Optimum Detection Times for Bacteria and Yeast Species with the BACTEC 9120 Aerobic Blood Culture System: Evaluation for a 5-Year Period in a Turkish University Hospital

Durmaz, Gül; Us, Tercan; Aydinli, Aydin; Kiremitci, Abdurrahman; Kiraz, Nuri̇; Akgün, Yurdanur

doi:10.1128/jcm.41.2.819-821.2003

Cited by 52 publications

(48 citation statements)

References 14 publications

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“…In years, the isolation rates of non-albicans Candida have increased. The rate of growth of non-albicans Candida was found to be 52.7% by Gül-mez et al (9) and 54.07% by Durmaz et al (11). In our study, Candida spp.…”

Section: Discussionsupporting

confidence: 54%

Evaluation of blood cultures in a children’s hospital located in Southeastern Anatolia

Yiş

2015

Turk Pediatri Ars

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Aim: Bloodstream infections in hospitalized patients are one of the most important causes of morbidity and mortality despite antimicrobial therapy. Early diagnosis and treatment of these infections is crucial. The aim of this study was to evaluate the distribution and antibiotic susceptibility of bacteria isolated from blood cultures in a children's hospital in the Southeastern Anatolia during an 18-month period.Material and Methods: 7 040 blood cultures which were sent from hospitalized patients in Gaziantep Children's Hospital between 01.07.2010 and 01.01.2012 were evaluated.Results: A total of 7 040 blood cultures were evaluated in this study. Microbial growth was detected in 2075 (29.47%) blood cultures. The most frequently isolated bacteria were coagulase-negative staphylococci (%45.97) which were followed by Salmonella spp. (%7.8). 12.12% of enterococcal isolates were resistant to glycopeptide antibiotics. The most frequently isolated gram negative bacterium was Salmonella spp. 15.43% of Salmonella spp. showed decreased susceptibility against quinolones. The ESBL positivity rate of E. coli and K. pneumoniae strains was found to be 35.08% and 57.14%, respectively. The imipenem resistance rate of P. aeruginosa was found to be 33.33%. The most common nonfermentative bacterium was S. maltophilia. Conclusions:The distribution of bacteria isolated from blood cultures and antibiotic resistance rates differ among different regions of Turkey. Different results obtained in our study may be related with regional tendencies to infections and patient population. Distribution of infectious agents and antibiotic resistance rates should be evaluated at regular intervals. This will lead to establishment of proper antibiotic usage policies in our country. (Turk Pediatri Ars 2015; 50: 102-7)

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Section: Discussionsupporting

confidence: 54%

Evaluation of blood cultures in a children’s hospital located in Southeastern Anatolia

Yiş

2015

Turk Pediatri Ars

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“…Of the microorganisms involved in all of the infections, 58.4% were grampositive cocci, 33.5% were fermentative gram-negative bacilli, 29.0% were nonfermentative gram-negative bacilli, 0.9% were corynebacteria, 1.8% were anaerobes, and 13.1% were yeasts. When these results are compared with those obtained in other epidemiological studies of nosocomial bloodstream infections recently carried out in Italy (15) and other parts of the world (1,3,5,14,17,20), our hospital presents a very low incidence of anaerobic infections and, conversely, relatively high rates of isolation of nonfermentative gram-negative bacilli and yeasts. Nonfermentative gram-negative bacilli were more frequently isolated during bloodstream infections in patients from the ICU and HU than in those from all other units, and yeasts (C. albicans) were more frequently isolated in patients from the ICU.…”

Section: Discussionmentioning

confidence: 88%

Detection of Bacterial and Yeast Species with the Bactec 9120 Automated System with Routine Use of Aerobic, Anaerobic, and Fungal Media

et al. 2008

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Despite recent developments in microbiological biomolecular techniques, blood culture remains the most practical and reliable method in the diagnosis of bloodstream infections and one of the most important tools in the clinical microbiology laboratory, taking into account the role played by systemic infections as a major cause of mortality and morbidity, especially within the hospital environment. Various continuously monitoring blood culture systems are extensively used in order to increase the rapidity of isolation and identification of microorganisms in blood samples, and paired aerobic and anaerobic blood culture bottles are commonly used in order to obtain better overall recovery of microorganisms, as well as the recovery of specific types of bacteria. The traditional aerobic and anaerobic bacteriological media also detect episodes of candidemia, although the sensitivity in this case is estimated to be only 50% (12). The efficiency of yeast detection in blood samples can be increased by terminal subcultures, but the practice is time-consuming and the risk of underestimating yeast infections remains high. This is unacceptable if we take into account the expanding role of yeasts as agents of nosocomial infections, particularly in intensive-care units (ICUs) (4, 18, 23), and candidemia-associated mortality (40%), the highest of all hospital bloodstream infections (4). In order to facilitate faster and more efficient isolation of fungi from blood, the Bactec automated blood culture system (Becton Dickinson Diagnostic Systems, Sparks, MD) has media specifically formulated for this purpose. In addition to the traditional aerobicanaerobic bacteriological set, their use has been recommended when blood culture is required for patients at risk of fungal infections (7, 16) and when a concomitant bloodstream bacterial infection is suspected of inhibiting yeast detection (16).Nevertheless, fungal media are not routinely employed by many hospitals, as they require additional blood from patients, an increased amount of incubator space, and the additional costs of processing and purchasing bottles (10). Moreover, even the routine use of anaerobic bacteriological bottles in blood culture has been (21), and still is (13), a subject of discussion because of the reportedly declining rates of anaerobic bloodstream infections (2) and the possibility of recognizing them clinically and treating affected patients empirically for such infections (17,19,22).

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“…Earliest identification of MRSA are important for blood culture infections (3). The average reproduction time of the gram-positive and negative bacteria and yeasts is 18-19 hours, 15-19 hours, and 23-41 hours, respectively (10). Although, molecular techniques, such as nucleic acid probes and polymerase chain reaction (PCR), are used for rapid detection, the blood culture systems remain the most reliable and sensitive (3).…”

Section: Discussionmentioning

confidence: 99%

Investigation of Rapid Identification of Metisillin Resistance of Staphylococcus Aureus (MRSA) in Blood Culture Bottles at Three Different Pre-Incubation Periods

Güvenir¹,

Güler²,

Aykac³

et al. 2018

Cyprus J Med Sci

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Optimum Detection Times for Bacteria and Yeast Species with the BACTEC 9120 Aerobic Blood Culture System: Evaluation for a 5-Year Period in a Turkish University Hospital

Cited by 52 publications

References 14 publications

Evaluation of blood cultures in a children’s hospital located in Southeastern Anatolia

Evaluation of blood cultures in a children’s hospital located in Southeastern Anatolia

Detection of Bacterial and Yeast Species with the Bactec 9120 Automated System with Routine Use of Aerobic, Anaerobic, and Fungal Media

Investigation of Rapid Identification of Metisillin Resistance of Staphylococcus Aureus (MRSA) in Blood Culture Bottles at Three Different Pre-Incubation Periods

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