Direct comparison of the BACTEC 9240 and BacT/ALERT 3D automated blood culture systems for candida growth detection.
about
Recent developments in the management of invasive fungal infections in patients with oncohematological diseasesEpidemiology of invasive candidiasis: a persistent public health problemEffect of antifungal therapy timing on mortality in cancer patients with candidemiaEnzymatic treatment of specimens before DNA extraction directly influences molecular detection of infectious agents.Multiplex blood PCR in combination with blood cultures for improvement of microbiological documentation of infection in febrile neutropenia.Performance of two resin-containing blood culture media in detection of bloodstream infections and in direct matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) broth assays for isolate identification: clinicaNew strategy for rapid diagnosis and characterization of fungal infections: the example of corneal scrapings.Diagnosis by real-time polymerase chain reaction of pathogens and antimicrobial resistance genes in bone marrow transplant patients with bloodstream infectionsCandidemia in Norway (1991 to 2003): results from a nationwide studyTime to blood culture positivity as a predictor of clinical outcome in patients with Candida albicans bloodstream infectionComparison of BD Bactec Plus Aerobic/F medium to VersaTREK Redox 1 blood culture medium for detection of Candida spp. in seeded blood culture specimens containing therapeutic levels of antifungal agents.Diagnostic issues, clinical characteristics, and outcomes for patients with fungemia.Ultra-fast low concentration detection of Candida pathogens utilizing high resolution micropore chipsA dedicated fungal culture medium is useful in the diagnosis of fungemia: a retrospective cross-sectional studyEpidemiology and reporting of candidaemia in Belgium: a multi-centre study.Diagnostic methods for fungal infections in pediatric patients: microbiological, serological and molecular methods.Incubation of fungal cultures: how long is long enough?Diagnosis and therapy of Candida infections: joint recommendations of the German Speaking Mycological Society and the Paul-Ehrlich-Society for Chemotherapy.ECIL-3 classical diagnostic procedures for the diagnosis of invasive fungal diseases in patients with leukaemia.Polymerase chain reaction-based assays for the diagnosis of invasive fungal infections.Low Utility of Pediatric Isolator Blood Culture System for Detection of Fungemia in Children: a 10-Year ReviewControlled Evaluation of the New BacT/Alert Virtuo Blood Culture System for Detection and Time to Detection of Bacteria and Yeasts.A Real-Time PCR Assay Based on 5.8S rRNA Gene (5.8S rDNA) for Rapid Detection of Candida from Whole Blood Samples.Bacteraemia in Intensive Care Unit: Clinical, Bacteriological, and Prognostic Prospective Study.Diagnosis of invasive fungal diseases in pediatric patients.Comparison of BACTEC™ blood culture media for the detection of fungemia.Impact of systemic antifungal therapy on the detection of Candida species in blood cultures in clinical cases of candidemia.Effect of inoculum size on detection of Candida growth by the BACTEC 9240 automated blood culture system using aerobic and anaerobic media.Detection of bacterial and yeast species with the Bactec 9120 automated system with routine use of aerobic, anaerobic, and fungal media.T2 magnetic resonance assay for the rapid diagnosis of candidemia in whole blood: a clinical trial.Evaluation of blood culture media for the detection of fungi.Time to positivity and detection of growth in anaerobic blood culture vials predict the presence of Candida glabrata in candidemia: a two-center European cohort study.Detection of fifteen species of Candida in an automated blood culture system.Epidemiology of nosocomial candidaemia in a university hospital: a 12-year study.Use of the BACTEC 9240 System with Mycosis-IC/F blood culture bottles for detection of fungemia.Time to positivity of blood culture can predict different Candida species instead of pathogen concentration in candidemia.Update from a twelve-year nationwide fungaemia surveillance: increasing intrinsic and acquired resistance causes concern.Implementation of the new VIRTUO blood culture system: evaluation and comparison to the 3D system using simulated blood cultures.Application of Culture-Independent Rapid Diagnostic Tests in the Management of Invasive Candidiasis and Cryptococcosis.Comparison of heart valve culture between two Danish endocarditis centres.
