Your search keyword '"O'Hara CM"' showing total 36 results

1. The Next 40 Years of Impact of the Food and Nutrition Bulletin .

Author

Rosenberg IH and O'Hara CM

Subjects

Forecasting, Humans, Journal Impact Factor, Nutritional Sciences trends, Periodicals as Topic trends

Published

2019

2. Comparison of disk diffusion, VITEK 2, and broth microdilution antimicrobial susceptibility test results for unusual species of Enterobacteriaceae.

Author

Stone ND, O'Hara CM, Williams PP, McGowan JE Jr, and Tenover FC

Subjects

Drug Resistance, Bacterial, Enterobacteriaceae classification, Enterobacteriaceae Infections microbiology, Humans, Microbial Sensitivity Tests methods, Microbial Sensitivity Tests standards, Reproducibility of Results, Anti-Bacterial Agents pharmacology, Enterobacteriaceae drug effects

Abstract

We compared the antimicrobial susceptibility testing results generated by disk diffusion and the VITEK 2 automated system with the results of the Clinical and Laboratory Standards Institute (CLSI) broth microdilution (BMD) reference method for 61 isolates of unusual species of Enterobacteriaceae. The isolates represented 15 genera and 26 different species, including Buttiauxella, Cedecea, Kluyvera, Leminorella, and Yokenella. Antimicrobial agents included aminoglycosides, carbapenems, cephalosporins, fluoroquinolones, penicillins, and trimethoprim-sulfamethoxazole. CLSI interpretative criteria for Enterobacteriaceae were used. Of the 12 drugs tested by BMD and disk diffusion, 10 showed >95% categorical agreement (CA). CA was lower for ampicillin (80.3%) and cefazolin (77.0%). There were 3 very major errors (all with cefazolin), 1 major error (also with cefazolin), and 26 minor errors. Of the 40 isolates (representing 12 species) that could be identified with the VITEK 2 database, 36 were identified correctly to species level, 1 was identified to genus level only, and 3 were reported as unidentified. VITEK 2 generated MIC results for 42 (68.8%) of 61 isolates, but categorical interpretations (susceptible, intermediate, and resistant) were provided for only 22. For the 17 drugs tested by both BMD and VITEK 2, essential agreement ranged from 80.9 to 100% and CA ranged from 68.2% (ampicillin) to 100%; thirteen drugs exhibited 100% CA. In summary, disk diffusion provides a reliable alternative to BMD for testing of unusual Enterobacteriaceae, some of which cannot be tested, or produce incorrect results, by automated methods.

Published

2007

3. Evaluation of the Phoenix 100 ID/AST system and NID panel for identification of Enterobacteriaceae, Vibrionaceae, and commonly isolated nonenteric gram-negative bacilli.

Author

O'Hara CM

Subjects

Automation, Bacterial Typing Techniques methods, Bacterial Typing Techniques statistics & numerical data, Enterobacteriaceae drug effects, Enterobacteriaceae isolation & purification, Gram-Negative Bacteria drug effects, Gram-Negative Bacteria isolation & purification, Humans, Microbial Sensitivity Tests methods, Microbial Sensitivity Tests statistics & numerical data, Predictive Value of Tests, Species Specificity, Time Factors, Vibrionaceae drug effects, Vibrionaceae isolation & purification, Bacteriological Techniques methods, Bacteriological Techniques statistics & numerical data, Enterobacteriaceae classification, Gram-Negative Bacteria classification, Vibrionaceae classification

Abstract

The Phoenix 100 ID/AST system (Becton Dickinson Co., Sparks, Md.) is an automated system for the identification and antimicrobial susceptibility testing of bacterial isolates. This system with its negative identification (NID) panel was evaluated for its accuracy in the identification of 507 isolates of the family Enterobacteriaceae, 57 other nonenteric gram-negative isolates that are commonly isolated in clinical microbiology laboratories, and 138 isolates of the family Vibrionaceae. All of the isolates had been characterized by using approximately 48 conventional tube biochemicals. Of the 507 isolates of the Enterobacteriaceae, 456 (89.9%) were correctly identified to the genus and species levels. The five isolates of Proteus penneri required an off-line indole test, as suggested by the system to differentiate them from Proteus vulgaris. The identifications of 20 (3.9%) isolates were correct to the genus level but incorrect at the species level. Two (0.4%) isolates were reported as "no identification." Misidentifications to the genus and species levels occurred for 29 (5.7%) isolates of the Enterobacteriaceae. These incorrect identifications were spread over 14 different genera. The most common error was the misidentification of Salmonella species. The shortest time for a correct identification was 2 h 8 min. The longest time was 12 h 27 min, for the identification of a Serratia marcescens isolate. Of the 57 isolates of nonenteric gram-negative bacilli (Acinetobacter, Aeromonas, Burkholderia, Plesiomonas, Pseudomonas, and Stenotrophomonas spp.), 48 (84.2%) were correctly identified to the genus and species levels and 7 (12.3%) were correctly identified to the genus level but not to the species level. The average time for a correct identification was 5 h 11 min. Of the Vibrionaceae spp., 123 (89.1%) were correctly identified at the end of the initial incubation period, which averaged 4 h. Based on the findings of this study, the Phoenix 100 ID/AST system NID panel falls short of being an acceptable new method for the identification of the Enterobacteriaceae, Vibrionaceae, and gram-negative nonenteric isolates that are commonly encountered in many hospital microbiology laboratories.

Published

2006

4. Photorhabdus asymbiotica, a pathogen emerging on two continents that proves that there is no substitute for a well-trained clinical microbiologist.

Author

Weissfeld AS, Halliday RJ, Simmons DE, Trevino EA, Vance PH, O'Hara CM, Sowers EG, Kern R, Koy RD, Hodde K, Bing M, Lo C, Gerrard J, Vohra R, and Harper J

Subjects

Diagnostic Errors, Humans, Male, Middle Aged, Photorhabdus drug effects, Photorhabdus isolation & purification

Abstract

A 54-year-old ranch hand presented to the emergency room with an alleged spider bite and multiple abscesses. Both wound and blood cultures grew Photorhabdus asymbiotica, an enteric gram-negative rod that was initially misidentified by the hospital's rapid identification system. Clinical laboratories should be aware of the limitations of their rapid identification systems and always use them as an adjunct to analysis of morphological and phenotypic traits.

Published

2005

5. Manual and automated instrumentation for identification of Enterobacteriaceae and other aerobic gram-negative bacilli.

Author

O'hara CM

Subjects

Automation, Bacterial Typing Techniques methods, Bacteriological Techniques, Gram-Negative Bacterial Infections microbiology, Humans, Reproducibility of Results, Sensitivity and Specificity, Bacterial Typing Techniques instrumentation, Enterobacteriaceae classification, Gram-Negative Aerobic Bacteria classification, Reagent Kits, Diagnostic

Abstract

Identification of gram-negative bacilli, both enteric and nonenteric, by conventional methods is not realistic for clinical microbiology laboratories performing routine cultures in today's world. The use of commercial kits, either manual or automated, to identify these organisms is a common practice. The advent of rapid or "spot" testing has eliminated the need for some commonly isolated organisms to be identified with the systems approach. Commercially available systems provide more in-depth identification to the species level as well as detect new and unusual strains. The answers obtained from these systems may not always be correct and must be interpreted with caution. The patient demographics, laboratory workload and work flow, and technologist's skill levels should dictate the system of choice. Cost considerations introduce another variable into the equation affecting choice. Each system has its own strengths and weaknesses, and each laboratory must decide on the level of sophistication that fulfills its particular needs.

