Bordetella pertussisdiagnosed by polymerase chain reaction

EFFICIENCY OF APPLICATION OF ISOTHERMAL AMPLIFICATION AT INSPECTION OF PATIENTS WITH WHOOPING COUGH

Purpose: efficiency isothermal amplification (LAMP) at inspection of patients with whooping cough in clinical conditions. Materials and methods. Examination of 262 patients aged from 0 months up to 30 years hospitalized in Infectious diseases clinical hospital No. 1 of the Moscow Department of Healthcare is conducted. Clinical specimens (pharyngeal swabs) were collected according to MR 3.1.2.0072-13. Extraction DNA of B. pertussiswas carried out by means of the АmplyPrime® DNA-sorb-AM. Identification of specific fragments of a genome of B. pertussiswas performed by PCR-real time by means of the АmplySens ® Bordetella Multi-FL set (a comparison method) and by the LAMP with a phoresis and intercalating dye. Results.When using of the optimized method LAMP the DNA of B. pertussisis found at 252 (96.2%) patients. The method was effective at any forms of whooping cough —DNA of B. pertussisis found in all patients with a severe form, in 95.8% of cases — in patients with medium-weight and in 95.3% of cases — in patients with an easy form. The DNA of B. pertussisis found in clinical specimens received from patients on different terms from the beginning of a disease — from 92.3% on the 1st week up to 96% of cases — on the 5 th and more weeks of a disease. The DNA of B. pertussisis found in high percent of cases (96.7–95.9%) and did not depend on acceptance of antibacterial therapy. Children till 1 year are the main age group which is subject to hospitalization at suspicion of whooping cough and in which the highest risk of development of complications and severe forms of a clinical disease. At inspection of 169 children from 0 to 12 months by means of the optimized method LAMP, DNA of B. pertussisit is found in 98.6% of cases in children of patients with whooping cough aged from 0–3 months, in 98.4% of cases — children of 4–7 months and in 94.6% of cases — at children have 8–12 months. The efficiency of detection of DNA of B. pertussisat patients with whooping cough of children aged till 1 year by means of the optimized LAMP method was 97.6%.

Molecular epidemiology of Bordetella pertussis in Greece, 2010-2015

Purpose

To determine the predominant strains of Bordetella pertussis in Greece during 2010–2015.

Methodology

Infants and children (n=1150) (15 days to 14 years) of Greek, Roma and immigrant origin with different vaccination statuses were hospitalized in Athens, Greece with suspected pertussis infection. IS481/IS1001 real-time PCR confirmed Bordetella spp./B. pertussis infection in 300 samples. A subset of samples (n=153) were analysed by multi-locus variable number tandem repeat analysis (MLVA) and (n=25) by sequence-based typing of the toxin promotor region (ptxP) on DNA extracted from clinical specimens.

Results/Key findings

A complete MLVA profile was determined in 66 out of 153 samples; the B. pertussis MLVA type 27 (n=55) was the dominant genotype and all tested samples (n=25) expressed the ptxP3 genotype. The vaccine coverage in the Greek population was 90 %; however, the study population expressed complete coverage in 2 out of 264 infants (0–11 months) and in 20 out of 36 children (1–14 years). Roma and immigrant minorities represent 7 % of the Greek population, but make up 50 % of the study population, indicating a low vaccine coverage among these groups.

Conclusions

The B. pertussis MT27 and ptxP3 genotype is dominant in Greek, Roma and immigrant infants and children hospitalized in Greece. Thus, the predominant MLVA genotype in Greece is similar to other countries using acellular vaccines.

Infectious Disease Report: Bordetella pertussis Infection in Patients With Cancer

We illustrate 2 cases of pneumonia associated with Bordetella pertussis infection in 72-year-old and 61-year-old patients with cancer receiving myelosuppressive therapy after hematopoietic stem cell transplantation. Bacterial infections are a significant cause of morbidity and mortality in patients with cancer, and those receiving hematopoietic stem cell transplant, solid organ transplant, or myelosuppressive therapy are at increased risk. The infection was detected and the 2 patients had good outcomes following azithromycin treatment. Pertussis, also known as whooping cough, is a contagious respiratory illness that has become a public health challenge due to decreased immunity of the pertussis vaccine. Therefore, it is critical to recognize pertussis early in the course of the disease.

