Elizabeth A Mothershed

Publications (10) View all

• Article: Development and evaluation of a novel multiplex PCR technology for molecular differential detection of bacterial respiratory disease pathogens.

  Robert Benson, Maria L Tondella, Julu Bhatnagar, Maria da Glória S Carvalho, Jacquelyn S Sampson, Deborah F Talkington, Anne M Whitney, Elizabeth Mothershed, Lesley McGee, George Carlone, Vondguraus McClee, Jeannette Guarner, Sherif Zaki, Surang Dejsiri, K Cronin, Jian Han, Barry S Fields
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  ABSTRACT: The ResPlex I assay (Qiagen) was designed to amplify and detect DNA of six bacterial respiratory pathogens. This assay was compared with real-time PCR assays based upon the same target sequences for the ability detect the target bacteria by use of both stock strains and specimens from respiratory disease patients. The ResPlex I assay is somewhat less sensitive than real-time PCR assays but offers the advantage of multiple assays in a single reaction.
  Journal of clinical microbiology 07/2008; 46(6):2074-7. · 4.16 Impact Factor
• Source

  Available from: Thomas H Taylor Jr

  Article: Specific, sensitive, and quantitative enzyme-linked immunosorbent assay for human immunoglobulin G antibodies to anthrax toxin protective antigen.

  Conrad P Quinn, Vera A Semenova, Cheryl M Elie, Sandra Romero-Steiner, Carolyn Greene, Han Li, Karen Stamey, Evelene Steward-Clark, Daniel S Schmidt, Elizabeth Mothershed, [......], Anne Schuchat, Jairam R Lingappa, Sandra K Martin, John Walls, Melinda Bronsdon, George M Carlone, Mary Bajani-Ari, David A Ashford, David S Stephens, Bradley A Perkins
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  ABSTRACT: The bioterrorism-associated human anthrax epidemic in the fall of 2001 highlighted the need for a sensitive, reproducible, and specific laboratory test for the confirmatory diagnosis of human anthrax. The Centers for Disease Control and Prevention developed, optimized, and rapidly qualified an enzyme-linked immunosorbent assay (ELISA) for immunoglobulin G (IgG) antibodies to Bacillus anthracis protective antigen (PA) in human serum. The qualified ELISA had a minimum detection limit of 0.06 micro g/mL, a reliable lower limit of detection of 0.09 micro g/mL, and a lower limit of quantification in undiluted serum specimens of 3.0 micro g/mL anti-PA IgG. The diagnostic sensitivity of the assay was 97.8%, and the diagnostic specificity was 97.6%. A competitive inhibition anti-PA IgG ELISA was also developed to enhance diagnostic specificity to 100%. The anti-PA ELISAs proved valuable for the confirmation of cases of cutaneous and inhalational anthrax and evaluation of patients in whom the diagnosis of anthrax was being considered.
  Emerging infectious diseases 11/2002; 8(10):1103-10. · 6.17 Impact Factor
• Article: Analysis of genetic relatedness of Haemophilus influenzae isolates by multilocus sequence typing.

  Alice L Erwin, Sara A Sandstedt, Paul J Bonthuis, Jennifer L Geelhood, Kevin L Nelson, William C T Unrath, Mathew A Diggle, Mary J Theodore, Cynthia R Pleatman, Elizabeth A Mothershed, Claudio T Sacchi, Leonard W Mayer, Janet R Gilsdorf, Arnold L Smith
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  ABSTRACT: The gram-negative bacterium Haemophilus influenzae is a human-restricted commensal of the nasopharynx that can also be associated with disease. The majority of H. influenzae respiratory isolates lack the genes for capsule production and are nontypeable (NTHI). Whereas encapsulated strains are known to belong to serotype-specific phylogenetic groups, the structure of the NTHI population has not been previously described. A total of 656 H. influenzae strains, including 322 NTHI strains, have been typed by multilocus sequence typing and found to have 359 sequence types (ST). We performed maximum-parsimony analysis of the 359 sequences and calculated the majority-rule consensus of 4,545 resulting equally most parsimonious trees. Eleven clades were identified, consisting of six or more ST on a branch that was present in 100% of trees. Two additional clades were defined by branches present in 91% and 82% of trees, respectively. Of these 13 clades, 8 consisted predominantly of NTHI strains, three were serotype specific, and 2 contained distinct NTHI-specific and serotype-specific clusters of strains. Sixty percent of NTHI strains have ST within one of the 13 clades, and eBURST analysis identified an additional phylogenetic group that contained 20% of NTHI strains. There was concordant clustering of certain metabolic reactions and putative virulence loci but not of disease source or geographic origin. We conclude that well-defined phylogenetic groups of NTHI strains exist and that these groups differ in genetic content. These observations will provide a framework for further study of the effect of genetic diversity on the interaction of NTHI with the host.
  Journal of bacteriology 03/2008; 190(4):1473-83. · 3.94 Impact Factor
• Article: Rapid laboratory detection of meningococcal disease outbreaks caused by serogroup C Neisseria meningitidis.

  Patrick B Killoran, Janice O'Connell, Elizabeth A Mothershed, Will S Probert
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  ABSTRACT: Molecular subtyping is of significant importance to the recognition of outbreaks of meningococcal disease caused by serogroup C Neisseria meningitidis. We describe the application of multilocus variable number tandem repeat analysis (MLVA) for the molecular subtyping of N. meningitidis and compare its performance to that of pulsed-field gel electrophoresis (PFGE). For MLVA, a multiplex PCR assay targeting five variable number tandem repeat regions was developed and evaluated using a panel of sporadic and outbreak-associated serogroup C N. meningitidis isolates. MLVA was highly reproducible and provided results within 6 h. Overall, the discriminatory power of MLVA was equivalent to that of PFGE. The utilization of MLVA for subtyping N. meningitidis isolates provides a rapid and safer alternative to PFGE for identifying outbreaks of meningococcal disease. As such, it may provide public health officials with timely information that may minimize the spread of outbreak-related cases through prophylaxis.
  Journal of Microbiological Methods 12/2006; 67(2):330-8. · 2.09 Impact Factor
• Source

  Available from: upatras.gr

  Article: Nucleic acid-based methods for the detection of bacterial pathogens: present and future considerations for the clinical laboratory.

  Elizabeth A Mothershed, Anne M Whitney
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  ABSTRACT: Recent advances in nucleic acid-based methods to detect bacteria offer increased sensitivity and specificity over traditional microbiological techniques. The potential benefit of nucleic acid-based testing to the clinical laboratory is reduced time to diagnosis, high throughput, and accurate and reliable results. Several PCR and hybridization tests are commercially available for specific organism detection. Furthermore, hundreds of nucleic acid-based bacterial detection tests have been published in the literature and could be adapted for use in the clinical setting. Contamination potential, lack of standardization or validation for some assays, complex interpretation of results, and increased cost are possible limitations of these tests, however, and must be carefully considered before implementing them in the clinical laboratory. A major area of advancement in nucleic acid-based assay development has been for specific and broad-range detection of bacterial pathogens.
  Clinica Chimica Acta 02/2006; 363(1-2):206-20. · 2.54 Impact Factor