Published

2005

6. Vancomycin-resistant Staphylococcus aureus isolate from a patient in Pennsylvania.

Author

Tenover FC, Weigel LM, Appelbaum PC, McDougal LK, Chaitram J, McAllister S, Clark N, Killgore G, O'Hara CM, Jevitt L, Patel JB, and Bozdogan B

Subjects

Anti-Infective Agents pharmacology, Bacterial Proteins genetics, Blotting, Southern, Carbon-Oxygen Ligases genetics, DNA, Bacterial genetics, Drug Resistance, Multiple, Bacterial, Microbial Sensitivity Tests, Ofloxacin pharmacology, Oxacillin pharmacology, Penicillins pharmacology, Pennsylvania, Plasmids genetics, Reverse Transcriptase Polymerase Chain Reaction, Rifampin pharmacology, Staphylococcal Infections genetics, Anti-Bacterial Agents pharmacology, Staphylococcal Infections microbiology, Vancomycin pharmacology, Vancomycin Resistance genetics

Abstract

A vancomycin-resistant Staphylococcus aureus (VRSA) isolate was obtained from a patient in Pennsylvania in September 2002. Species identification was confirmed by standard biochemical tests and analysis of 16S ribosomal DNA, gyrA, and gyrB sequences; all of the results were consistent with the S. aureus identification. The MICs of a variety of antimicrobial agents were determined by broth microdilution and macrodilution methods following National Committee for Clinical Laboratory Standards (NCCLS) guidelines. The isolate was resistant to vancomycin (MIC = 32 micro g/ml), aminoglycosides, beta-lactams, fluoroquinolones, macrolides, and tetracycline, but it was susceptible to linezolid, minocycline, quinupristin-dalfopristin, rifampin, teicoplanin, and trimethoprim-sulfamethoxazole. The isolate, which was originally detected by using disk diffusion and a vancomycin agar screen plate, was vancomycin susceptible by automated susceptibility testing methods. Pulsed-field gel electrophoresis (PFGE) of SmaI-digested genomic DNA indicated that the isolate belonged to the USA100 lineage (also known as the New York/Japan clone), the most common staphylococcal PFGE type found in hospitals in the United States. The VRSA isolate contained two plasmids of 120 and 4 kb and was positive for mecA and vanA by PCR amplification. The vanA sequence was identical to the vanA sequence present in Tn1546. A DNA probe for vanA hybridized to the 120-kb plasmid. This is the second VRSA isolate reported in the United States.

Published

2004

7. Accuracy of six commercially available systems for identification of members of the family vibrionaceae.

Author

O'Hara CM, Sowers EG, Bopp CA, Duda SB, and Strockbine NA

Subjects

Gram-Negative Bacterial Infections microbiology, Humans, Reagent Kits, Diagnostic, Reproducibility of Results, Serotyping methods, Vibrio cholerae classification, Vibrio cholerae isolation & purification, Vibrio mimicus classification, Vibrio mimicus isolation & purification, Vibrio parahaemolyticus classification, Vibrio parahaemolyticus isolation & purification, Vibrionaceae classification, Vibrio classification, Vibrio isolation & purification, Vibrio Infections microbiology, Vibrionaceae isolation & purification

Abstract

Six commercially available bacterial identification products were tested with Vibrio alginolyticus (12 strains), V. cholerae (30 strains), Photobacterium (Vibrio) damselae (10 strains), V. fluvialis (10 strains), V. furnissii (4 strains), V. hollisae (10 strains), V. metschnikovii (9 strains), V. mimicus (10 strains), V. parahaemolyticus (30 strains), and V. vulnificus (10 strains) to determine the accuracy of each system for identification. The products included API 20E, Crystal E/NF, MicroScan Neg ID2 and Rapid Neg ID3, and Vitek GNI+ and ID-GNB. Each product was tested only with those species that were listed in its database. Overall, the systems correctly identified 63.9, 80.9, 63.1, 73.6, 73.5, and 77.7% of the isolates to species level, respectively. Error rates ranged from 0.8% for the API 20E to 10.4% for the Rapid Neg ID3. The API 20E gave "no identification" for 13.1% of the isolates, while the Neg ID2, GNI+, ID-GNB, and Crystal were unable to identify 1.8, 2.9, 5.0, and 6.9%, respectively. For V. cholerae, specifically, accuracy ranged from 50.0 to 96.7%, with the API 20E having the worst performance and Crystal having the best. V. fluvialis presented the biggest challenge for the API 20E and the GNI+, with probabilities averaging 10%, while V. mimicus was a major problem with the Crystal E/NF, which identified none of the strains correctly. With the Neg ID2, correct answers were often obtained only after a modified inoculation of the panel with a bacterial suspension prepared with 0.85% NaCl. Additional tests required for identification often included growth in the absence of NaCl, which is not readily available in most clinical laboratories. The only product to correctly identify at least 90% of V. cholerae strains was the Crystal E/NF, and only three of the six products, the API 20E and both of the Vitek cards, correctly identified more than 90% of the V. parahaemolyticus strains. Thus, extreme care must be taken in the interpretation of answers from these six commercially available systems for the identification of Vibrio species.

Published

2003

8. Evaluation of the Vitek 2 ID-GNB assay for identification of members of the family Enterobacteriaceae and other nonenteric gram-negative bacilli and comparison with the Vitek GNI+ card.

Author

O'Hara CM and Miller JM

Subjects

Bacterial Typing Techniques statistics & numerical data, Enterobacteriaceae isolation & purification, Enterobacteriaceae metabolism, Fermentation, Glucose metabolism, Gram-Negative Bacteria isolation & purification, Gram-Negative Bacteria metabolism, Humans, Oxidoreductases metabolism, Species Specificity, Bacterial Typing Techniques instrumentation, Enterobacteriaceae classification, Gram-Negative Bacteria classification

Abstract

We evaluated the Vitek 2 ID-GNB identification card (bioMérieux, Inc., Durham, N.C.) for its ability to identify members of the family Enterobacteriaceae and other gram-negative bacilli that are isolated in clinical microbiology laboratories. Using 482 enteric stock cultures and 103 strains of oxidase-positive, gram-negative glucose-fermenting and nonfermenting bacilli that were maintained at -70 degrees C and passaged three times before use, we inoculated cards according to the manufacturer's directions and processed them in a Vitek 2 instrument using version VT2-R02.03 software. All panel identifications were compared to reference identifications previously confirmed by conventional tube biochemical assays. At the end of the initial 3-h incubation period, the Vitek 2 instrument demonstrated an accuracy of 93.0% for the identification of enteric strains; 414 (85.9%) were correctly identified at probability levels ranging from excellent to good, and an additional 34 (7.1%) strains were correctly identified but at a low level of discrimination. Nineteen (3.9%) strains were unidentified, and 15 (3.1%) were misidentified. The 19 unidentified strains were scattered among 10 genera. Three of the 15 misidentified strains were lactose-positive Salmonella spp. and were identified as Escherichia coli; another was a lactose-positive, malonate-negative Salmonella enterica subsp. arizonae strain that was identified as E. coli. Of the 103 glucose-fermenting and nonfermenting nonenteric strains, 88 (85.4%) were correctly identified at probability levels ranging from excellent to good, and 10 (9.7%) were correctly identified, but at a low level of discrimination, for a total of 95.1% accuracy with this group. Two strains were unidentified and three were misidentified. The errors occurred for strains in three different genera. With the increased hands-off approach of the Vitek 2 instrument and accuracies of 93% for the identification of enteric organisms and 95.1% for the identification of nonenteric organisms with the ID-GNB card, use of this product presents an acceptable method for the identification of most gram-negative organisms commonly isolated in the clinical laboratory. A comparison of these results to those obtained by testing 454 of the same strains with the Vitek GNI+ card revealed no significant difference in the abilities of the two cards to identify these organisms accurately.

Published

2003

9. Ability of the MicroScan rapid gram-negative ID type 3 panel to identify nonenteric glucose-fermenting and nonfermenting gram-negative bacilli.