Laboratory Diagnosis of Pertussis

The introduction of vaccination in the 1950s significantly reduced the morbidity and mortality of pertussis. However, since the 1990s, a resurgence of pertussis has been observed in vaccinated populations, and a number of causes have been proposed for this phenomenon, including improved diagnostics, increased awareness, waning immunity, and pathogen adaptation. The resurgence of pertussis highlights the importance of standardized, sensitive, and specific laboratory diagnoses, the lack of which is responsible for the large differences in pertussis notifications between countries. Accurate laboratory diagnosis is also important for distinguishing between the several etiologic agents of pertussis-like diseases, which involve both viruses and bacteria. If pertussis is diagnosed in a timely manner, antibiotic treatment of the patient can mitigate the symptoms and prevent transmission. During an outbreak, timely diagnosis of pertussis allows prophylactic treatment of infants too young to be (fully) vaccinated, for whom pertussis is a severe, sometimes fatal disease. Finally, reliable diagnosis of pertussis is required to reveal trends in the (age-specific) disease incidence, which may point to changes in vaccine efficacy, waning immunity, and the emergence of vaccine-adapted strains. Here we review current approaches to the diagnosis of pertussis and discuss their limitations and strengths. In particular, we emphasize that the optimal diagnostic procedure depends on the stage of the disease, the age of the patient, and the vaccination status of the patient.

Lung function and bronchial responsiveness after Mycoplasma pneumoniae infection in early childhood

Mycoplasma (M.) pneumoniae has been associated with exacerbation of symptoms in asthmatic school children and adults; and an etiological role in asthma has been suggested. The purpose of this study was to investigate whether infection with M. pneumoniae in early childhood has a long-term influence on lung function and bronchial responsiveness. In a retrospective, clinical cohort-study children younger than 5 years-of-age when PCR-tested for M. pneumoniae were enrolled. Sixty-five children with clinical symptoms suggesting infection with M. pneumoniae during an epidemic season completed a clinical follow-up examination including lung function testing (28 PCR-positive and 37 PCR-negative). In addition to the PCR-test for M. pneumoniae all respiratory tract specimens were additionally tested for other atypical bacteria and for viruses by PCR. Lung function was measured as specific airway resistance by whole-body plethysmography and bronchial hyperresponsiveness was assessed by cold, dry air hyperventilation. Neither baseline lung function nor bronchial response to cold dry air hyperventilation differed between M. pneumoniae-positive and -negative children: mean baseline lung function were 1.17 versus 1.21 (kPa sec), P = 0.45; and mean change in specific resistance was 13% versus 9%, P = 0.42. In conclusion, M. pneumoniae infection in early childhood was not associated with long-term effects on lung function and bronchial hyperresponsiveness 2 years after infection.

First Confirmation of Bordetella pertussis Occurence in Slovakia by Using Real-time PCR

By application of the real-time PCR we manage to confirm the diagnosis and occurrence of a disease, which is caused by Bordetella pertussis-pertussis. Using this method we have proven the presence of DNA of Bordetella pertussis in the biological materials (nasopharyngeal swabs). The presence of IS481 genome sequence of Bordetella pertussis was confirmed. This method of detection of pathogens seems to be very rapid, simple, and specific. In the case of adequate technical laboratory equipment it may become very suitable and important supporter in explanation and confirmation of the occurrence of bacterial infections.

