Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-27T07:53:58.307Z Has data issue: false hasContentIssue false

Epidemiology of pertussis in adolescents and adults in Turkey

Published online by Cambridge University Press:  19 December 2014

A. KARAGUL
Affiliation:
Department of Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
D. OGUNC*
Affiliation:
Department of Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
K. MIDILLI
Affiliation:
Department of Clinical Microbiology, Istanbul University Cerrahpasa Faculty of Medicine, İstanbul, Turkey
G. ONGUT
Affiliation:
Department of Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
B. OZHAK BAYSAN
Affiliation:
Department of Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
L. DONMEZ
Affiliation:
Department of Public Health, Akdeniz University Faculty of Medicine, Antalya, Turkey
D. DAGLAR
Affiliation:
Department of Clinical Microbiology, Antalya Research and Training Hospital, Antalya, Turkey
M. A. KUSKUCU
Affiliation:
Department of Clinical Microbiology, Istanbul University Cerrahpasa Faculty of Medicine, İstanbul, Turkey
A. BINGOL
Affiliation:
Department of Pediatrics, Akdeniz University Faculty of Medicine, Antalya, Turkey
O. OZBUDAK
Affiliation:
Department of Pulmonary Medicine, Akdeniz University Faculty of Medicine, Antalya, Turkey
D. COLAK
Affiliation:
Department of Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
F. GUNSEREN
Affiliation:
Department of Infectious Diseases and Clinical Microbiology, Akdeniz University Faculty of Medicine, Antalya, Turkey
*
*Author for correspondence: Professor D. Ogunc, Akdeniz University Faculty of Medicine, Department of Clinical Microbiology, Dumlupinar Bulvari, 07070 Antalya, Turkey. (Email: dogunc@akdeniz.edu.tr)
Rights & Permissions [Opens in a new window]

Summary

Two hundred and fourteen patients who had a cough illness lasting at least 2 weeks were studied to investigate Bordetella pertussis as a cause of prolonged cough in adolescents and adults. Medical history and nasopharyngeal swab specimens for culture and polymerase chain reaction (PCR) were obtained at presentation. Three (1·4%) patients were B. pertussis culture-positive; 15 (7%) were B. pertussis PCR-positive (including the culture-positive patients) and 11 (5·1%) were Bordetella spp. PCR-positive. Symptom combinations were significantly high both in patients with pertussis and patients with indeterminate results (P < 0·05). We conclude that B. pertussis should be considered among differential diagnoses of prolonged cough in adolescents and adults and PCR and culture should be used to detect these cases and facilitate public health response.

Type
Original Papers
Copyright
Copyright © Cambridge University Press 2014 

INTRODUCTION

Pertussis, or whooping cough is an acute infection caused by Bordetella pertussis. The disease continues to be a significant health problem worldwide [Reference Zepp1]. Pertussis appears with epidemic peaks every 2–5 years [Reference Kurugol2]. Several factors have been attributed to increasing incidence of pertussis, including waning immunity, increased public health awareness and reporting, and use of more sensitive diagnostics such as PCR assay [Reference Lee3]. Several studies have addressed B. pertussis as a common cause of prolonged cough illnesses in adults and have suggested an important role of adults in the epidemiology of pertussis [Reference Zepp1, Reference Dilli4Reference Strebel6]. Different symptomatology is possible as a function of time from last immunization, be it a booster or natural infection [Reference Cagney7].

The diagnosis of pertussis was related to the number and severity of reported symptoms. Patients with ⩾4 symptoms suggestive of pertussis are more likely to visit a physician and to be correctly diagnosed [Reference Deeks8]. It is well documented that individuals with a primed immune system develop a mild variant of the disease characterized by a persistent cough [Reference Cagney7]. In Turkey, routine childhood pertussis immunization with whole-cell pertussis vaccine combined with diphtheria and tetanus toxoids (DTwP) was started in 1968. Pertussis vaccine was administered in the second, third and fourth months of life and a booster was administered between 16 and 24 months. In 2007, the cellular pertussis component in DTwP vaccine based on whole bacteria was replaced by the acellular component in DTaP. The current recommended immunization schedule in Turkey is a primary immunization series of three doses of acellular pertussis vaccine in the first year of life and booster doses at ages 15–18 months and 4–6 years. According to Ministry of Health data, Turkey appears to be reaching the WHO target, with a pertussis incidence of <1 case/100 000, with the exception of East Anatolia [Reference Dilli4].

The objective of this study was to investigate B. pertussis as a cause of prolonged cough in adolescents and adults and its implications for disease control in Turkey.

