Lack of de novo hepatitis C virus infections and absence of nosocomial transmissions of GB virus C in a large cohort of German haemodialysis patients.

To determine the prevalence and incidence of hepatitis C virus (HCV) infections among haemodialysis patients, a large prospective multicentre trial was conducted in the German Federal State of North Rhine-Westphalia. Sera obtained from the recruited patients in two separate sampling rounds run 1 year apart were analysed for both anti-HCV antibodies and HCV RNA. HCV RNA positive samples were also genotyped by direct sequencing of an HCV core fragment. In the first and second rounds, 150 (5.2%) of 2909 and 114 (5.4%) of 2100 patients were anti-HCV positive, respectively, and 4% of individuals were viraemic. Evaluation of potential risk factors in a case-control study indicated that the factors 'foreign country of birth', 'blood transfusions given before 1991' and 'duration of treatment on haemodialysis' were associated with the risk of HCV infection. Among the 2100 patients of whom 'paired' serum samples from both rounds were available for testing, not a single 'de novo' HCV infection could be recorded. The fact that in a subset of about 20% of these patients no nosocomial GB virus C (GBV-C) transmission occurred during the observational period suggests that the lack of HCV seroconversions was not only attributable to the isolation of HCV-infected patients but also to the strict adherence to so-called universal hygienic precautions for infection control maintained in the participating dialysis centres.

High prevalence of human metapneumovirus infection in young children and genetic heterogeneity of the viral isolates.

RNA of the newly identified human metapneumovirus (HMPV) was detected in nasopharyngeal aspirates of 11 of 63 (17.5%) young children with respiratory tract disease. Markers of infection caused by another member of the Pneumovirinae subfamily of the family Paramyxoviridae, respiratory syncytial virus (RSV), were identified in 15 of these patients (23.8%). Three patients were simultaneously infected with HMPV and RSV. Studies of the clinical characteristics of HMPV-infected children did not reveal any difference between HMPV-infected patients and a control population of RSV-infected patients with regard to disease severity, but the duration of symptoms was significantly shorter for HMPV-infected patients. Phylogenetic analysis of the amplified viral genome fragments confirmed the existence and simultaneous circulation within one epidemic season of HMPV isolates belonging to two genetic lineages.

Surveillance of Pseudomonas aeruginosa in intensive care units: clusters of nosocomial cross-infection and encounter of a multiple-antibiotic resistant strain.

Serogrouping (determination of O antigens) and bacteriocin typing (based on susceptibility to one or more of 18 bacteriocins) were employed to survey 210 isolates of Pseudomonas aeruginosa from 201 patients in 8 intensive care units (ICU) during an observation period of 18 months. Eighty-eight isolates (41.9%) were nonserogroupable (NT); most common were serogroups O1, O9, O11, and O3. All except 5 isolates (97.6%) were bacteriocin-typable. However, phenotypic variation of bacteriocin susceptibility, in particular the receptor for bacteriocin No. 13, rendered this typing method presumptive as well. Bacteriocin susceptibility profiles were not predictive of serogroup and vice versa. Workup of 19 isolates from 9 patients disclosed phenotypic variation of antibiotic susceptibility in 3 patients, superinfection by a different strain in 4 patients, and persistence (3 months) of the same strain in 2 patients, respectively. Serotyping and bacteriocin susceptibility test data revealed 15 clusters of putative cross-infection of 2 patients each, 8 clusters involving 3 patients each, one outbreak (serogroup NT, bacteriocin profile 777736) involving 4 patients in the pediatric ICU, one outbreak due to a multiple-antibiotic resistant (MAR) strain in the surgical ICU (4 patients, serogroup O12, bacteriocin profile 30400), and two putative outbreaks in the pneumonology ICU involving 6 patients (serogroup NT, bacteriocin profile 777726) and 9 patients (serogroup NT, bacteriocin profile 777736). Pulsed-field gel electrophoresis (PFGE) macrorestriction analysis (SpeI, XbaI) confirmed the pediatric and surgical ICU strains as singular strains. However, the two putative outbreaks in the pneumonology ICU were due to one particular strain which had infected 13 of the 15 patients as determined with the PFGE genotypic method. Isolates comprising the MAR strain of P. aeruginosa were susceptible only to amikacin, fosfomycin, and polymyxin B; the isolates varied in susceptibility to aztreonam and ceftazidime. This MAR strain was susceptible to the bactericidal activity of 65 vol% of fresh defibrinated human blood from donors B, L, and T. Either amikacin (16 micrograms/ ml) or fosfomycin (8 micrograms/ml) plus blood and amikacin (8 micrograms/ml) combined with fosfomycin (8 micrograms/ml) with and without blood consistently killed isolates of the MAR strain, which thus was amenable to antibiotic therapy.