediums, it could be distinguished as CPE, and when strains grown on FRPM culture medium which were un-grown on CRE-JU culture medium, it could be distinguished as drug-resistant bacteria such as stealth type CPE, ESBL-producing bacteria, and AmpC-producing bacteria. When strains not grown on CRE-JU and FRPM culture mediums, it could be distinguished as sensitive.