Using a Bayesian Latent Class Model to Evaluate the Utility of Investigating Persons with Negative Polymerase Chain Reaction Results for Pertussis

Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could...

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Published inAmerican journal of epidemiology Vol. 178; no. 2; pp. 309 - 318
Main Authors Tarr, Gillian A. M., Eickhoff, Jens C., Koepke, Ruth, Hopfensperger, Daniel J., Davis, Jeffrey P., Conway, James H.
Format Journal Article
LanguageEnglish
Published Cary, NC Oxford University Press 15.07.2013
Oxford Publishing Limited (England)
Subjects
Adolescent
Bacterial diseases
Bayes Theorem
Bayesian analysis
Biological and medical sciences
Bordetella pertussis - genetics
Bordetella pertussis - isolation & purification
Child
Child, Preschool
Data Interpretation, Statistical
DNA, Bacterial - analysis
Ent and stomatologic bacterial diseases
Epidemiology
False Negative Reactions
Female
Follow-Up Studies
General aspects
Human bacterial diseases
Humans
Infant
Infant, Newborn
Infectious diseases
Male
Medical sciences
Miscellaneous
Models, Statistical
Polymerase chain reaction
Population Surveillance - methods
Practice of Epidemiology
Predictive Value of Tests
Public health
Public health. Hygiene
Public health. Hygiene-occupational medicine
Real-Time Polymerase Chain Reaction
Reproducibility of Results
Sensitivity and Specificity
Whooping cough
Whooping Cough - diagnosis
Wisconsin
Wisconsin
Evaluation
Statistical analysis
Respiratory disease
predictive value of tests
Bordetella pertussis
Latent class analysis
Epidemiology
pertussis
Whooping cough
Result
Infection
Polymerase chain reaction
Sensitivity
Bacteriosis
Predictive value
public health surveillance
Bacteria
Models
Molecular biology
Sanitary surveillance
Bayesian analysis
Public health
whooping cough
sensitivity
polymerase chain reaction
Online AccessGet full text
ISSN0002-9262
1476-6256
1476-6256
DOI10.1093/aje/kws465