METHODS

This study was conducted at two hospitals which serve about 2 million people in Antalya, Turkey. In 2010, reported pertussis vaccine coverage was 98% and only one definitive pertussis case was reported to the Ministry of Health from Antalya.

All patients who were admitted to the Departments of Pediatrics and Pulmonary Medicine at Akdeniz University Hospital and to the Department of Pulmonary Medicine at Antalya Research and Training Hospital from 1 October 2010 to 30 May 2011 were included in the study according to the following criteria: (i) they were aged between 10–39 years and (ii) had a cough illness lasting at least 2 weeks (as reported by a health professional). The study excluded those with an underlying medical condition which may cause a prolonged cough such as chronic heart disease, asthma, sinusitis. Each patient's age and sex were noted and the medical history was obtained including information about fever, use of antibiotics, paroxysmal cough, post-tussive vomiting, whooping cough and duration of cough. The case definition for pertussis published by Turkish Ministry of Health was used: (1) Probable case: a cough illness lasting ⩾2 weeks with one of the following: paroxysms of coughing, inspiratory whoop or post-tussive vomiting, without other apparent cause. (2) Confirmed case: isolation of B. pertussis from nasopharyngeal specimen, or probable case criteria with polymerase chain reaction (PCR) positive for pertussis or contact with a laboratory-confirmed case.

Nasopharyngeal swab specimens were collected using rayon nasopharyngeal swabs (Eswab, Copan Diagnostics, Italy) which were placed into modified liquid Amies transport medium. Specimens were inoculated onto charcoal agar with cephalexin (Oxoid, UK) and incubated at 37 °C for 7 days. Suspected B. pertussis colonies were identified by biochemical tests, agglutination with specific antisera (Remel, UK) and direct fluorescent antibody staining (Becton Dickinson, USA). After culturing, the specimens were stored at -80 °C until analysis by PCR.

Specimens for PCR testing were extracted using the Magna Pure LC DNA Isolation kit I (Roche, Germany) with Magna Pure LC automatic isolation system according to the manufacturer's instructions. Samples were tested using two PCR assays. First, Bordetella R-gene real-time PCR kit was used to detect the insertion sequence IS481. IS481-positive specimens were subjected to in-house PCR assay which was used to amplify a 191-bp sequence of the pertussis toxin promoter (ptxA-Pr), as reported previously [Reference Matthews9]. PCR interpretation: The result of PCR assay targeting the insertion sequence IS481 was considered negative if the cycle threshold (Ct is defined as the cycle number at which the fluorescence passes the fixed threshold) value was ⩾40. A specimen was considered to contain B. pertussis when it was positive for both IS481 and ptxA-Pr . If a specimen was positive for IS481 with a Ct value <35 and negative for ptxA-Pr, it was considered to contain Bordetella spp. A specimen was considered indeterminate when it was positive for IS481 with a Ct value between 35 and 40 and negative for ptxA-Pr [Reference Tatti10].

The study protocol was approved by the Akdeniz University Medical Faculty Ethical Committee of Clinical Research for the Protection of Human Subjects. All subjects provided written informed consent prior to participation in the study.

Data were evaluated with SPSS v. 11·5 (SPSS Inc., USA). The distribution of age, sex, clinical symptoms, use of antibiotics of the cases infected with B. pertussis and Bordetella spp. were compared with that of 163 cases with negative B. pertussis and Bordetella spp. results. The same comparisons were made between the cases with indeterminate results and cases with negative results. χ 2 test was used because independent variables were nominal. The mean duration of cough was compared by Student's t test. Combinations of clinical symptoms in patients infected with B. pertussis and Bordetella spp. were compared with 163 B. pertussis and Bordetella spp. negative cases. The same comparisons were made between the cases with indeterminate results and cases with negative results. Results were analysed by Fisher's exact test. A value of P < 0·05 was considered to be significant.

RESULTS

Of the 214 cases enrolled in our study, 96 (44·9%) were males and 118 (55·1%) were females.

Patients' ages varied between 10 years and 39 years (mean 26·57 ± 8·55 years). There were 49 (22·9%) cases in the 10–19 years age group, 71 (33·2%) in the 20–29 years age group and 94 (43·9%) in the 30–39 years age group. All patients in our study were aged between 10 and 39 years (born between 1971 and 2000) and had received four doses of DTwP vaccine. Characteristics of patients enrolled in the study are given in Table 1.

Table 1. Characterics of patients enrolled in the study

* χ 2 or Fisher's exact test.

Student's t test.

