Pertussis is endemic throughout the world. Its incidence in the US cycles every 3 to 5 years. Pertussis occurs only in humans; there are no animal reservoirs.
Transmission is mainly via droplets of respiratory secretions that contain B. pertussis (a small, nonmotile, gram-negative coccobacillus) from infected patients, particularly during the catarrhal and early paroxysmal stages. The infection is highly contagious and causes disease in ≥ 80% of close contacts. Transmission by contact with contaminated articles is rare. Patients are usually not infectious after the 3rd week of the paroxysmal phase.
Pertussis is a vaccine-preventable childhood disease Effectiveness and Safety of Childhood Vaccination Vaccination has been profoundly effective in preventing serious disease (see Table: Case Rates of Some Diseases Preventable by Vaccines). Given their modest cost (particularly in comparison... read more that is increasing in incidence. In the US, the case rate in the 1980s was at an all-time low of about 1/100,000 population, which, by 2014, increased to about 10/100,000. The 2018 provisional surveillance report by the Centers for Disease Control and Prevention (CDC) reported an incidence of 4.13/100,000 (1 General references Pertussis is a highly communicable disease occurring mostly in children and adolescents and caused by the gram-negative bacterium Bordetella pertussis. Symptoms are initially those of nonspecific... read more ). The increase since the 1980s is due to
Immunity waning in previously vaccinated adolescents and adults
Parents refusing to vaccinate their children (see Anti-Vaccination Movement Anti-Vaccination Movement Despite the rigorous vaccine safety systems in place in the US, some parents remain concerned about the safety of the childhood vaccines and immunization schedule. These concerns have led some... read more )
Such unprotected patients may become ill; furthermore, unprotected adolescents and adults are an important reservoir for B. pertussis and are thus often the source of infection for unprotected infants < 1 year (who have had the highest increase in annual incidence and the highest case fatality rate [2 General references Pertussis is a highly communicable disease occurring mostly in children and adolescents and caused by the gram-negative bacterium Bordetella pertussis. Symptoms are initially those of nonspecific... read more ]). Also, virulence of outbreak strains may be increasing.
In the US in 2018, there were 15,609 pertussis cases and 5 deaths (see table Pertussis Incidence by Age, 2018 Pertussis Incidence by Age, 2018 Pertussis is a highly communicable disease occurring mostly in children and adolescents and caused by the gram-negative bacterium Bordetella pertussis. Symptoms are initially those of nonspecific... read more ). The incidence per 100,000 was highest in infants < 6 months (72.8), and 3 of the 5 deaths occurred in infants < 1 year (1 General references Pertussis is a highly communicable disease occurring mostly in children and adolescents and caused by the gram-negative bacterium Bordetella pertussis. Symptoms are initially those of nonspecific... read more ). Pertussis is also serious in older people.
One attack does not confer lifelong natural immunity, but secondary attacks and infections in previously vaccinated adolescents and adults whose immunity has waned are usually mild and often unrecognized.
Respiratory complications, including asphyxia in infants, are most common. Otitis media Otitis Media (Acute) Acute otitis media is a bacterial or viral infection of the middle ear, usually accompanying an upper respiratory infection. Symptoms include otalgia, often with systemic symptoms (eg, fever... read more occurs frequently. Bronchopneumonia (common among older people) may be fatal at any age.
Seizures are common among infants but are rare in older children.
Hemorrhage into the brain, eyes, skin, and mucous membranes can result from severe paroxysms and consequent anoxia. Cerebral hemorrhage, cerebral edema, and toxic encephalitis may result in spastic paralysis, intellectual disability, or other neurologic disorders.
Umbilical hernia and rectal prolapse occasionally occur.
1. National Center for Immunization and Respiratory Diseases Division of Bacterial Diseases: 2018 Final Pertussis Surveillance Report. Centers for Disease Control and Prevention, 2019.
2. Centers for Disease Control and Prevention: The Pink Book: Pertussis, 2015. Online content last reviewed 2019, accessed 1/24/2020.
The incubation period averages 7 to 14 days (maximum 3 weeks). B. pertussis invades respiratory mucosa, increasing the secretion of mucus, which is initially thin and later viscid and tenacious. Uncomplicated disease lasts about 6 to 10 weeks and consists of 3 stages:
The catarrhal stage begins insidiously, generally with sneezing, lacrimation, or other signs of coryza; anorexia; listlessness; and a troublesome, hacking nocturnal cough that gradually becomes diurnal. Hoarseness may occur. Fever is rare.
After 10 to 14 days, the paroxysmal stage begins with an increase in the severity and frequency of the cough. Repeated bouts of ≥ 5 rapidly consecutive forceful coughs occur during a single expiration and are followed by the whoop—a hurried, deep inspiration. Copious viscid mucus may be expelled or bubble from the nares during or after the paroxysms. Vomiting is characteristic. In infants, choking spells (with or without cyanosis) may be more common than whoops.
Symptoms diminish as the convalescent stage begins, usually within 4 weeks of onset. Average duration of illness is about 7 weeks (range 3 weeks to 3 months or more). Paroxysmal coughing may recur for months, usually induced in the still sensitive respiratory tract by irritation from an upper respiratory infection.
