Augmentation de la résistance aux antibiotiques des Entérobactéries isolées à l’Institut National d’Hygiène de Lomé de 2010 à 2017: Increase in antibiotic resistance of Enterobacteriaceae isolated at the National Institute of Hygiene of Lomé from 2010 to 2017

Introduction: La résistance des Entérobactéries aux antibiotiques est un problème d’importance croissante en pratique médicale. L’objectif de cette étude était de déterminer le profil de résistance aux antibiotiques des Entérobactéries isolées à l’institut national d’hygiène (INH) de Lomé et d’analyser son évolution dans le temps. Méthodes: Il s’agissait d’une analyse rétrospective, sur une période de huit ans (2010-2017), portant sur l’ensemble des souches d’Entérobactéries isolées des prélèvements pathologiques analysés au laboratoire de bactériologie de l’INH. Résultats: Au total, 5910 Entérobactéries ont été isolées majoritairement des urines (59,59%), avec une prédominance d’Escherichia coli (63,93%) suivie de Klebsiella spp (22,86%). Entre 2010 et 2017, le taux de résistance des souches d’Escherichia coli a augmenté significativement de 18,69% à 39,26% (p< 0,0001) à la Ceftazidime ; de 1,68% à 40,22% à la Ceftriaxone (p< 0,0001) et de 42,37% à 63,23% (p< 0,0001) à la Ciprofloxacine. La résistance des souches de Klebsiella spp à la Ceftazidime a augmenté significativement de 25,26% à 42,54% (p< 0,0001) et celle à la Ceftriaxone de 2,17% à 41,79% (p< 0,0001) respectivement de 2010 à 2017. Conclusion: L’augmentation de la résistance des Entérobactéries aux antibiotiques et surtout l’évolution des résistances aux Céphalosporines de 3e Génération et aux Fluoroquinolones est un phénomène réel. Ceci exposera à des difficultés de prise en charge thérapeutique et nécessite la mise en place des dispositions idoines. Background: Antibiotic resistance in Enterobacteriaceae is a growing problem in medical practice. The objective of this study was to determine the antibiotic resistance profile of Enterobacteriaceae isolated at the National Institute of Hygiene (INH) of Lomé and to analyse its evolution over time. Method: This was a retrospective analysis, over a period of eight years (2010-2017), of all strains of Enterobacteriaceae isolated from pathological samples analysed in the bacteriology laboratory of the INH. Results: A total of 5910 Enterobacteriaceae were isolated mainly from urine (59.59%), with a predominance of Escherichia coli (63.93%) followed by Klebsiella spp (22.86%). Between 2010 and 2017, the resistance rate of Escherichia coli strains increased significantly from 18.69% to 39.26% (p<0.0001) to Ceftazidime; from 1.68% to 40.22% to Ceftriaxone (p<0.0001) and from 42.37% to 63.23% (p<0.0001) to Ciprofloxacin. Resistance of Klebsiella spp strains to Ceftazidime increased significantly from 25.26% to 42.54% (p< 0.0001) and to Ceftriaxone from 2.17% to 41.79% (p< 0.0001) respectively from 2010 to 2017. Conclusion: The increase in antibiotic resistance in Enterobacteriaceae and especially the evolution of resistance to 3rd generation cephalosporins and fluoroquinolones is a real phenomenon. This will lead to difficulties in therapeutic management and requires the implementation of appropriate measures

Identification and Quantification of Glucosinolates and Phenolics in a Large Panel of Brassica napus Highlight Valuable Genetic Resources for Chemical Ecology and Breeding

International audienceGlucosinolate (GLS) and phenolic contents in Brassicaceae contribute to biotic and abiotic stress responses. Breedingcrop accessions harboring agroecologically relevant metabolic profiles require a characterization of the chemical diversity in Brassicagermplasm. This work investigates the diversity of specialized metabolites in 281 accessions of B. napus. First, an LC-HRMS2-basedapproach allowed the annotation of 32 phenolics and 36 GLSs, revealing 13 branched and linear alkyl-GLSs and 4 isomers ofhydroxyphenylalkyl-GLSs, many of which have been rarely reported in Brassica. Then, quantitative UPLC-UV-MS-based profilingwas performed in leaves and roots for the whole panel. This revealed striking variations in the content of 1-methylpropyl-GLS(glucocochlearin) and a large variation of tetra- and penta-glucosyl kaempferol derivatives among accessions. It also highlighted twomain chemotypes related to sinapoyl-O-hexoside and kaempferol-O-trihexoside contents. By offering an unprecedented overview ofthe phytochemical diversity in B. napus, this work provides a useful resource for chemical ecology and breedin