The recently developed ESP Culture System II (AccuMed, Chicago, Ill.) was compared with radiometric BACTEC 460TB (Becton Dickinson, Towson, Md.) and with Lowenstein-Jensen medium for recovery of mycobacteria from over 2,500 clinical specimens both of respiratory and nonrespiratory origin, including blood. The majority of the 219 mycobacterial isolates (129) belonged to the Mycobacterium tuberculosis complex, followed by 37 isolates of theMycobacterium avium complex (MAC) and 53 isolates of eight other mycobacterial species. Rates of recovery obtained with BACTEC, ESP, and Lowenstein-Jensen medium were 89, 79, and 64%, respectively, with such differences being statistically significant. Different media and systems appeared to behave differently when the more frequently detected organisms were considered: M. tuberculosis complex isolates grew better with BACTEC, and MAC isolates grew better with ESP. An analysis of the combinations of Lowenstein-Jensen medium with BACTEC and with ESP did not reveal significant differences in recovery rates. With regard to the times needed for the detection of positive cultures, they were significantly longer on Lowenstein-Jensen medium (average, 28 days) than with the remaining two systems, between which there was no difference (average, 18 days). We conclude, therefore, that the ESP system, when used in combination with a solid medium, performs as well as the thoroughly validated radiometric BACTEC system and offers the advantages of full automation and absence of radioisotopes.
The etiopathogenesis of Crohn's disease (CD) is still controversial: several genetic, immunologic, and environmental factors, including some bacteria, have been implicated. This study has been devised to assess the involvement of Escherichia coli in CD. Seven E. coli strains were isolated from 14 biopsies obtained from ileocolic ulcers of patients affected by inflammatory bowel disease (IBD), including six with ulcerative colitis and eight with CD. Five strains, exclusively isolated from CD patients, were found inside mucosal cells. Different PCR techniques (for chuA, yjaA, TspE4.C2, escV, and bfpB genes) were performed and PFGE was carried out to characterize these bacteria in comparison with other E. coli strains isolated from non-IBD specimens. The correlation of these characters with bacterial invasiveness on intestinal (Caco-2) and phagocytic (U937) cells was assessed. Overall our pilot data suggest that five among eight strains isolated from CD patients belonged to the adherent-invasive E. coli (AIEC) group, and were invasive on Caco-2 cells and resistant to phagocytosis. These findings suggest that these bacteria could be considered target organisms whose elimination could reduce the intestinal inflammatory process and CD progression.
Pseudomonas aeruginosa accounts for about one half of all pulmonary infections of cystic fibrosis (CF) patients. In this study, we analyzed 135 P. aeruginosa strains isolated from the expectorations of 55 CF adult patients attending a CF referral center over a period of five years. We assessed the genotype of the strains by pulsed-field gel electrophoresis (PFGE) and analyzed some phenotypic characteristics, such as O serotype, enzyme and mucous production, antibiotics susceptibility, and motility. PFGE allowed the typification of 97.1% of strains, revealing the presence of nine different genomic patterns. The pattern indicated as B was the most frequent, whereas patterns H and I were the most uncommon. Serotyping failed to identify 37.8% of strains and 29 out of 55 patients harbored almost one non-typable (NT) strain. During the five years of the study, we observed a progressive reduction of O6 and O10 types, but an increase of the O1 type and of NT strains. Most strains produced protease, hemolysin, and gelatinase, and were mobile. Several patients harbored the same serotype or genotype in sequential isolates, though characterized by a different susceptibility to antimicrobials. We did not observe a relationship between bacterial genotype and phenotype. This could be due to the fact that PFGE is not sensitive enough to detect subtle genotypic differences. The epidemiological importance of the genotypic characterization of bacteria-colonizing CF subjects and the surveillance measures to be adopted in CF centers are briefly discussed.
Summary Objectives: To characterize by molecular techniques Burkholderia strains responsible for respiratory tract infections in cystic fibrosis (CF) patients (children and adults), to assign the Burkholderia cepacia complex (Bcc) isolates to a genomovar and to assess the presence of cblA and esmR genes in bacteria. Unique or sequential Burkholderia isolates (n ¼ 48) that had been collected from eight CF children and 17 adults over several (4e6) years were investigated; moreover 11 reference strains were analyzed. Methods: The microorganisms were identified by using biochemical methods, genotyped by pulse field gel electrophoresis (PFGE) and random-amplified polymorphic DNA fingerprintingePCR (RAPDePCR), and assessed by PCR assays for the genomovar and cblA and esmR genes of Bcc. Results: Among isolates 70.8% were identified as Bcc genomovar III-A; one child was infected by Burkholderia ambifaria and four adults were colonized with Burkholderia gladioli. The cblA gene was not detected in any of the isolates, while the esmR gene was detected in the 52.1% of the strains, all belonging to genomovar III-A. Conclusion: Molecular analysis of strains revealed in CF patients a colonization with a persistent Burkholderia flora with strains of one genotype. The prevalence of Bcc of genomovar III-A in the two categories of patients and of B. gladioli in four adults demonstrated that transmission may have occurred between subjects. Moreover the B. ambifaria infection demonstrated in a child may be environmentally derived.
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