The catarrhal stage is often difficult to distinguish from bronchitis Acute Bronchitis Acute bronchitis is inflammation of the tracheobronchial tree, commonly following an upper respiratory infection that occurs in patients without chronic lung disorders The cause is almost always... read more or influenza Influenza Influenza is a viral respiratory infection causing fever, coryza, cough, headache, and malaise. Mortality is possible during seasonal epidemics, particularly among high-risk patients (eg, those... read more . Adenovirus infections Adenovirus Infections Infection with one of the many adenoviruses may be asymptomatic or result in specific syndromes, including mild respiratory infections, keratoconjunctivitis, gastroenteritis, cystitis, and primary... read more and tuberculosis Tuberculosis (TB) Tuberculosis (TB) is a chronic, progressive mycobacterial infection, often with a period of latency following initial infection. TB most commonly affects the lungs. Symptoms include productive... read more should also be considered.
Cultures of nasopharyngeal specimens are positive for B. pertussis in 80 to 90% of cases in the catarrhal and early paroxysmal stages. Because special media and prolonged incubation are required, the laboratory should be notified that pertussis is suspected.
Specific fluorescent antibody testing of nasopharyngeal smears accurately diagnoses pertussis but is not as sensitive as culture. Paired acute and convalescent serologic testing may be helpful.
PCR testing of nasopharyngeal samples is the most sensitive and preferred test.
The white blood cell count is usually between 15,000 and 20,000/mcL (15 and 20 × 109/L) but may be normal or as high as 60,000/mcL (60 × 109/L), usually with 60 to 80% small lymphocytes.
Parapertussis is differentiated by culture or the fluorescent antibody technique.
Hospitalization with respiratory isolation is recommended for seriously ill infants. Isolation is continued until antibiotics have been given for 5 days.
In infants, suction to remove excess mucus from the throat may be lifesaving. Oxygen and tracheostomy or nasotracheal intubation is occasionally needed. Expectorants, cough suppressants, and mild sedation are of little value.
Because any disturbance can precipitate serious paroxysmal coughing with anoxia, seriously ill infants should be kept in a darkened, quiet room and disturbed as little as possible.
Patients treated at home should be isolated, particularly from susceptible infants, for at least 4 weeks from disease onset and until symptoms have subsided.
Antibiotics given during the catarrhal stage may ameliorate the disease. After paroxysms are established, antibiotics usually have no clinical effect but are recommended to limit spread.
Preferred drugs are
Trimethoprim/sulfamethoxazole may be substituted in patients ≥ 2 months who are intolerant of or hypersensitive to macrolide antibiotics.
Antibiotics should also be used for bacterial complications (eg, bronchopneumonia, otitis media).
Active immunization against pertussis is part of standard childhood vaccination. Five doses of acellular pertussis vaccine Diphtheria-Tetanus-Pertussis Vaccine Vaccines that contain diphtheria toxoid, tetanus toxoid, and acellular pertussis help protect against diphtheria, tetanus, and pertussis, but they do not prevent all cases. For more information... read more are given (usually combined with diphtheria and tetanus [DTaP]) at ages 2, 4, and 6 months; boosters are given at 15 to 18 months and at 4 to 6 years.
Significant adverse effects from the pertussis component of the vaccine include
These reactions contraindicate further use of pertussis vaccine; combined diphtheria and tetanus vaccine (DT) is available without the pertussis component. The acellular vaccine, which is the currently available preparation, is better tolerated than the previously used vaccine, which contains numerous cell components.
Neither vaccination nor natural disease confers lifelong protective immunity against pertussis or reinfection. Immunity tends to wane 5 to 10 years after the last vaccine dose is given.
A single booster with Tdap (containing lower doses of the diphtheria and pertussis components than the childhood DTaP) is recommended for adolescents at age 11 or 12 years and for adults who have never received Tdap; it also should be given during each pregnancy after 20 weeks gestation (preferably at 27 to 36 weeks gestation). These newer recommendations are intended to decrease risk of spread of pertussis from susceptible adolescents and adults to unprotected infants.
Immunity after natural infection lasts about 20 years. Passive immunization is unreliable and is not recommended.
Close contacts < 7 years who have had < 4 doses of vaccine should be vaccinated.
Postexposure antibiotics should be given to household contacts within 21 days of the onset of cough in the index patient, whether they have been vaccinated or not.
Postexposure antibiotics should also be given to the following high-risk people within 21 days of exposure, whether they have been vaccinated or not:
Infants < 12 months
Women in the 3rd trimester of pregnancy
All people with health conditions potentially exacerbated by pertussis infection (eg, immunodeficiency, moderate to severe asthma, chronic lung disease)
People who have close contact with infants < 12 months, pregnant women, or patients with conditions that may result in severe illness or complications
All people in high-risk settings that include infants < 12 months or women in the 3rd trimester of pregnancy (eg, child care centers, maternity wards, neonatal intensive care units)
These people should be given a 7- to 14-day course of oral erythromycin 500 mg 4 times a day or 10 to 12.5 mg/kg 4 times a day. Alternative antibiotics include clarithromycin and azithromycin. For infants < 1 month, azithromycin is preferred for postexposure prophylaxis.
Pertussis is a respiratory infection that can occur at any age but is most common and most likely to be fatal in young children, particularly infants < 6 months.
A catarrhal stage with upper respiratory infection symptoms is followed by a paroxysmal stage with repeated bouts of rapid, consecutive coughs followed by a hurried, deep inspiration (the whoop).
The illness lasts about 7 weeks, but cough may continue for months.
Diagnose using polymerase chain reaction testing or nasopharyngeal cultures; special media are required.
Treat with a macrolide antibiotic to ameliorate disease (during the catarrhal stage) or minimize transmission (during the paroxysmal stage and later).
Prevent the disease using acellular pertussis vaccine as part of scheduled immunizations (including a booster for adults), and treat close contacts with erythromycin.
Neither having the disease nor being vaccinated provides lifelong protection, although any subsequent disease tends to be milder.