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Publikasi Scopus 2025 per tanggal 31 Januari 2025 (67 artikel)
Publikasi Scopus 2025 per tanggal 31 Januari 2025 (67 artikel)
Shahab, Selvi N. (58076961800); van Veen, Anneloes (58532091300); Kemper, Merel A. (57222180678); Rijfkogel, Amber (59229540000); Vos, Margreet C. (59464435800); Karuniawati, Anis (54886816200); Severin, Juliëtte A. (8700385500); Schmitt, Heike (55499270200)
Detection methods for carbapenem-resistant Pseudomonas aeruginosa in surface water and wastewater
2025
Science of the Total Environment
961
178086
0
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85214427251&doi=10.1016%2fj.scitotenv.2024.178086&partnerID=40&md5=074a1c103c44cd3d5c99bc2e8021b27b
Department of Medical Microbiology and Infectious Diseases, Erasmus MC University Medical Centre, Rotterdam, Netherlands; Department of Clinical Microbiology, Faculty of Medicine Universitas Indonesia/Dr. Cipto Mangunkusumo Hospital, Jakarta, Indonesia; National Institute for Public Health and the Environment (RIVM), Bilthoven, Netherlands; Department of Biotechnology, Technical University Delft, Delft, Netherlands
Water systems can act as an important reservoir for Pseudomonas aeruginosa, which can pose public health risks during human contact. Carbapenem resistance is one of the most concerning resistances in P. aeruginosa making it a high-priority pathogen according to the World Health Organization (WHO), due to its ability to cause difficult-to-treat infections. Culture methods for detecting carbapenem-resistant P. aeruginosa (CRPA) have generally been developed for clinical samples but rarely for water. Therefore, the aim of this study was to develop a standardized and widely applicable method for detecting CRPA in water samples, both in surface water and wastewater. Growth of well-characterized strains of CRPA was determined in four different selective agar media which were each supplemented with imipenem, meropenem, or ceftazidime, including after an enrichment. Wastewater samples presumptively containing CRPA (naturally contaminated samples) and surface water samples spiked with well-characterized CRPA strains were filtered and cultured using selective agar plates supplemented with imipenem and meropenem, with and without a prior enrichment step. M-PA-C agar plates supplemented with imipenem performed best compared to other selective agar plates with respect to growth of well-characterized CRPA strains and suppression of background growth of other bacteria and carbapenem-susceptible P. aeruginosa (CSPA) with positive predictive value of 80–100 %. A prior step using asparagine proline broth with vancomycin is recommended for higher specificity considering direct plating was unsuccessful due to extensive background growth. A combination of nonselective enrichment with selective plating (i.e., addition of imipenem to the plate) is recommended to achieve low limits of detection. The addition of imipenem in the broth instead of in solid agar plates eliminated some of the CRPA strains, producing an increase in the lower limit of detection and a lower PPV (32 % vs 73 %). © 2024 The Author(s)
Algae; Antibiotics; agar; ampicillin; antibiotic agent; carbapenem; cefepime; cefotaxime; ceftazidime; cotrimoxazole; imipenem; meropenem; piperacillin plus tazobactam; surface water; water; Aeruginosa strains; Agar plates; Carbapenems; Culture medium; Culture techniques; Drug-resistance; P.aeruginosa; Pseudomonas aeruginosa; Water and wastewater; Water samples; bacterium; biogeochemistry; detection method; drug resistance; groundwater; pathogen; surface water; wastewater; World Health Organization; antibiotic resistance; antibiotic sensitivity; Article; bacterial strain; bacterium detection; broth dilution; carbapenem resistant Pseudomonas aeruginosa; controlled study; diagnostic test accuracy study; disk diffusion; fungus identification; limit of detection; liquid chromatography-mass spe
Elsevier B.V.
00489697
Article
Q1
1998
1364