Evaluation of six screening methods for detecting significant bacteriuria.
- 1 August 1988
- journal article
- research article
- Published by BMJ in Journal of Clinical Pathology
- Vol. 41 (8) , 904-909
- https://doi.org/10.1136/jcp.41.8.904
Abstract
Six screening methods for the successful detection of significant bacteriuria-electrical impedance (Malthus), automated acridine-orange staining (Autotrak), particle counting (Ramus), bioluminescence, nitrite and leucocyte test strip (BM Nephur), and microscopy-were evaluated. All had excellent predictive values for a negative result (97%-100%) but were less accurate in predicting a positive result (31%-83%). All methods had high sensitivities (83%-100%) but lower levels of specificty (68%-79%). Bioluminescence was the method with the highest specificity (79%) and the lowest rate of false positive results (15%). It would be inappropriate to decide on treatment and management on the basis of the positive results achieved with any of the methods evaluated, but all methods tested could be used for screening out negative results.This publication has 33 references indexed in Scilit:
- Asymptomatic infections of the urinary tractJournal of Urology, 2002
- Clinical relevance of culture versus screens for the detection of microbial pathogens in urine specimensThe American Journal of Medicine, 1987
- Automated bacteriuria screening using the Berthold LB 950 luminescence analyserEuropean Journal of Clinical Microbiology & Infectious Diseases, 1987
- Evaluation of Malthus 128H microbiological growth analyser for detecting significant bacteriuria.Journal of Clinical Pathology, 1985
- 'Routine urinalysis'. Is the dipstick enough?JAMA, 1985
- Quantitative urine cultures revisitedEuropean Journal of Clinical Microbiology & Infectious Diseases, 1984
- Evaluation of the Lumac kit for the detection of bacteriuria by bioluminescence.Journal of Clinical Pathology, 1982
- Rapid screening for bacteriuria using a particle counter, pulse-height analyser, and computer.Journal of Clinical Pathology, 1981
- Particle size distribution analysis for the rapid detection of microbial infection of urine.Journal of Clinical Pathology, 1979
- Method for the detection of significant bacteriuria in large groups of patientsJournal of Clinical Pathology, 1964