BackgroundGroup A rotaviruses are the most common causative agent of acute gastroenteritis among children less than 5 years of age throughout the world. This sentinel surveillance study was aimed to obtain baseline data on the rotavirus G and P genotypes across Turkey before the introduction of a universal rotavirus vaccination program.MethodsRotavirus antigen-positive samples were collected from 2102 children less than 5 years of age who attended hospitals participating in the Turkish Rotavirus Surveillance Network. Rotavirus antigen was detected in the laboratories of participating hospitals by commercial serological tests such as latex agglutination, immunochromatographic test or enzyme immunoassay. Rotavirus G and P genotypes were determined by reverse transcription polymerase chain reaction (RT-PCR) using consensus primers detecting the VP7 and VP4 genes, followed by semi-nested type-specific multiplex PCR.ResultsRT-PCR found rotavirus RNA in 1644 (78.2%) of the samples tested. The highest rate of rotavirus positivity (38.7%) was observed among children in the 13 to 24 month age group, followed by children in the age group of 25 to 36 months (28.3%). A total of eight different G types, six different P types, and 42 different G–P combinations were obtained. Four common G types (G1, G2, G3, and G9) and two common P types (P[8] and P[4]) accounted for 95.1% and 98.8% of the strains, respectively. G9P[8] was the most common G/P combination found in 40.5% of the strains followed by G1P[8] (21.6%), G2P[8] (9.3%), G2P[4] (6.5%), G3P[8] (3.5%), and finally, G4P[8] (3.4%). These six common genotypes included 83.7% of the strains tested in this study. The rate of uncommon genotypes was 14%.ConclusionThe majority of the strains analyzed belonged to the G1–G4 and G9 genotypes, suggesting high coverage of current rotavirus vaccines. This study also demonstrates a dramatic increase in G9 genotype across the country.
A simple, precise, accurate, and validated reverse-phase HPLC method was developed for the determination of melamine in milk (pasteurized and UHT milk) and dairy products (powdered infant formula, fruit yogurt, soft cheese, and milk powder). Following extraction with acetonitrile:water (50:50, vol/vol), samples were purified by filter (0.45 μm), separated on a Nucleosil C8 column (4.6 mm × 250 mm, 3 μm) with acetonitrile:10 mmol/L sodium L-octane sulfonate (pH 3.1; 15:85, vol/vol) as mobile phase at a flow rate of 1 mL/min, and determined by a photodiode array detector. A linear calibration curve was obtained in the concentration range from 0.05 to 5 mg/kg. Milk and dairy products were fortified with melamine at 4 levels producing average recovery yields of 95 to 109%. The limits of detection and quantification of melamine were 35 to 110 and 105 to 340 μg/kg, respectively. The method was then used to analyze 300 samples of milk and dairy products purchased from major retailers in Turkey. Melamine was not found in infant formulas and pasteurized UHT milk, whereas 2% of cheese, 8% of milk powder, and 44% of yogurt samples contained melamine at the 121, 694±146, and 294±98 μg/kg levels, respectively. These findings were below the limits set by the Codex Alimentarius Commission and European Union legislation. This is the first study to confirm the existence of melamine in milk and dairy products in Turkey. Consumption of foods containing these low levels of melamine does not constitute a health risk for consumers.
Francisella tularensis DNA extractions and isolates from the environment and humans were genetically characterized to elucidate environmental sources that cause human tularemia in Turkey. Extensive genetic diversity consistent with genotypes from human outbreaks was identified in environmental samples and confirmed water as a source of human tularemia in Turkey.
The main perspective of this study was to determine cross-transmissions amongst anthrax cases and provide detailed information regarding the genotypes of Bacillus anthracis isolates circulating in Turkey. A total of 251 B. anthracis isolates were obtained from human (93 isolates), animal (155 isolates), and environmental (three isolates) samples in various provinces of Turkey. All isolates were susceptible to quinolones, vancomycin, tigecycline, and linezolid, but not to ceftriaxone. Excluding human isolates, one of the animal isolates was found to be resistant to penicillin, erythromycin, and doxycycline. Multiple-locus variable-number tandem repeats analysis including 8 loci (MLVA8) revealed 12 genotypes, in which genotype 43 was observed at the highest frequency (41.8 %), followed by genotype 35 (25.5 %) and genotype 27 (10.4 %). Major subtype A3.a was the predominant cluster, including 86.8 % of the isolates. The MLVA25 analysis for the 251 isolates yielded 62 different genotypes, 33 of which had only one isolate, while the remaining 29 genotypes had 2 to 43 isolates, with a total of 218 isolates (86.9 %). These findings indicate very high cross-transmission rates within anthrax cases in Turkey. The genotypes diagnosed in Turkey are populated in the A major cluster. Penicillin prescribed as the first-choice antibiotic for the treatment of anthrax is still effective.
BackgroundColistin-resistant Pseudomonas aeruginosa
(P. aeruginosa) has been defined as pandrug-resistant
(PDR) strain. Outbreaks of PDR P. aeruginosa especially in
pulmonary tract infections due to contaminated bronchoscopes have rarely
been reported. The emergence of pandrug-resistant strains in both CF (Cystic
Fibrosis) and non-CF clinical isolates over recent years remains of a great
concern. Hospital wards contaminated with PDR P. aeruginosa
infection, must be shot down until their eradication. Health Authorities
must be informed immediately and infection control strategies must be
implemented.AimTo report such an outbreak and modify the infection control strategy
in an academic hospital in Ankara Turkey.MethodsFrom October to December 2013, PDR-Pseudomonas aerogionsa were
identified from bronchial cultures of 15 patients who had undergone
bronchoscopy prior to the infection. Three batches of surveillance cultures
were obtained from the environmental objects and healthcare workers related
to the procedures. Pulsed-field gel electrophoresis (PFGE) was used for
bacterial typing. Antimicrobial susceptibility was assessed by disc
diffusion and E-test methods.FindingsA total of 70 specimens were obtained during the first surveillance
operation. One Colistin-resistant P. aeroginosa was
isolated from a bronchoscope. Although the disinfection protocols for
bronchoscope were revised and implemented, seven additional bronchial cases
were identified thereafter. The pathogen was identified from two subsequent
surveillance cultures and was not eliminated until Ethylene oxide
sterilization was added to the disinfection protocol. PFGE revealed that all
15 isolates from the patients and the three isolates from the bronchoscope
shared a common pattern with minor variance. XbaI restriction enzyme turned
out better than SpeI in interpreting bacterial pulse types with BioNumerics
6.0. The most suitable cut off value for SpeI was above 80% Dice
similarity while for XbaI above 95%Dice similarity with BioNumerics
6.0.ConclusionThe outbreak of “Colistin” pan drug-resistant
Pseudomonas aeroginosa was caused by a contaminated
bronchoscope and was terminated by the implementation of a revised
disinfection protocol for bronchoscope.
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