Comparison of culture and PCR for detection of Bordetella pertussis and Bordetella parapertussis under routine laboratory conditions

A PCR assay for the detection of Bordetella pertussis and Bordetella parapertussis was compared with the conventional culture method under routine laboratory conditions. Detection of B. pertussis was based on the amplification of a section of the IS481 insertion sequence and confirmation of positive results was based on a sequence of the pertussis toxin promoter region. Detection of B. parapertussis was based on the amplification of a section of the IS1001 insertion sequence. An internal control was included. Data were available for the period 28 November 2000 to 9 July 2003. In this period, 3096 patients were examined for infection with B. pertussis and B. parapertussis by culture and PCR on the same day. B. pertussis was found in 496 (16 %) patients; 208 (42 %) were diagnosed by PCR alone whereas 17 (3 %) were diagnosed by culture alone. B. parapertussis was found in 64 (2 %) patients. The sensitivity of the PCR was 97 % and of culture 58 %. The specificity of PCR was 93 % when regarding culture as 100 % sensitive. There was a significant relationship between laboratory method and age, as the superiority of PCR was most marked in the age group 0.5-3 years. The PCR assay proved highly sensitive for the diagnosis of pertussis. The specificity estimate of the PCR assay suffers from the influence of a gold-standard method with a low sensitivity. The PCR assay is considered highly specific due to the amplification of two different sequences in two separate assays.

Issues associated with and recommendations for using PCR to detect outbreaks of pertussis

Two outbreaks of respiratory tract illness associated with prolonged cough occurring in 1998 and 1999 in New York State were investigated. A PCR test for Bordetella pertussis was primarily used by a private laboratory to confirm 680 pertussis cases. Several clinical specimens had positive culture results for B. pertussis during both outbreaks, which confirmed that B. pertussis was circulating during the outbreaks. However, testing by the New York State Department of Health reference laboratory suggested that some of the PCR results may have been falsely positive. In addition, features of the outbreak that suggested that B. pertussis may not have been the primary agent of infection included a low attack rate among incompletely vaccinated children and a significant amount of illness among patients testing PCR negative for B. pertussis. These investigations highlight the importance of appropriate clinical laboratory quality assurance programs, of the limitations of the PCR test, and of interpreting laboratory results in context of clinical disease.

Bordetella pertussis and chronic cough in adults

To evaluate Bordetella pertussis as a cause of persistent cough in adults, we examined 201 patients who had a cough for 2-12 weeks and no pulmonary disease. We obtained the following at presentation: medical history, chest radiograph, respiratory function measurement, nasopharyngeal aspirate for polymerase chain reaction (PCR), nasopharyngeal swab specimen for culture, and a blood sample (acute serum). Four weeks later a second blood sample (convalescent serum) was obtained. Control sera were obtained from 164 age-matched healthy blood donors with no history of cough during the previous 12 weeks. Four patients were B. pertussis culture-positive; 11 (including the culture-positive patients) were B. pertussis PCR-positive; and 33, including 10 of the 11 PCR-positive patients, had serological evidence of recent B. pertussis infection. Pertussis-positive and -negative patients could not be discriminated by a history of cough. We conclude that B. pertussis infection is a common cause of persistent cough in adults. This is of concern, because these patients may be B. pertussis reservoirs from which transmission may occur to infants, in whom the disease can be devastating.

Detection of Bordetella bronchiseptica by the polymerase chain reaction

Polymerase chain reaction (PCR) assays were developed that enabled not only discriminative detection of three Bordetella species, B. pertussis, B. parapertussis, and B. bronchiseptica (Bspp PCR), but also specific detection of B. bronchiseptica (Bb PCR). An upstream sequence of the flagellin gene was used as a target DNA region. This sequence contained differences in B. pertussis, B. parapertussis, and B. bronchiseptica DNA. These species could then be differentiated using two different sets of primers, Bspp and Bb. When oligonucleotide Bspp primers were used, PCR products were obtained from the three species of Bordetella. A fragment of the expected size (164 bp) was amplified using B. bronchiseptica and B. parapertussis DNA, but a fragment with a distinct molecular weight was amplified with B. pertussis DNA (195 bp). This Bspp PCR was specific and sensitive, but it could not differentiate between B. parapertussis and B. bronchiseptica. When Bb primers were used, a 237-bp PCR product was detected only from B. bronchiseptica DNA. No PCR products were identified after Bb PCR amplification of DNAs either from B. parapertussis isolates or B. pertussis isolates, nor from other respiratory pathogen DNAs tested. This second PCR assay had a sensitivity limit of less than 10 organisms of B. bronchiseptica after detection with a specific probe. The specificity and the sensitivity of the fla PCR assay were evaluated with purified DNA, as was its capacity for detecting the bacteria in human clinical samples and in lungs of infected mice.