P2860
Q28077381-DD2E73DD-2564-4208-9A01-D711A1CBA2F4Q29616758-8D5750E3-9EEB-4C59-9315-778D95EF9247Q33559164-D5331422-17C6-46E4-8C4B-CC9FD4710FE2Q33768795-D9DB00CF-5AFA-4741-A154-8E410B3DE60EQ34190425-CE6FC291-69B2-4900-8904-CA00739F301CQ34298258-4F118E6C-E2A5-48B2-AB80-09AA546361D1Q34328907-AA48ABA5-0344-405F-9DE5-4EA794D1F24AQ34656582-6725BB62-20ED-4B0A-A183-A69336D480EBQ34719299-0AE1A7C4-DB94-4EF0-B564-FF5EAF1C19F8Q35020546-0483AE26-7C7B-4D4C-881B-0D6759D58BB4Q35067073-33D404FD-265C-488D-B7B6-5FEEEE1B1C78Q35192301-B4A17A52-C603-4192-8989-4090D3C2244AQ35938821-567E9B73-6CE7-453E-9D2E-7094533ABE9BQ36162773-FE10B602-2368-470E-AF32-5B615D8A255BQ36196229-EC6512EA-B5A9-46F8-96D3-B35D67C4DDB1Q37854718-C628CF38-7462-45A0-8AE6-40D920025BB3Q37878555-04FB47C5-AA4A-4968-8DA0-924122C4B978Q37889382-C5830B10-B5EB-493F-9B6A-57B56F1D9784Q37974519-8604436D-04C5-4FB7-9536-7E73B271755DQ37987893-A995F36C-A045-4A63-84C5-4D3C39818D89Q38866507-5238057C-617F-49FC-B872-3584E4EA763FQ39576378-7E0B5508-035C-4F05-9034-69ED79290E28Q40189326-7C3CBFB8-F976-45DE-A56E-241ED41224C7Q40242806-8A0DD16B-E2FD-4B63-8404-75F0632F88F6Q40524695-860CE8AF-320F-450F-9498-9D94233AC156Q40525731-C0A46A0D-25FC-4A98-BDC9-DA5B0BE01135Q40730760-9A5DBE0B-FC4D-4F15-92AC-19EC3024DC3EQ40771165-AA94DF51-82C4-4EA1-94D7-CABCCF882716Q41364314-6F66CCF8-1A74-486F-8435-92C1476C54DBQ41546170-9AAA59E8-967C-45AD-A5A2-F8CFFD48AB79Q41868883-B3735A4E-F52E-4B47-90EE-631FA2695BBCQ42088426-8F9F4736-6188-419D-B822-000892A38AD3Q42637567-606E84E9-E99E-4EA2-833E-F60F8AF7B33CQ43200250-1CC8EA96-0D70-4BAE-A3B9-92AC3A1D40E9Q43212653-B609999C-AF0B-45D4-B7B6-F7A96924024CQ46013189-7780184B-633F-46E3-ABFE-BEEF8145C9A2Q47355716-DD3F3CFE-1364-4737-BEE9-B1161079881BQ48326485-5329FBC8-DE3B-43AA-B05E-C7A82FB4BD8BQ49425859-FB9540B2-A484-4214-98B3-002224B91742Q50555596-7233F590-5D72-4156-BFF5-69E8E0618C59
P2860
Direct comparison of the BACTEC 9240 and BacT/ALERT 3D automated blood culture systems for candida growth detection.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Direct comparison of the BACTE ...... for candida growth detection.
@en
type
label
Direct comparison of the BACTE ...... for candida growth detection.
@en
prefLabel
Direct comparison of the BACTE ...... for candida growth detection.
@en
P2093
P2860
P1476
Direct comparison of the BACTE ...... for candida growth detection.
@en
P2093
Benjamin J George
Clinton K Murray
Duane R Hospenthal
Linda S Harrison
Lynn L Horvath
P2860
P304
P356
10.1128/JCM.42.1.115-118.2004
P407
P577
2004-01-01T00:00:00Z