Multi-step optimization of the filtration method for the isolation of Campylobacter species from stool samples

This study was performed in three phases to optimize FM from a routine laboratory perspective. In July–September 2014 (part I), FM was performed on Mueller–Hinton agar containing 5% sheep blood and Columbia agar contai ning 5% sheep blood. In July 2016 (part II), FM was performed using 0.60-μm pore size polycarbonate filters (0.6-PC filter) and 0.45-μm pore size cellulose acetate filters (0.45-AC filter); in January 2018 (part III), the addition of hydrogen to incubators was studied. On 1146 stools analyzed in p art I, the positive samples that showed no growth on the Butzler medium (n = 22/72, 30.6%) had improved growth ofEpsilobacteriaceae when using the Columbia instead of the Mueller –Hinton medium (21/22 strains vs. 11/22,p <  0.05). In part II, on 718 stools, 91 strains grew with FM (12.7%), more with 0.6-PC filter (90/91) than with 0.45-AC filter (44/91) (p <  0.05). In part III, 578 stools were cultured, 98Epsilobacteriaceae strains grew with FM, and 7% hydrogen finding significantly moreEpsilobacteriaceae than without hydrogen (90/98, 91.8%, vs. 72/98, 73.5%;p <  0.05). The use of a Columbia medium containing 5% sheep blood with 0.6-PC filters incubated at 37 °C in a 7% hydrogen-enriched atmosphere led to an almost fourfold increase in the isolation rate ofEpsilobacteriaceae among the studied combinations. Reference centers forCampylobacter should use standardized protocols to enable the comparison of prevalence in space and time.
Source: European Journal of Clinical Microbiology and Infectious Diseases - Category: Microbiology Source Type: research