M Abdelmassih1, V Planchon, C Anceau, J Mahillon. 1. Laboratory of Food and Environmental Microbiology, Earth and Life Institute, Université catholique de Louvain, Louvain-La-Neuve, Belgium. marleen.abdelmassih@uclouvain.be
Abstract
AIMS: To develop a new type of microbiological Reference Materials (RMs), displaying long-term stability at room temperature. The purpose was to produce and validate two batches of RMs for the enumeration of Bacillus cereus and Clostridium perfringens. METHODS AND RESULTS: The RMs were based on spores of B. cereus and Cl. perfringens, adsorbed on calcium carbonate pellets. Two batches of 1000 units were manufactured and validated in compliance with ISO guide 35. After verification of their homogeneity, the stability of the 'RM-B. cereus' and 'RM-Cl. perfringens' batches was proven during at least 36 and 9 months, respectively, at room temperature. The validation study was completed by international collaborative trial involving 12 laboratories, allowing the validation of the assigned values. CONCLUSIONS: The methodology developed in this work enabled to produce easy-to-handle and cost-effective RMs, displaying an unprecedented stability at room temperature, a good homogeneity and a precise and validated assigned value. SIGNIFICANCE AND IMPACT OF THE STUDY: This study revealed new paths for the development of stable microbiological RMs. Overcoming the intrinsic instability of the living cells makes it possible to produce valuable tools for the quality assurance of microbiology laboratories.
AIMS: To develop a new type of microbiological Reference Materials (RMs), displaying long-term stability at room temperature. The purpose was to produce and validate two batches of RMs for the enumeration of Bacillus cereus and Clostridium perfringens. METHODS AND RESULTS: The RMs were based on spores of B. cereus and Cl. perfringens, adsorbed on calcium carbonate pellets. Two batches of 1000 units were manufactured and validated in compliance with ISO guide 35. After verification of their homogeneity, the stability of the 'RM-B. cereus' and 'RM-Cl. perfringens' batches was proven during at least 36 and 9 months, respectively, at room temperature. The validation study was completed by international collaborative trial involving 12 laboratories, allowing the validation of the assigned values. CONCLUSIONS: The methodology developed in this work enabled to produce easy-to-handle and cost-effective RMs, displaying an unprecedented stability at room temperature, a good homogeneity and a precise and validated assigned value. SIGNIFICANCE AND IMPACT OF THE STUDY: This study revealed new paths for the development of stable microbiological RMs. Overcoming the intrinsic instability of the living cells makes it possible to produce valuable tools for the quality assurance of microbiology laboratories.
Authors: Maria Roméria da Silva; Felipe Alves de Almeida; Ana Íris Mendes Coelho; Fernanda Lopes da Silva; Maria Cristina Dantas Vanetti Journal: Braz J Microbiol Date: 2022-08-13 Impact factor: 2.214
Authors: Jasmin Fertey; Martin Thoma; Jana Beckmann; Lea Bayer; Julia Finkensieper; Susann Reißhauer; Beatrice Sarah Berneck; Leila Issmail; Jessy Schönfelder; Javier Portillo Casado; Andre Poremba; Frank-Holm Rögner; Bastian Standfest; Gustavo R Makert; Lia Walcher; Ann-Kathrin Kistenmacher; Stephan Fricke; Thomas Grunwald; Sebastian Ulbert Journal: Sci Rep Date: 2020-07-30 Impact factor: 4.379