The rationale and method for constructing internal control DNA used in pertussis polymerase chain reaction

The inclusion of an appropriate internal control DNA in polymerase chain reaction (PCR) is a rapid and simple method for the detection of PCR failure. Two PCR coamplification internal control DNAs (ICD I and ICD II) with the same primer-binding sequences as the target DNA for the detection of Bordetella pertussis and Bordetella parapertussis were produced using an overlap extension technique and a PCR MIMIC construction kit, respectively. The ICD II was further evaluated in a prospective clinical study in 360 patients with a clinical diagnosis of pertussis. From 360 nasopharyngeal swabs the internal control was positive in 318 (88%) samples, but was negative in 42 (12%). After phenol-chloroform extraction an additional 10 internal controls became positive. For the detection of PCR failure, the use of internal control DNA is highly recommended for PCR-based identification of B. pertussis and B. parapertussis organisms from nasopharyngeal swabs and aspirates.

Detection of Bordetella pertussis by rapid-cycle PCR and colorimetric microwell hybridization

The use of rapid-cycle PCR combined with colorimetric microwell hybridization for detecting Bordetella pertussis was investigated. Rapid cycling was performed with an air thermocycler (model 1605; Idaho Technology, Idaho Falls, Idaho). Although the instrument was originally designed to be used with capillary tubes, an adapter that allows this instrument to be used with PCR tubes has recently been introduced. Because of the low heat capacity of air, the thermocycler has rapid transition rates between temperatures. The combination of a rapid temperature transition rate, small sample volume (10 microliters), and overshooting or undershooting of the temperature set points allowed the cycles to be reduced to 5 s for denaturation and 10 s for extension and annealing. Thus, the amplification could be completed in a total of approximately 35 min. Amplified DNA was detected with biotin-labeled primers and by hybridization to a capture probe immobilized in microwell plates. When simulated clinical specimens consisting of pooled nasopharyngeal washes with known numbers of B. pertussis organisms were examined by this procedure, as little as one organism per 5 microliters of sample could be detected. Six nasopharyngeal aspirates or washes from culture-positive patients were positive by PCR, as were two of seven specimens obtained from patients that were negative by culture and direct fluorescent-antibody assay. The two patients who were PCR positive but culture and direct fluorescent-antibody assay negative had clinical disease compatible with pertussis. This method appears to be a sensitive, convenient means of detecting B. pertussis in clinical specimens. The total time required for specimen processing, amplification, and detection is about 2.5 h.

Immunomagnetic separation and solid-phase detection of Bordetella pertussis

In the present study, novel solid-phase methods were used for both sample preparation and PCR detection of Bordetella pertussis. The sample preparation was performed by immunomagnetic separation with paramagnetic beads coated with polyclonal antibodies directed toward the surface antigens of the bacteria. The precoated immunobeads were directly used on nasopharyngeal aspirates to capture the bacteria on the solid support and were subsequently transferred to the PCR tube with no further manipulations. The region encompassing the pertussis toxin promoter was analyzed to allow direct discrimination between the three major Bordetella species (B. pertussis, B. parapertussis, and B. bronchiseptica). The resulting amplicons were captured on a second magnetic solid phase, allowing detection and restriction analysis of the target sequence. A colorimetric detection system based on a DNA binding fusion protein enabled the use of standardized enzyme-linked immunosorbent format tests both for the detection of Bordetella spp. and for species evaluation. When the optimized system was evaluated on 55 clinical aspirate samples, 21 of 22 (95%) culture-positive samples were positive by the system that we developed. In addition, two samples were positive by the PCR-based assay, while the culture assay was negative. The implications of these results are discussed.