Author

O'Hara CM and Miller JM

Subjects

Fermentation, Glucose metabolism, Humans, Diagnostic Techniques and Procedures, Enterobacteriaceae isolation & purification

Abstract

The MicroScan Rapid Neg ID3 panel is designed for the identification of Enterobacteriaceae and nonenteric glucose-fermenting and nonfermenting gram-negative bacilli. We evaluated this panel for its ability to identify gram-negative non-Enterobacteriaceae bacteria. A total of 134 strains, representing 26 genera and 42 species, were taken from storage at -70(o)C, passaged three times before testing, and inoculated into the panels according to the manufacturer's directions before being inserted into a Walk/Away 96 instrument loaded with version 22.28 software. At the end of the initial 2.5-h incubation period, 89 isolates (66.4%) were correctly identified at a probability level of > or =85%. After additional testing recommended by the manufacturer was completed, another 11 isolates (8.2%) were correctly identified at probability levels of > or =85%. Twenty-five (18.7%) isolates were correctly identified after additional testing, but the probability levels were less than 85%. Two isolates were unidentified, and seven (5.2%) were incorrectly identified. The seven misidentified strains were not concentrated in any one genus. With an accuracy approaching 75%, this product may be used for the identification of the commonly isolated non-Enterobacteriaceae bacteria but may present problems in identification of other non-glucose-fermenting gram-negative bacilli.

Published

2002

10. Performance of eight methods, including two new rapid methods, for detection of oxacillin resistance in a challenge set of Staphylococcus aureus organisms.

Author

Swenson JM, Williams PP, Killgore G, O'Hara CM, and Tenover FC

Subjects

Humans, Methicillin Resistance genetics, Microbial Sensitivity Tests methods, Microbial Sensitivity Tests standards, Polymerase Chain Reaction, Reference Standards, Sensitivity and Specificity, Time Factors, Oxacillin pharmacology, Penicillin Resistance, Penicillins pharmacology, Staphylococcus aureus drug effects

Abstract

Using a set of 55 Staphylococcus aureus challenge organisms, we evaluated six routine methods (broth microdilution, disk diffusion, oxacillin agar screen, MicroScan conventional panels, MicroScan rapid panels, and Vitek cards) currently used in many clinical laboratories and two new rapid methods, Velogene and the MRSA-Screen, that require less than a day to determine the susceptibility of S. aureus to oxacillin. The methods were evaluated by using the presence of the mecA gene, as detected by PCR, as the "gold standard." The strains included 19 mecA-positive heterogeneously resistant strains of expression class 1 or 2 (demonstrating oxacillin MICs of 4 to >16 microg/ml) and 36 mecA-negative strains. The oxacillin MICs of the latter strains were 0.25 to 4 microg/ml when tested by broth microdilution with 2% NaCl-supplemented cation-adjusted Mueller-Hinton broth as specified by the NCCLS. However, when tested by agar dilution with 4% salt (the conditions used in the oxacillin agar screen method), the oxacillin MICs of 16 of the mecA-negative strains increased to 4 to 8 microg/ml. On initial testing, the percentages of correct results (% sensitivity/% specificity) were as follows: broth microdilution, 100/100; Velogene, 100/100; Vitek, 95/97; oxacillin agar screen, 90/92; disk diffusion, 100/89; MicroScan rapid panels, 90/86; MRSA-Screen, 90/100; and MicroScan conventional, 74/97. The MRSA-Screen sensitivity improved to 100% if agglutination reactions were read at 15 min. Repeat testing improved the performance of some but not all of the systems.

Published

2001

11. Evaluation of the MicroScan rapid neg ID3 panel for identification of Enterobacteriaceae and some common gram-negative nonfermenters.

Author

O'Hara CM and Miller JM

Subjects

Enterobacteriaceae isolation & purification, Fermentation, Glucose metabolism, Gram-Negative Bacteria isolation & purification, Humans, Reproducibility of Results, Bacterial Typing Techniques instrumentation, Enterobacteriaceae classification, Gram-Negative Bacteria classification

Abstract

The MicroScan Rapid Neg ID3 panel (Dade Behring, Inc., West Sacramento, Calif.) is designed for the identification of gram-negative bacilli. We evaluated its ability to accurately identify Enterobacteriaceae that are routinely encountered in a clinical laboratory and glucose nonfermenting gram-negative bacilli. Using 511 stock cultures that were maintained at -70 degrees C and passaged three times before use, we inoculated panels according to the manufacturer's instructions and processed them in a Walk/Away instrument using version 22.01 software. The time to identification was 2 h and 30 min. All panel identifications were compared to reference identifications previously determined by conventional tube biochemicals. At the end of the initial 2.5-h incubation period, 405 (79.3%) identifications were correct. An additional 49 (9.6%) isolates were correctly identified after required additional off-line biochemical tests were performed. Thus, at 24 h, 88.8% of the 511 strains tested were correctly identified. Twenty-two (4.3%) were identified to the genus level only. Twenty-six (5.1%) strains were misidentified. Because the system is based on fluorogenics, there are no conventional tests readily available with which to compare possibly incorrect reactions. Of the 28 Salmonella strains that were tested, 5 were incorrectly reported. The 21 remaining errors were scattered among the genera tested. Testing on nine strains gave a result of "no identification" (very rare biotype). The Rapid Neg ID3 panel in this study approached 89% accuracy for the identification of gram-negative organisms encountered in the hospital laboratory.

Published

2000

12. Classification, identification, and clinical significance of Proteus, Providencia, and Morganella.

Author

O'Hara CM, Brenner FW, and Miller JM

Subjects

Anti-Bacterial Agents pharmacology, Bacterial Typing Techniques, Humans, Microbial Sensitivity Tests, Morganella drug effects, Morganella genetics, Proteus drug effects, Proteus genetics, Proteus Infections microbiology, Providencia drug effects, Providencia genetics, Enterobacteriaceae Infections microbiology, Morganella classification, Proteus classification, Providencia classification

Abstract

This review presents the current taxonomy of the genera Proteus, Providencia, and Morganella, along with the current methods for the identification of each species within the three genera, incorporating both conventional biochemical and commercial methods. While all of these organisms are ubiquitous in the environment, individual case reports and nosocomial outbreak reports that demonstrate their ability to cause major infectious disease problems are presented. Lastly, anticipated antimicrobial susceptibility patterns are reviewed. Many of these organisms are easily controlled, but the advent of newer and more powerful antimicrobial agents has led to some problems of which laboratorians need to be aware.

Published

2000

13. Incidence and identification of Klebsiella planticola in clinical isolates with emphasis on newborns.

Author

Westbrook GL, O'Hara CM, Roman SB, and Miller JM

Subjects

Bacterial Typing Techniques, Humans, Incidence, Infant, Newborn, Klebsiella isolation & purification, Klebsiella metabolism, Klebsiella classification, Klebsiella Infections epidemiology, Klebsiella Infections microbiology

Abstract

Studies conducted in France and Germany suggest that up to 19% of clinically identified Klebsiella sp. are actually Klebsiella planticola, an environmental species that has been attributed to two cases of septicemia, with a rare isolate of Klebsiella terrigena (0. 4%) being identified. A 1-year survey of newborns on a neonatal ward, also conducted in Germany, reported that 72% of Klebsiella sp. were Klebsiella oxytoca and 8.7% were K. planticola. The tests necessary to identify these species are not found in most clinical identification schemes or in the database matrices of most commercial identification products. To determine the incidence of unrecognized K. planticola among the Klebsiella sp. isolates in our collection, we used the battery of seven supplemental tests amended from the work of Monnet and Freney to test 352 stock isolates and 84 fresh clinical isolates from four local hospitals. After testing 436 strains of Klebsiella, only one strain was identified as a possible K. planticola and none was identified as K. terrigena. We tested an additional 43 stock strains of K. oxytoca isolated from newborns by using eight biochemical tests and found one additional strain of K. planticola. The occurrence of K. planticola in our collection is far less frequent than that observed in other countries.