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Abstract Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could be identified if persons with negative pertussis test results were routinely investigated. We conducted interviews among 250 subjects aged ≤18 years with pertussis polymerase chain reaction (PCR) results reported from 2 reference laboratories in Wisconsin during July-September 2010 to determine whether their illnesses met the Centers for Disease Control and Prevention's clinical case definition (CCD) for pertussis. PCR validity measures were calculated using the CCD as the standard for pertussis disease. Two Bayesian latent class models were used to adjust the validity measures for pertussis detectable by 1) culture alone and 2) culture and/or more sensitive measures such as serology. Among 190 PCR-negative subjects, 54 (28%) had illnesses meeting the CCD. In adjusted analyses, PCR sensitivity and the negative predictive value were 1) 94% and 99% and 2) 43% and 87% in the 2 types of models, respectively. The models suggested that public health follow-up of reported pertussis patients with PCR-negative results leads to the detection of more true pertussis cases than follow-up of PCR-positive persons alone. The results also suggest a need for a more specific pertussis CCD.
AbstractList Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could be identified if persons with negative pertussis test results were routinely investigated. We conducted interviews among 250 subjects aged ≤18 years with pertussis polymerase chain reaction (PCR) results reported from 2 reference laboratories in Wisconsin during July-September 2010 to determine whether their illnesses met the Centers for Disease Control and Prevention's clinical case definition (CCD) for pertussis. PCR validity measures were calculated using the CCD as the standard for pertussis disease. Two Bayesian latent class models were used to adjust the validity measures for pertussis detectable by 1) culture alone and 2) culture and/or more sensitive measures such as serology. Among 190 PCR-negative subjects, 54 (28%) had illnesses meeting the CCD. In adjusted analyses, PCR sensitivity and the negative predictive value were 1) 94% and 99% and 2) 43% and 87% in the 2 types of models, respectively. The models suggested that public health follow-up of reported pertussis patients with PCR-negative results leads to the detection of more true pertussis cases than follow-up of PCR-positive persons alone. The results also suggest a need for a more specific pertussis CCD.
Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could be identified if persons with negative pertussis test results were routinely investigated. We conducted interviews among 250 subjects aged ≤18 years with pertussis polymerase chain reaction (PCR) results reported from 2 reference laboratories in Wisconsin during July-September 2010 to determine whether their illnesses met the Centers for Disease Control and Prevention's clinical case definition (CCD) for pertussis. PCR validity measures were calculated using the CCD as the standard for pertussis disease. Two Bayesian latent class models were used to adjust the validity measures for pertussis detectable by 1) culture alone and 2) culture and/or more sensitive measures such as serology. Among 190 PCR-negative subjects, 54 (28%) had illnesses meeting the CCD. In adjusted analyses, PCR sensitivity and the negative predictive value were 1) 94% and 99% and 2) 43% and 87% in the 2 types of models, respectively. The models suggested that public health follow-up of reported pertussis patients with PCR-negative results leads to the detection of more true pertussis cases than follow-up of PCR-positive persons alone. The results also suggest a need for a more specific pertussis CCD. [PUBLICATION ABSTRACT]
Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could be identified if persons with negative pertussis test results were routinely investigated. We conducted interviews among 250 subjects aged ≤18 years with pertussis polymerase chain reaction (PCR) results reported from 2 reference laboratories in Wisconsin during July-September 2010 to determine whether their illnesses met the Centers for Disease Control and Prevention's clinical case definition (CCD) for pertussis. PCR validity measures were calculated using the CCD as the standard for pertussis disease. Two Bayesian latent class models were used to adjust the validity measures for pertussis detectable by 1) culture alone and 2) culture and/or more sensitive measures such as serology. Among 190 PCR-negative subjects, 54 (28%) had illnesses meeting the CCD. In adjusted analyses, PCR sensitivity and the negative predictive value were 1) 94% and 99% and 2) 43% and 87% in the 2 types of models, respectively. The models suggested that public health follow-up of reported pertussis patients with PCR-negative results leads to the detection of more true pertussis cases than follow-up of PCR-positive persons alone. The results also suggest a need for a more specific pertussis CCD.Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test results among patients with compatible symptoms may contribute to its spread. In this study, we examined whether additional pertussis cases could be identified if persons with negative pertussis test results were routinely investigated. We conducted interviews among 250 subjects aged ≤18 years with pertussis polymerase chain reaction (PCR) results reported from 2 reference laboratories in Wisconsin during July-September 2010 to determine whether their illnesses met the Centers for Disease Control and Prevention's clinical case definition (CCD) for pertussis. PCR validity measures were calculated using the CCD as the standard for pertussis disease. Two Bayesian latent class models were used to adjust the validity measures for pertussis detectable by 1) culture alone and 2) culture and/or more sensitive measures such as serology. Among 190 PCR-negative subjects, 54 (28%) had illnesses meeting the CCD. In adjusted analyses, PCR sensitivity and the negative predictive value were 1) 94% and 99% and 2) 43% and 87% in the 2 types of models, respectively. The models suggested that public health follow-up of reported pertussis patients with PCR-negative results leads to the detection of more true pertussis cases than follow-up of PCR-positive persons alone. The results also suggest a need for a more specific pertussis CCD.
Author Conway, James H.
Eickhoff, Jens C.
Hopfensperger, Daniel J.
Davis, Jeffrey P.
Koepke, Ruth
Tarr, Gillian A. M.
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CitedBy_id crossref_primary_10_1016_j_jiac_2015_05_006
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ContentType Journal Article
Copyright 2014 INIST-CNRS
Copyright Oxford Publishing Limited(England) Jul 15, 2013
The Author 2013. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com. 2013
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Issue 2
Keywords Evaluation
Statistical analysis
Respiratory disease
predictive value of tests
Bordetella pertussis
Latent class analysis
Epidemiology
pertussis
Whooping cough
Result
Infection
Polymerase chain reaction
Sensitivity
Bacteriosis
Predictive value
public health surveillance
Bacteria
Models
Molecular biology
Sanitary surveillance
Bayesian analysis
Public health
whooping cough
sensitivity
polymerase chain reaction
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Abbreviations: BCI, Bayesian credible interval; CCD, clinical case definition; CDC, Centers for Disease Control and Prevention; NPV, negative predictive value; PCR, polymerase chain reaction; PPV, positive predictive value; WIP, Wisconsin Immunization Program.
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Snippet Pertussis remains difficult to control. Imperfect sensitivity of diagnostic tests and lack of specific guidance regarding interpretation of negative test...
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StartPage 309
SubjectTerms Adolescent
Bacterial diseases
Bayes Theorem
Bayesian analysis
Biological and medical sciences
Bordetella pertussis - genetics
Bordetella pertussis - isolation & purification
Child
Child, Preschool
Data Interpretation, Statistical
DNA, Bacterial - analysis
Ent and stomatologic bacterial diseases
Epidemiology
False Negative Reactions
Female
Follow-Up Studies
General aspects
Human bacterial diseases
Humans
Infant
Infant, Newborn
Infectious diseases
Male
Medical sciences
Miscellaneous
Models, Statistical
Polymerase chain reaction
Population Surveillance - methods
Practice of Epidemiology
Predictive Value of Tests
Public health
Public health. Hygiene
Public health. Hygiene-occupational medicine
Real-Time Polymerase Chain Reaction
Reproducibility of Results
Sensitivity and Specificity
Whooping cough
Whooping Cough - diagnosis
Wisconsin
Title Using a Bayesian Latent Class Model to Evaluate the Utility of Investigating Persons with Negative Polymerase Chain Reaction Results for Pertussis
URI https://www.ncbi.nlm.nih.gov/pubmed/23735308
https://www.proquest.com/docview/1417590361
https://www.proquest.com/docview/1401092362
https://pubmed.ncbi.nlm.nih.gov/PMC3968301
Volume 178
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