Only three (1·4%) specimens were B. pertussis culture-positive. These were also PCR positive with both IS481 and ptxA-Pr. Using the interpretation criteria of PCR results; 15 (7%) specimens were positive for B. pertussis, 11 (5·1%) specimens were positive for Bordetella spp., 25 (11·7%) specimens were interpreted as indeterminate and 163 (76·2%) specimens were considered as negative.

Symptom combinations were significantly high both in patients with pertussis and patients with indeterminate results (P < 0·05) (Table 1).

By contrast, combinations of symptoms did not show any significant association with Bordetella spp. infections. Frequency of symptoms/symptom combinations of patients by age group are given in Table 2.

Table 2. Symptoms and symptom combinations of patients by age group

* χ 2 test.

Antibiotic administration prior to specimen collection was reported in 145 patients. Of the antibiotics used, 89 were β-lactams, 37 were macrolides, seven were fluoroquinolones and one was trimethoprim-sulfamethoxazole. Antimicrobial treatment was not specified in 11 patients. Antibiotic prescription time was not available. Treatment with macrolides or trimethoprim-sulfamethoxazole was reported in five patients with B. pertussis infection (one of which was culture positive), in two patients with Bordetella spp. infection, in five patients with indeterminate results and in 26 patients with negative results. Symptomatology of the 38 subjects who received appropriate treatment prior to specimen collection was as follows: 28 with cough, 15 with vomiting, three with whooping, 15 with cough and vomiting, three with cough and whooping, and two with vomiting and whooping. Hospitalization was not required for any of these patients.

DISCUSSION

Despite high vaccine coverage pertussis still affects all age groups especially adolescents, adults and young infants in Turkey [Reference Kurugol2]. B. pertussis continues to circulate in populations where high vaccination coverage of infants and children is achieved, because immunity wanes at 4–12 years after vaccination or 4–20 years after natural infection [Reference Zepp1].

Pertussis is rarely considered in differential diagnoses of cough in adults and adolescents and is the only vaccine-preventable disease with an increasing number of cases and deaths [Reference Frumkin11].

Many cases remain unrecognized due to inaccurate diagnosis. Physicians' awareness of the infection is very poor.

In our study, the frequency of B. pertussis and Bordetella spp. infections in adolescents and adults with prolonged cough were 7% and 5%, respectively. Strebel et al. [Reference Strebel6] studied 212 patients aged between 10 and 49 years who presented with acute paroxysmal cough illness and found at least one positive laboratory result for pertussis infection in 27 (13%) patients. Of these 27 patients, eight (3%) were found to be culture positive, 10 (4·7%) were found to be positive by PCR. Birkebaek et al. [Reference Birkebaek5] investigated 201 adult patients with chronic cough. Four (2%) of these patients were B. pertussis culture-positive. Eleven (5·5%) of the specimens were B. pertussis PCR-positive. Park et al. [Reference Park12] examined 102 adult patients with persistent cough. Three (2·9%) patients had evidence of pertussis infection, and all three were PCR positive but culture negative. Our results are in agreement with Strebel et al. and Birkebaek et al. The results from several serological studies indicate that between 12% and 32% of adults and adolescents with a cough illness for at least 1 week are infected with B. pertussis [Reference von König13Reference Vatansever15]. Although culture is thought to be almost 100% specific, its sensitivity is reduced due to delayed collection of specimens, prior antibotic therapy, increased age or pre-existing immunity [Reference Cagney7, Reference Riffelmann16]. PCR is a rapid, sensitive, and specific technique, but sensitivity of PCR is also reduced by the same factors. However, due to its higher sensitivity, it may be used to diagnose pertussis in vaccinated patients, in patients with prior antibiotic treatment and the late stages of the disease.

In a study from New Zealand neither cough duration nor any individual symptom discriminated between those with and without recent B. pertussis infection [Reference Philipson17].

Although adolescents and adults can present with atypical disease, several studies suggest that 21–86% of adolescent and adults present with classic pertussis symptoms such as paroxysmal cough, post-tussive vomiting, and whooping cough [Reference Cornia18].

We only used insertion sequence IS481 and ptxA-Pr as the target genes therefore we did not discriminate B. holmesii, or B. bronchiseptica species. Additional PCR targets should be used to improve specificity by differentiating between Bordetella spp. [Reference Rodgers19]. Another limitation of this study was that we did not perform serological tests which are independent of symptoms and may detect asymptomatic cases whose importance for disease transmission is unclear [Reference Cagney7]. In the present study, 25 clinical specimens were considered indeterminate which indicates low levels of pertussis DNA. These results may be real positives or false positives due to poor specimen collection, late testing, prior antibiotic treatment or DNA contamination. Interpretation of indeterminate results should be done in conjunction with an evaluation of signs, symptoms and epidemiological information [Reference Tatti10].