Published

2000

14. Biochemical identification of Citrobacter species defined by DNA hybridization and description of Citrobacter gillenii sp. nov. (formerly Citrobacter genomospecies 10) and Citrobacter murliniae sp. nov. (formerly Citrobacter genomospecies 11).

Author

Brenner DJ, O'Hara CM, Grimont PA, Janda JM, Falsen E, Aldova E, Ageron E, Schindler J, Abbott SL, and Steigerwalt AG

Subjects

DNA, Bacterial genetics, Genome, Bacterial, Humans, Nucleic Acid Hybridization, Citrobacter classification, Citrobacter genetics, DNA, Bacterial analysis

Abstract

Recent work describing six named species and two unnamed genomospecies within Citrobacter has enlarged the genus to 11 species. DNA relatedness and phenotypic tests were used to determine how well these species can be identified. One hundred thirty-six strains were identified to species level by DNA relatedness and then identified phenotypically in a blinded fashion. By using conventional tests, 119 of the 136 strains (88%) were correctly identified to species level. Three additional strains (2%) were identified as citrobacteria but were not identified to species level, and 14 strains (10%) were misidentified as other Citrobacter species. Carbon source utilization tests were used to identify 86 of the strains. Eighty-four strains (98%) were correctly identified, and two strains (2%) were misidentified as other Citrobacter species. Additional strains of Citrobacter genomospecies 10 and Citrobacter genomospecies 11 were identified, allowing these species to be formally named as Citrobacter gillenii sp. nov. and Citrobacter murliniae sp. nov., respectively.

Published

1999

15. Evaluation of the ID 32E for the identification of Gram-negative glucose-fermenting and glucose-non-fermenting bacilli.

Author

O'Hara CM and Miller JM

Abstract

OBJECTIVE: To evaluate the ID 32E bacterial identification system for accuracy in the identification of members of the family Enterobacteriaceae, Pseudomonas aeruginosa, Stenotrophomonas maltophilia, and Acinetobacter baumannii/Iwoffii. METHODS: Stock cultures of 497 Enterobacteriaceae and 27 commonly encountered non-enteric Gram-negative rods were tested in the ID 32E system. For each isolate, the resulting 11-digit profile number was converted to an identification using the APILAB Plus software (version 3.2.2). This identification was then compared to the reference identification obtained using conventional biochemicals. RESULTS: Of the 524 isolates tested, 405 (77.3%) were identified correctly; 52 (9.9%) were identified incorrectly. Sixty-seven (12.8%) identifications were either doubtful or unacceptable, and were not limited to any particular genus or species, with the exception of Ewingella americana and Serratia plymuthica, which did not grow well enough in the strip at 35 degrees C to be correctly identified. All five isolates of Acinetobacter Iwoffii were misidentified as Alcaligenes spp. CONCLUSIONS: With this challenge set of organisms, the ID 32E correctly identified 77.3% of the isolates tested. For commonly encountered isolates, the accuracy approached 90%. We conclude that the ID 32E offers an alternative for the identification of common clinical isolates.

Published

1999

16. Comparison of agar dilution, disk diffusion, MicroScan, and Vitek antimicrobial susceptibility testing methods to broth microdilution for detection of fluoroquinolone-resistant isolates of the family Enterobacteriaceae.

Author

Steward CD, Stocker SA, Swenson JM, O'Hara CM, Edwards JR, Gaynes RP, McGowan JE Jr, and Tenover FC

Subjects

Culture Media, Enterobacteriaceae genetics, Enterobacteriaceae isolation & purification, Enterobacteriaceae Infections microbiology, Hospitals, Humans, Microbial Sensitivity Tests instrumentation, Reproducibility of Results, United States, Anti-Infective Agents pharmacology, Ciprofloxacin pharmacology, Drug Resistance, Microbial, Enterobacteriaceae drug effects, Microbial Sensitivity Tests methods, Ofloxacin pharmacology

Abstract

Fluoroquinolone resistance appears to be increasing in many species of bacteria, particularly in those causing nosocomial infections. However, the accuracy of some antimicrobial susceptibility testing methods for detecting fluoroquinolone resistance remains uncertain. Therefore, we compared the accuracy of the results of agar dilution, disk diffusion, MicroScan Walk Away Neg Combo 15 conventional panels, and Vitek GNS-F7 cards to the accuracy of the results of the broth microdilution reference method for detection of ciprofloxacin and ofloxacin resistance in 195 clinical isolates of the family Enterobacteriaceae collected from six U.S. hospitals for a national surveillance project (Project ICARE [Intensive Care Antimicrobial Resistance Epidemiology]). For ciprofloxacin, very major error rates were 0% (disk diffusion and MicroScan), 0.9% (agar dilution), and 2.7% (Vitek), while major error rates ranged from 0% (agar dilution) to 3.7% (MicroScan and Vitek). Minor error rates ranged from 12.3% (agar dilution) to 20.5% (MicroScan). For ofloxacin, no very major errors were observed, and major errors were noted only with MicroScan (3.7% major error rate). Minor error rates ranged from 8.2% (agar dilution) to 18.5% (Vitek). Minor errors for all methods were substantially reduced when results with MICs within +/-1 dilution of the broth microdilution reference MIC were excluded from analysis. However, the high number of minor errors by all test systems remains a concern.

Published

1999

17. Isolation of Enterobacter intermedium from the gallbladder of a patient with cholecystitis.

Author

O'Hara CM, Steward CD, Wright JL, Tenover FC, and Miller JM

Subjects

Anti-Bacterial Agents pharmacology, Cholecystectomy, Cholecystitis diagnosis, Cholecystitis surgery, Enterobacter drug effects, Humans, Male, Microbial Sensitivity Tests, Middle Aged, Cholecystitis microbiology, Enterobacter classification, Enterobacter isolation & purification, Gallbladder microbiology

Abstract

We describe the isolation and identification of Enterobacter intermedium from the gallbladder of a patient with cholecystitis. There have been only four documented isolations of this organism from humans; it normally occurs in surface water and unpolluted soils. The identification was initially made by a MicroScan Walk/Away system with a Neg Combo 18 conventional identification-susceptibility panel. The organism is susceptible to the aminoglycosides and imipenem but resistant to the cephalosporins and ciprofloxacin.

Published

1998

18. Characterization of staphylococci with reduced susceptibilities to vancomycin and other glycopeptides.

Author

Tenover FC, Lancaster MV, Hill BC, Steward CD, Stocker SA, Hancock GA, O'Hara CM, McAllister SK, Clark NC, and Hiramatsu K

Subjects

Drug Resistance, Microbial, Microbial Sensitivity Tests, Polymerase Chain Reaction, Anti-Bacterial Agents pharmacology, Staphylococcus drug effects, Vancomycin pharmacology

Abstract

During the last several years a series of staphylococcal isolates that demonstrated reduced susceptibility to vancomycin or other glycopeptides have been reported. We selected 12 isolates of staphylococci for which the vancomycin MICs were > or =4 microg/ml or for which the teicoplanin MICs were > or =8 microg/ml and 24 control strains for which the vancomycin MICs were < or =2 microg/ml or for which the teicoplanin MICs were < or =4 microg/ml to determine the ability of commercial susceptibility testing procedures and vancomycin agar screening methods to detect isolates with reduced glycopeptide susceptibility. By PCR analysis, none of the isolates with decreased glycopeptide susceptibility contained known vancomycin resistance genes. Broth microdilution tests held a full 24 h were best at detecting strains with reduced glycopeptide susceptibility. Disk diffusion did not differentiate the strains inhibited by 8 microg of vancomycin per ml from more susceptible isolates. Most of the isolates with reduced glycopeptide susceptibility were recognized by MicroScan conventional panels and Etest vancomycin strips. Sensititre panels read visually were more variable, although with some of the panels MICs of 8 microg/ml were noted for these isolates. Vitek results were 4 microg/ml for all strains for which the vancomycin MICs were > or =4 microg/ml. Vancomycin MICs on Rapid MicroScan panels were not predictive, giving MICs of either < or =2 or > or =16 microg/ml for these isolates. Commercial brain heart infusion vancomycin agar screening plates containing 6 microg of vancomycin per ml consistently differentiated those strains inhibited by 8 microg/ml from more susceptible strains. Vancomycin-containing media prepared in-house showed occasional growth of susceptible strains, Staphylococcus aureus ATCC 29213, and on occasion, Enterococcus faecalis ATCC 29212. Thus, strains of staphylococci with reduced susceptibility to glycopeptides, such as vancomycin, are best detected in the laboratory by nonautomated quantitative tests incubated for a full 24 h. Furthermore, it appears that commercial vancomycin agar screening plates can be used to detect these isolates.

