Pertussis in Missouri: evaluation of nasopharyngeal culture, direct fluorescent antibody testing, and clinical case definitions in the diagnosis of pertussis.

No diagnostic test for pertussis in routine use in the United States has both high sensitivity and high specificity. During a statewide increase in the incidence of pertussis in Missouri, we studied the clinical features of 153 patients with suspected pertussis in the Greater St. Louis area from whom a specimen for pertussis culture had been taken between 15 May and 19 September 1989. In this cross-sectional study, nasopharyngeal cultures were more likely to be positive for persons whose specimens were collected < 21 days after cough onset (adjusted rate ratio [RRa] and 95% confidence interval = 3.4; 1.5-8.0) and who were not receiving erythromycin/sulfamethoxazole prior to the culture [RRa = 5.8; 0.8-40.6], who had received fewer than three prior doses of pertussis vaccine [RRa = 1.8; 0.8-4.2], and whose specimen was in transit to the laboratory for < 4 days [RRa = 2.0; 0.8-5.5]. Among children < 5 years of age, spasmodic cough plus a lymphocytosis of > 10,000/mm3 was the acute symptom complex associated with the highest predictive value for a positive culture result (67%). Cough for > or = 14 days plus whoop was sensitive (81%) and specific (58%) for identifying children with culture-confirmed pertussis. Direct fluorescent antibody staining performed well as a screening test for pertussis but requires substantial commitment of personnel and resources. In the absence of a positive culture result, clinical case definitions should be used for decision making (e.g., initiation of antimicrobial therapy and routine case reporting).

[1]  D. Sackett,et al.  The Ends of Human Life: Medical Ethics in a Liberal Polity , 1992, Annals of Internal Medicine.

[2]  E. Zell,et al.  Epidemiological features of pertussis in the United States, 1980-1989. , 1992, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[3]  R. Sutter,et al.  Pertussis hospitalizations and mortality in the United States, 1985-1988. Evaluation of the completeness of national reporting. , 1992, JAMA.

[4]  J. P. Davis,et al.  A pertussis outbreak in a Wisconsin nursing home. , 1991, The Journal of infectious diseases.

[5]  R. Möllby,et al.  Evaluation of serology and nasopharyngeal cultures for diagnosis of pertussis in a vaccine efficacy trial. , 1991, The Journal of infectious diseases.

[6]  C. Farrington,et al.  Secondary analyses of the efficacy of two acellular pertussis vaccines evaluated in a Swedish phase III trial. , 1990, Vaccine.

[7]  S. Halperin,et al.  Evaluation of culture, immunofluorescence, and serology for the diagnosis of pertussis , 1989, Journal of clinical microbiology.

[8]  R. Friedman Pertussis: the disease and new diagnostic methods , 1988, Clinical Microbiology Reviews.

[9]  P. Mitchell,et al.  Sensitivity and specificity of clinical case definitions for pertussis. , 1988, American journal of public health.

[10]  J. P. Davis,et al.  A comparison of laboratory and clinical methods for diagnosing pertussis in an outbreak in a facility for the developmentally disabled. , 1988, The Journal of infectious diseases.

[11]  I. Onorato,et al.  Laboratory diagnosis of pertussis: the state of the art , 1987, The Pediatric infectious disease journal.

[12]  P. McKee,et al.  Pertussis epidemic in Oklahoma. Difficulties in preventing transmission. , 1986, American journal of diseases of children.

[13]  P. Gilligan,et al.  Importance of culture in laboratory diagnosis of Bordetella pertussis infections , 1984, Journal of clinical microbiology.

[14]  M. Pittman The concept of pertussis as a toxin‐mediated disease , 1984, Pediatric infectious disease.

[15]  O. Ruuskanen,et al.  Diagnosis of pertussis. , 1984, The Journal of infection.

[16]  J. S. St. Geme,et al.  Serological response to filamentous hemagglutinin and lymphocytosis-promoting toxin of Bordetella pertussis , 1983, Infection and immunity.

[17]  W. O. Williams,et al.  Bordetella pertussis isolation in general practice: 1977–79 whooping cough epidemic in West Glamorgan , 1983, Journal of Hygiene.

[18]  W. Grove Statistical Methods for Rates and Proportions, 2nd ed , 1981 .

[19]  L. Baraff,et al.  The role of antibiotics, immunizations, and adenoviruses in pertussis. , 1978, Pediatrics.

[20]  J. Fleiss,et al.  Statistical methods for rates and proportions , 1973 .

[21]  Preston Nw Technical problems in the laboratory diagnosis and prevention of whooping-cough. , 1970 .

[22]  G. Eldering,et al.  CULTURE AND FLUORESCENT-ANTIBODY METHODS IN DIAGNOSIS OF WHOOPING COUGH , 1963, Journal of bacteriology.

[23]  J. D. Nelson,et al.  Diagnosis of pertussis by the fluorescent-antibody method. , 1960, New England Journal of Medicine.

[24]  J. Gastwirth Non-parametric Statistical Methods , 1990 .

[25]  S. Houard,et al.  Specific identification of Bordetella pertussis by the polymerase chain reaction. , 1989, Research in microbiology.

[26]  S Wacholder,et al.  Binomial regression in GLIM: estimating risk ratios and risk differences. , 1986, American journal of epidemiology.

[27]  O. Wa,et al.  Diphtheria and tetanus toxoids and pertussis vaccine combined. , 1983 .