Our study indicates that pertussis should be considered in the differential diagnoses of prolonged cough in adolescent and adult patients, especially if the cough is associated with paroxysmal cough, post-tussive vomiting, and whooping cough.

As with the rest of the world, booster vaccination against pertussis should be administered to adolescents and adults to develop herd immunity and reduce pertussis-related morbidity in all age groups.

It should be borne in mind that adolescent and adult patients may be a reservoir for B. pertussis and transmit the infection to infants. Clinicians should be aware of the ongoing endemic circulation of the organism in the community and PCR and culture will help to detect cases and facilitate an appropriate public health response.

ACKNOWLEDGEMENTS

This study was supported by Akdeniz University Scientific Research Project Unit.

DECLARATION OF INTEREST

None.

References

REFERENCES

1. Zepp, F, et al. Rationale for pertussis booster vaccination throughout life in Europe. Lancet Infectious Diseases 2011; 11: 557570.Google Scholar
2. Kurugol, Z. Pertussis epidemiology in Turkey: are booster doses necessary [in Turkish]. Journal of Pediatric Infections 2009; 3: 1418.Google Scholar
3. Lee, GM, et al. Pertussis in adolescent and adults: should we vaccinate? Pediatrics 2005; 115: 16751684.Google Scholar
4. Dilli, D, et al. Recent findings on pertussis epidemiology in Turkey. European Journal of Clinical Microbiology and Infectious Diseases 2008; 27: 335341.Google Scholar
5. Birkebaek, NH, et al. Bordetella pertussis and chronic cough in adults. Clinical Infectious Diseases 1999; 29: 12391242.Google Scholar
6. Strebel, P, et al. Population-based incidence of pertussis among adolescent and adults. Journal of Infectious Diseases 2001; 183: 13531359.Google Scholar
7. Cagney, M, et al. The relationship between pertussis symptomatology, incidence and serology in adolescents. Vaccine 2008; 26: 55475553.CrossRefGoogle ScholarPubMed
8. Deeks, S, et al. Failure of physicians to consider the diagnosis of pertussis in children. Clinical Infectious Diseases 1999; 28: 840846.CrossRefGoogle ScholarPubMed
9. Matthews, RC, et al. Semiquantitative polymerase chain reaction enzyme immunoassay for the diagnosis of pertussis. European Journal of Clinical Microbiology and Infectious Diseases 1999; 18: 748750.Google Scholar
10. Tatti, KM, et al. Development and evaluation of dual-target real-time polymerase chain reaction assays to detect Bordetella spp. Diagnostic Microbiology and Infectious Diseases 2008; 61: 264272.Google Scholar
11. Frumkin, K. Pertussis and persistent cough: practical, clinical and epidemiologic issues. Journal of Emerging Medicine 2013; 44: 889895.Google Scholar
12. Park, WB, et al. Pertussis in adults with persistent cough in South Korea. European Journal of Clinical Microbiology and Infectious Diseases 2005; 24: 156158.Google Scholar
13. von König, CH, et al. Pertussis of adults and infants. Lancet Infectious Diseases 2002; 2: 744750.Google Scholar
14. Esen, B, et al. Prevalence of high antibody titers of pertussis in Turkey: reflection of circulating microorganism and a threat to infants. Journal of Clinical Laboratory Analysis 2007; 21: 154161.CrossRefGoogle Scholar
15. Vatansever, U, et al. Seroprevalance of Bordetella pertussis antibodies among healthy adolescent girls in Edirne. Swiss Medical Weekly 2005; 135: 531536.Google Scholar
16. Riffelmann, M, et al. Nucleic acid amplification tests for diagnosis of Bordetella infections. Journal of Clinical Microbiology 2005; 43: 49254929.Google Scholar
17. Philipson, K, et al. When is acute persistent cough in school-age children and adults whooping cough. British Journal of General Practice 2013; 63: e573579.Google Scholar
18. Cornia, PB, et al. Does this coughing adolescent or adult patient have pertussis? Journal of the American Medical Association 2010; 304: 890896.Google Scholar
19. Rodgers, L, et al. Epidemiologic and laboratory features of a large outbreak of pertussis-like illnesses associated with cocirculating Bordetella holmesii and Bordetella pertussis – Ohio, 2010–2011. Clinical Infectious Diseases 2013; 56: 322331.Google Scholar
Figure 0

Table 1. Characterics of patients enrolled in the study

Figure 1

Table 2. Symptoms and symptom combinations of patients by age group