Published

1998

19. Two new Rahnella genomospecies that cannot be phenotypically differentiated from Rahnella aquatilis.

Author

Brenner DJ, Müller HE, Steigerwalt AG, Whitney AM, O'Hara CM, and Kämpfer P

Subjects

Animals, Bacteriological Techniques, Carbon metabolism, DNA, Bacterial analysis, Enterobacter metabolism, Humans, Hydrolysis, Molecular Sequence Data, Phenotype, RNA, Bacterial analysis, RNA, Ribosomal, 16S analysis, Sequence Analysis, RNA, Enterobacter classification, Enterobacter genetics, Snails microbiology, Water Microbiology

Abstract

Fifty-one Rahnella aquatilis and R. aquatilis-like strains from water, snails and human sources were characterized by routine biochemical tests, carbon source utilization tests, DNA relatedness (hydroxyapatite method) and 16S rRNA sequencing. The results of the genetic methods indicated that the strains comprised three closely related species within the genus Rahnella. It was not possible to differentiate R. aquatilis from the two newly recognized species. The new species were therefore given the vernacular names Rahnella genomospecies 2 and Rahnella genomospecies 3.

Published

1998

20. First report of a human isolate of Erwinia persicinus.

Author

O'Hara CM, Steigerwalt AG, Hill BC, Miller JM, and Brenner DJ

Subjects

Aged, Aged, 80 and over, DNA, Bacterial analysis, Erwinia drug effects, Female, Humans, Erwinia isolation & purification

Abstract

Erwinia persicinus was first described in 1990 after being isolated from a variety of fruits and vegetables, including bananas, cucumbers, and tomatoes. In 1994, it was shown to be the causative agent of necrosis of bean pods. We now report the first human isolate of E. persicinus. The strain was isolated from the urine of an 88-year-old woman who presented with a urinary tract infection. By the hydroxyapatite method, DNA from this strain was shown to be 94.5% related at 60 degrees C and 86% related at 75 degrees C to the type strain of E. persicinus. The biochemical profile of E. persicinus is most similar to those of Erwinia rhapontici, Pantoea agglomerans, and Enterobacter species. It is negative in tests for lysine, arginine, ornithine, dulcitol, and urea. It is motile and positive in tests for D-sorbitol and sucrose. It is susceptible to the expanded-spectrum cephalosporins, aminoglycosides, and fluoroquinolones, but it is resistant to ampicillin, ticarcillin, and cefazolin.

Published

1998

21. Evaluation of Vitek GNI+ and Becton Dickinson Microbiology Systems Crystal E/NF identification systems for identification of members of the family Enterobacteriaceae and other gram-negative, glucose-fermenting and non-glucose-fermenting bacilli.

Author

O'Hara CM, Westbrook GL, and Miller JM

Subjects

Bacterial Typing Techniques statistics & numerical data, Diagnostic Errors, Enterobacteriaceae classification, Enterobacteriaceae metabolism, Enterobacteriaceae Infections diagnosis, Enterobacteriaceae Infections microbiology, Evaluation Studies as Topic, Fermentation, Glucose metabolism, Gram-Negative Bacteria classification, Gram-Negative Bacteria metabolism, Gram-Negative Bacterial Infections diagnosis, Gram-Negative Bacterial Infections microbiology, Humans, Sensitivity and Specificity, Bacteriological Techniques statistics & numerical data, Enterobacteriaceae isolation & purification, Gram-Negative Bacteria isolation & purification

Abstract

We evaluated the Vitek GNI+ and Becton Dickinson Crystal E/NF identification systems for their ability to accurately identify 619 and 626 strains, respectively, of members of the family Enterobacteriaceae and other glucose-fermenting and non-glucose-fermenting gram-negative rods. All strains tested were taken from a stock collection and passed three times on 5% sheep blood agar prior to testing. These strains represented a more rigorous challenge to both systems than one resulting from the testing of consecutive clinical isolates. Testing with both systems was done according to the manufacturers' instructions, and tests were repeated in duplicate when errors occurred. Vitek version 5.01 and Crystal version 3.0 softwares were used for identifications. The identification results from each system were compared with identifications previously determined with reference biochemicals. At the completion of the appropriate incubation period, the GNI+ and Crystal systems correctly identified 80.1 and 71.1% of the total isolates, respectively. After additional tests suggested by the software programs were completed, the GNI+ had an accuracy of 87.6% and the Crystal system's accuracy had improved to 87.9%. The error rates for the GNI+ and Crystal systems were 6.5 and 5.3%, respectively. A report of "no identification" was given for 6.0 and 6.9% of the isolates, respectively, and was associated with no particular organism group. One isolate each of Acinetobacter lwoffii and Vibrio alginolyticus would not grow in the Vitek card. The average times to detection for correct enteric identifications in the GNI+ system were 4.1 and 6.8 h for nonenteric identifications, while the Crystal results were routinely read at 18 h. We conclude that there was no significant difference (P > 0.05) between the results of the GNI+ card and those of the Crystal E/NF system after additional testing was performed with the group of organisms tested, but the overall accuracy for both systems in this study was below 90%.

Published

1997

22. Replacement of NCTC 4175, the current type strain of Proteus vulgaris, with ATCC 29905. Request for an opinion.

Author

Brenner DJ, Hickman-Brenner FW, Holmes B, Hawkey PM, Penner JL, Grimont PA, and O'Hara CM

Subjects

DNA, Bacterial chemistry, Humans, Proteus vulgaris genetics, Proteus vulgaris classification

Abstract

The current type strain of Proteus vulgaris, NCTC 4175 (= ATCC 13315), differs substantially from typical strains of this species both biochemically and chemotaxonomically. DNA relatedness studies revealed that strains previously classified as P. vulgaris belong to six genomospecies. One of these genomospecies contains strains that are negative in indole, salicin, and esculin reactions (biogroup 1) and has been named Proteus penneri. A second genomospecies, which is most frequently isolated from human urine, contains typical P. vulgaris strains that are positive in indole, salicin, and esculin reactions (biogroup 2). The members of the remaining four genomospecies are indole positive and negative in salicin and esculin reactions (biogroup 3). Of 36 biogroup 3 strains studied, only strain NCTC 4175T (T = type strain) and one other strain, CDC 1732-80, belong to genomospecies 3. To retain NCTC 4175 as the type strain of P. vulgaris would restrict this species to these two strains, whose origins are unknown. This would mean that hundreds of strains for which the description of P. vulgaris was written and which have been representatives of this species for the past 50 years would have to be renamed as members of a new species. To prevent this confusion, we request that biogroup 2 reference strain ATCC 29905 (= CDC PR1) replace NCTC 4175 as the type strain of P. vulgaris.

Published

1995

23. Genetic and biochemical characterization of Citrobacter rodentium sp. nov.

Author

Schauer DB, Zabel BA, Pedraza IF, O'Hara CM, Steigerwalt AG, and Brenner DJ

Subjects

Animals, Animals, Laboratory microbiology, Bacterial Typing Techniques, Base Sequence, Citrobacter classification, DNA, Bacterial genetics, Enterobacteriaceae Infections etiology, Genes, Bacterial, Mice microbiology, Molecular Sequence Data, Polymerase Chain Reaction, Species Specificity, Virulence genetics, Citrobacter genetics, Citrobacter metabolism

Abstract

An unusual bacterial pathogen of laboratory mice has been previously classified as an atypical biotype of Citrobacter freundii. Designated C. freundii biotype 4280, this bacterium is the etiologic agent of transmissible murine clonic hyperplasia. An eaeA gene has been shown to be present in this organism and to be necessary for virulence in laboratory mice. However, other biotypes of C. freundii lack DNA homology with the eaeA gene. Because of the recent reclassification in which five named species and three unnamed species, all previously considered C. freundii, were described, we determined the taxonomic status of C. freundii biotype 4280. With a battery of biochemical tests and DNA relatedness studies, three isolates of C. freundii biotype 4280 were shown to be members of an unnamed Citrobacter species, designated species 9. In total, six isolates of Citrobacter species 9, but none of the type strains of the other eight named species or of the two remaining unnamed species of Citrobacter, were shown to possess DNA homology with both the eaeA and the eaeB genes. Species 9 was named Citrobacter rodentium sp. nov.

Published

1995

24. Ability of commercial and reference antimicrobial susceptibility testing methods to detect vancomycin resistance in enterococci.

Author

Tenover FC, Swenson JM, O'Hara CM, and Stocker SA

Subjects

Automation, Diagnostic Errors, Drug Resistance, Microbial, Enterococcus classification, Evaluation Studies as Topic, Humans, Microbial Sensitivity Tests statistics & numerical data, Enterococcus drug effects, Microbial Sensitivity Tests methods, Vancomycin pharmacology

Abstract

We evaluated the abilities of 10 commercially available antimicrobial susceptibility testing methods and four reference methods (agar dilution, broth microdilution, disk diffusion, and the agar screen plate) to classify enterococci correctly as vancomycin susceptible or resistant using 50 well-characterized strains of enterococci. There was a high level of agreement of category classification data obtained with broth-based systems (Sceptor, MicroMedia, Pasco, and Sensititre), agar dilution, and an antibiotic gradient method (E test) with data obtained by reference broth microdilution; no very major or major errors were seen, and minor errors were < or = 6%. Increased minor error rates were observed with disk diffusion (12%), Alamar (16%), Uniscept (16%), and conventional (overnight) MicroScan panels (16%). The errors were primarily with Enterococcus casseliflavus strains and organisms containing the vanB vancomycin resistance gene. Very major error rates of 10.3 and 20.7% were observed with Vitek and MicroScan Rapid (MS/Rapid) systems, respectively; however, only the MS/Rapid system produced major errors (13.3%). On repeat testing of discrepant isolates, the very major error rate with the Vitek system dropped to 3.4%, while the very major error rate with the MS/Rapid system increased to 27.6%; major errors with the MS/Rapid system were not resolved. Many of the commercial systems had only 4 dilutions of vancomycin, which resulted in up to 84% of values being off scale (e.g., Uniscept). Of the methods tested, most conventional broth- and agar-based methods proved to be highly accurate when incubation was done for a full 24 h, although several of the tests had high minor error rates. Automated systems continued to demonstrate problems in detecting low-level resistance.

Published

1995

25. Ability of commercial identification systems to identify newly recognized species of Citrobacter.

Author

O'Hara CM, Roman SB, and Miller JM

Subjects

Decision Making, Computer-Assisted, Evaluation Studies as Topic, Reagent Kits, Diagnostic, Reproducibility of Results, Software, Citrobacter classification

Abstract

The genus Citrobacter was recently determined to contain 11 genetically distinct species. In addition, the International Committee on Systematic Bacteriology no longer recognizes C. diversus and has, instead, validated the name C. koseri in its place. The 11 species are C. freundii, C. koseri, C. amalonaticus, C. farmeri, C. youngae, C. braakii, C. werkmanii, C. sedlakii, and three unnamed groups, genomospecies 9, 10, and 11. To determine the ease with which some identification systems could respond to these changes, we evaluated five systems for their potential ability to recognize current species in the genus Citrobacter. A simple dichotomous key using conventional biochemicals is presented that may be helpful to presumptively identify Citrobacter strains.

Published

1995

26. Parallel comparison of accuracy of API 20E, Vitek GNI, MicroScan Walk/Away Rapid ID, and Becton Dickinson Cobas Micro ID-E/NF for identification of members of the family Enterobacteriaceae and common gram-negative, non-glucose-fermenting bacilli.

Author

O'Hara CM, Tenover FC, and Miller JM

Subjects

Diagnostic Errors, Enterobacteriaceae classification, Enterobacteriaceae metabolism, Enterobacteriaceae Infections diagnosis, Evaluation Studies as Topic, Fermentation, Glucose metabolism, Gram-Negative Bacteria classification, Gram-Negative Bacteria metabolism, Gram-Negative Bacterial Infections diagnosis, Humans, Species Specificity, Bacteriological Techniques statistics & numerical data, Enterobacteriaceae isolation & purification, Gram-Negative Bacteria isolation & purification

Abstract

We compared the API 20E (21 h) (API; bioMérieux Vitek, Hazelwood, Mo.), the Vitek GNI card (4 to 18 h) (Vitek; bioMérieux Vitek), the identification portion of the MicroScan Walk/Away Rapid Neg Combo 3 panel (2 h) (W/A; Baxter Diagnostics, Inc., West Sacramento, Calif.), and the Becton Dickinson Cobas Micro ID-E/NF rotor (21 h) (Cobas; Becton Dickinson Diagnostic Instrument Systems, Sparks, Md.), versus conventional biochemicals for their abilities to identify accurately 252 strains of biochemically typical and atypical members of the family Enterobacteriaceae and common non-glucose-fermenting gram-negative bacilli. All strains used were included in the data base of each product. At the end of the initial incubation, 194 (77.0%), 213 (84.5%), 198 (78.6%), and 192 (76.2%) strains were correct to the genus and species levels with the API, Vitek, W/A, and Cobas systems, respectively. After additional biochemical tests were performed, as directed by each manufacturer's protocol, the numbers of strains correctly identified to the genus and species levels were 241 (95.6%), 234 (92.8%), 243 (96.4%), and 230 (91.3%) with the four systems, respectively. The errors were random in all systems, with the exception of two atypical Salmonella enteritidis strains, each of which was misidentified by three systems. After the initial recommended incubation period, both API and Cobas were significantly less accurate than Vitek (Yates' corrected P < 0.05). No significant differences were noted between the results of Vitek and W/A or between the results of API and W/A. After additional tests were completed, Cobas was significantly less accurate than W/A (P < 0.05) but was equal in accuracy to Vitek and API. API, Vitek, and W/A were equal in accuracy after these same additional tests. All four systems were significantly more accurate after additional biochemical testing than after the initial reporting period (194 of 252 versus 241 of 252 for API, 213 of 252 versus 234 of 252 for Vitek, 198 of 252 versus 243 or 252 for W/A, and 192 of 252 versus 230 of 252 for Cobas [P<0.05]).

Published

1993

27. Collaborative evaluation of the Radiometer Sensititre AP80 for identification of gram-negative bacilli.

Author

Staneck JL, Weckbach LS, Tilton RC, Zabransky RJ, Bayola-Mueller L, O'Hara CM, and Miller JM

Subjects

Bacterial Typing Techniques standards, Bacterial Typing Techniques statistics & numerical data, Enterobacteriaceae classification, Enterobacteriaceae isolation & purification, Evaluation Studies as Topic, Fluorescent Dyes, Gram-Negative Bacteria isolation & purification, Humans, Quality Control, Reproducibility of Results, Species Specificity, Bacterial Typing Techniques instrumentation, Gram-Negative Bacteria classification

Abstract

A multicenter trial of the Sensititre AP80 panel read on the Sensititre AutoReader (Radiometer America, Westlake, Ohio) for the automated identification of gram-negative bacilli was conducted with 1,023 clinical isolates (879 members of the family Enterobacteriaceae plus 144 nonenteric organisms). Assignment of taxa was based on the computer-assisted interpretation of the results of a series of reactions with fluorogenic enzyme substrates after 5 h of incubation, with an incubation interval of approximately 18 h used when indicated. Accuracy was determined initially by comparison with the results obtained with the API 20E or Rapid NFT system (Analytab Products, Plainview, N.Y.). Isolates showing discrepancies were identified by using conventional biochemical profiles. Identifications were available after 5 h of incubation for 918 isolates (90%). Agreements with reference results for members of the family Enterobacteriaceae were 95.3 and 92.5% at the genus and species levels, respectively, and for the nonmembers of the family Enterobacteriaceae, the agreements with reference results were 95.1 and 84.7%, respectively. The Sensititre AP80 panel was found to be simple and convenient to use, allowed for the testing of three isolates per panel, required minimal supplementary testing for completion of identification, performed in a reproducible fashion, and demonstrated an accuracy of same-day identification comparable to that reported for other automated systems. The AP80 panel appears well suited for routine use in the clinical microbiology laboratory as an automated means of identifying both members of the family Enterobacteriaceae and nonenteric gram-negative bacilli.

Published

1993

28. Evaluation of the autoSCAN-W/A system for rapid (2-hour) identification of members of the family Enterobacteriaceae.

Author

O'Hara CM and Miller JM

Subjects

Enterobacteriaceae isolation & purification, Evaluation Studies as Topic, Bacterial Typing Techniques instrumentation, Enterobacteriaceae classification

Abstract

We evaluated the ability of the Baxter autoSCAN-W/A System (MicroScan Division, Baxter Diagnostics, Inc., West Sacramento, Calif.) to use the rapid (2-h) gram-negative identification panel for accurate identification of members of the family Enterobacteriaceae. At 2 h, 353 of 467 (75.6%) strains in a challenge set of biochemically typical and atypical stock cultures were correctly identified to genus and species. Another 76 (16.3%) strains were correctly identified to genus and species after the performance of recommended additional biochemical testing. Thus, at 24 h, 91.9% of the 467 strains were correctly identified. Twenty-two strains (4.7%) were identified to the correct genus but the incorrect species, and 16 strains (3.4%) were misidentified. Of these 16 strains, 9 were incorrect at 2 h, and 7 were incorrect after the additional testing. Because the system is based on fluorogenic substrates, no conventional tests were readily available with which to compare aberrant reactions. These results suggest that the autoSCAN-W/A with its rapid gram-negative panels is acceptable for the identification of the Enterobacteriaceae in a clinical microbiology laboratory.

Published

1992

29. Reevaluation of the API 20E identification system versus conventional biochemicals for identification of members of the family Enterobacteriaceae: a new look at an old product.

Author

O'Hara CM, Rhoden DL, and Miller JM

Subjects

Bacterial Typing Techniques, Enterobacteriaceae growth & development, Enterobacteriaceae isolation & purification, Humans, Species Specificity, Bacteriological Techniques, Enterobacteriaceae classification

Abstract

The API 20E bacterial identification system has been used for 19 years, often as the standard with which other identification systems are compared. Because the accuracy of this system compared with conventional biochemical tests has not been determined in many years, we evaluated the API 20E linear strip by using 291 typical and atypical strains of the family Enterobacteriaceae taken from a culture collection. At 24 h, the API 20E correctly identified by genus and species 229 of 291 (78.7%) of the strains, using Salmonella and Shigella serotyping where indicated. At 48 h, 95.2% were correctly identified by using additional biochemical tests as recommended by the manufacturer. The API 20E misidentified eight (2.7%) strains; these strains were not limited to any particular genus. When 81 of these Enterobacteriaceae strains were arranged into a weighted assortment correlating to the frequency with which they might be found in a clinical laboratory, the API 20E correctly identified 71 (87.7%) at 24 h and 78 (96.3%) at 48 h. This evaluation concluded that the accuracy of the identification of Enterobacteriaceae strains at 24 h (78.7%) may be significantly lower than that of earlier evaluations. However, there is no significant difference in the ability of the API 20E to correctly identify "challenge" type organisms (229 of 291) versus routine hospital isolates (71 of 81) (P greater than 0.05), but the system is not as accurate as the conventional biochemical method of identification.

Published

1992

30. Agreement between visual and automated UniScept API readings.

Author

O'Hara CM, Rhoden DL, and Smith PB

Subjects

Bacteria drug effects, Photometry, Predictive Value of Tests, Bacteria isolation & purification, Microbial Sensitivity Tests

Abstract

The UniScept API system was evaluated for agreement of visual versus automated readings of both its identification panels and its antimicrobial susceptibility panels. The biochemical responses of 340 oxidase-negative and oxidase-positive fermentative bacterial cultures were read both visually and automatically in the UniScept API 20E system. Automated and visual readings agreed with 99.3% of the biochemicals. Of the 45 tests that disagreed, the tests for indole and citrate were most often in disagreement. A total of 470 fermentative and nonfermentative cultures were used in the UniScept MIC system to compare visual and automated readings of susceptibility results with 17 antimicrobial agents. Agreement within +/- 1 dilution occurred with 94.1% of the enteric fermenters and with 91.7% of the other cultures. Comparison of visual and automated readings resulted in very major discrepancies in 0.95% of the readings, with the largest percentage of discrepancies associated with glucose nonfermenters (1.8%). It was felt that an automated reading is an acceptable alternative to a visual reading of the biochemicals but that 0.95% was just within the acceptable range of the 1% allowable very major discrepancies in the automated reading of susceptibilities.

Published

1990

31. Enterobacter hormaechei, a new species of the family Enterobacteriaceae formerly known as enteric group 75.

Author

O'Hara CM, Steigerwalt AG, Hill BC, Farmer JJ 3rd, Fanning GR, and Brenner DJ

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Anti-Bacterial Agents pharmacology, Child, DNA, Bacterial analysis, Enterobacter drug effects, Enterobacter genetics, Enterobacteriaceae Infections blood, Female, Humans, Infant, Newborn, Male, Middle Aged, Nucleic Acid Hybridization, Sputum microbiology, Enterobacter classification, Enterobacteriaceae classification, Enterobacteriaceae Infections microbiology, Terminology as Topic, Wound Infection microbiology

Abstract

The name Enterobacter hormaechei is proposed for a new species of the family Enterobacteriaceae, formerly called Enteric Group 75, which consists of 23 strains, 22 of which were isolated from humans. DNAs from 12 E. hormaechei strains tested were highly related to the type strain (ATCC 49162) by DNA hybridization, using the hydroxyapatite method (80 to 97% in 60 degrees C reactions; 80 to 90% in 75 degrees C reactions). The strains were most closely related (50 to 63%) to Enterobacter cloacae, Enterobacter dissolvens, Enterobacter taylorae, and Enterobacter nimipressuralis. E. hormaechei strains were positive within 48 h for the following: Voges-Proskauer test; citrate utilization (Simmons and Christensen); urea hydrolysis (87%); ornithine decarboxylase; growth in potassium cyanide (KCN); malonate utilization; production of acid from D-glucose, L-arabinose, cellobiose, dulcitol (87%), D-galactose, maltose, D-mannitol, D-mannose, L-rhamnose, sucrose, trehalose, and D-xylose; acid production from mucate; nitrate reduction; and o-nitrophenyl-beta-D-galactopyranoside. Delayed positive reactions were seen in tests for arginine dihydrolase, gas from D-glucose, acid from alpha-methyl-D-glucoside, and acetate utilization. E. hormaechei was negative in tests for indole production; H2S production; phenylalanine deaminase; lysine decarboxylase; gelatin hydrolysis; acid production from D-adonitol, D-arabitol, erythritol, glycerol, i(myo)-inositol, melibiose, raffinose, and D-sorbitol; esculin hydrolysis; DNase; lipase; and tyrosine clearing. Variable reactions occurred in tests for methyl red, motility, and tartrate. All strains tested were susceptible or moderately susceptible to amikacin, azlocillin, cefotaxime, ceftazidime, ceftriaxone, chloramphenicol, gentamicin, mezlocillin, moxalactam, piperacillin, trimethoprim-sulfamethoxazole, sulfisoxazole, thienamycin, tobramycin, and trimethoprim. All strains tested were resistant to nitrofurantoin; the majority were resistant to ampicillin, cefoxitin, and cephalothin. Four isolates were from blood; most other isolates were from wounds or sputum.

Published

1989

32. Continuing education records made easy.

Author

O'Hara CM

Subjects

Hospital Bed Capacity, 300 to 499, Tennessee, Education, Continuing, Laboratories organization & administration, Records

Published

1983

33. Evaluation of the updated QUANTUM II system for the identification of gram-negative bacilli.

Author

Rhoden DL and O'Hara CM

Subjects

Enterobacteriaceae classification, Enterobacteriaceae isolation & purification, Fermentation, Gram-Negative Bacteria classification, Predictive Value of Tests, Probability, Reagent Kits, Diagnostic, Gram-Negative Bacteria isolation & purification

Abstract

The QUANTUM II system (Abbott Diagnostics, Irving, Tex.) was evaluated with 65 species of gram-negative bacilli from various culture collections at the Centers for Disease Control. The QUANTUM II system accurately identified 92.5% of 335 isolates tested, as follows: 92.6% of 258 members of the family Enterobacteriaceae, 92.7% of 55 nonfermenters, and 91% of 22 oxidase-positive fermenters. These results were obtained by using the additional biochemical and serologic tests recommended by the manufacturers of the QUANTUM II system. The 25 misidentified cultures generally belonged to newly recognized genera, atypical strains, or slower-growing strains of more widely known genera. The system identified the most commonly encountered organisms at an accuracy of greater than or equal to 95%. The system is efficient, accurate, and rapid.

Published

1989

34. Evaluation of the Mini-ID Enterobacteriaceae screen system.

Author

O'Hara CM, Smith PB, and Schable BA

Subjects

Bacteriological Techniques, Enterobacteriaceae growth & development, Enterobacteriaceae isolation & purification, Fermentation, Species Specificity, Enterobacteriaceae classification

Abstract

A total of 932 typical and atypical enteric fermenters were used to evaluate the Mini-ID Enterobacteriaceae Screen/Identification System. At 4 h, final identifications were available for only 13.3%, but an additional 71% were screened into the correct group, according to the product's database. At 24 h, 58.8% were correctly identified to the species level, often with the use of an additional tube. When 118 of the cultures were arranged into a weighted assortment, as might be found in a clinical laboratory, 35 were definitively identified at 4 h, and another 72 were screened into the correct group. Of these 72, 31 were correctly identified to the species level at 24 h, for a total of 56.0%. False-negative ornithine and incorrect L-pyrrolidonyl-beta-naphthylamide and glucuronide xylopyranoside reactions accounted for 54% of the identification errors, while database problems accounted for 10.2% of the errors. Of the eight Salmonella paratyphi A cultures, seven were missed because of a false-positive lysine reaction. At best, the system serves only as a rough screen.

Published

1988

35. Escherichia fergusonii and Enterobacter taylorae, two new species of Enterobacteriaceae isolated from clinical specimens.

Author

Farmer JJ 3rd, Fanning GR, Davis BR, O'Hara CM, Riddle C, Hickman-Brenner FW, Asbury MA, Lowery VA 3rd, and Brenner DJ

Subjects

Aged, Animals, Anti-Bacterial Agents pharmacology, DNA, Bacterial genetics, Drug Resistance, Microbial, Enterobacter drug effects, Enterobacter genetics, Enterobacter metabolism, Escherichia drug effects, Escherichia genetics, Escherichia metabolism, Female, Fermentation, Humans, Male, Microbial Sensitivity Tests, Middle Aged, Nucleic Acid Hybridization, Terminology as Topic, Enterobacter classification, Enterobacteriaceae classification, Escherichia classification

Abstract

Escherichia fergusonii (formerly known as Enteric Group 10) and Enterobacter taylorae (formerly known as Enteric Group 19) are proposed as new species in the family Enterobacteriaceae. By DNA hybridization (32P, 60 degrees C, hydroxyapatite), strains of E. fergusonii were 90 to 97% related to the type strain (holotype) ATCC 35469. They were most closely related to Escherichia coli and more distantly related to species in other genera. E. fergusonii strains are positive for indole production, methyl red, lysine decarboxylase, ornithine decarboxylase, and motility. They ferment D-glucose with gas production and also ferment adonitol, L-arabinose, L-rhamnose, maltose, D-xylose, trehalose, cellobiose, and D-arabitol. They are negative for Voges-Proskauer, citrate utilization (17% positive), urea hydrolysis, phenylalanine deamination, arginine dihydrolase, growth in KCN, and fermentation of lactose, sucrose, myo-inositol, D-sorbitol, raffinose, and alpha-methyl-D-glucoside. By DNA hybridization (32P, 60 degrees C, hydroxyapatite), strains of E. taylorae were 84 to 95% related to the type strain (holotype) ATCC 35317. Their nearest relative was E. cloacae, to which they were 61% related. Other named species were more distantly related. Strains of E. taylorae are positive for Voges-Proskauer, citrate utilization, arginine dihydrolase, ornithine decarboxylase, motility, growth in KCN medium, and malonate utilization. They ferment D-glucose with gas production and also ferment D-mannitol, L-arabinose, L-rhamnose, maltose, D-xylose, trehalose, and cellobiose. They are negative for indole production, methyl red, H2S production on triple sugar-iron agar, urea hydrolysis, phenylalanine deamination, lysine decarboxylase, gelatin hydrolysis, and fermentation of adonitol, i-inositol, D-sorbitol, and raffinose. Both new species occur in human clinical specimens. Two strains of E. fergusonii were isolated from blood. Five stains of E. taylorae were isolated from blood, and one was from spinal fluid. These blood and spinal fluid isolates suggest possible clinical significance, but this point requires further study.

Published

1985

36. Rahnella aquatilis, an unusual gram-negative rod isolated from the bronchial washing of a patient with acquired immunodeficiency syndrome.

Author

Harrell LJ, Cameron ML, and O'Hara CM

Subjects

Adult, Enterobacteriaceae Infections microbiology, Fresh Water, Homosexuality, Humans, Male, Water Microbiology, Acquired Immunodeficiency Syndrome complications, Bronchi microbiology, Enterobacteriaceae isolation & purification, Enterobacteriaceae Infections complications

Abstract

Rahnella aquatilis, a rare enteric gram-negative rod which is usually found in fresh water, was isolated from the bronchial washing of a patient with acquired immunodeficiency syndrome. Although few clinical isolates have been reported, this is the second isolation of R. aquatilis from a human in North Carolina. A case report and discussion of R. aquatilis is presented.

Published

1989