INFECTIOUS DISEASE WATCH

Pertussis

Pertussis in Adolescents and Adults: Should We Vaccinate?

The incidence of reported pertussis among adolescents, adults, and young infants has increased sharply over the past decade. Combined acellular pertussis vaccines for adolescents and adults are available in Canada, Australia, and Germany and may soon be considered for use in the United States.

Objective To evaluate the potential health benefits, risks, and costs of a national pertussis vaccination program for adolescents and/or adults.

Design, Setting, and Population The projected health states and immunity levels associated with pertussis disease and vaccination were simulated with a Markov model. The following strategies were examined from the health care payer and societal perspectives: (1) no vaccination; (2) 1-time adolescent vaccination; (3) 1-time adult vaccination; (4) adult vaccination with boosters; (5) adolescent and adult vaccination with boosters; and (6) postpartum vaccination. Data on disease incidence, costs, outcomes, vaccine efficacy, and adverse events were based on published studies, recent unpublished clinical trials, and expert panel input.

Main Outcome Measures Cases prevented, adverse events, costs (in 2004 US dollars), cost per case prevented, and cost per quality-adjusted life-year (QALY) saved.

Results One-time adolescent vaccination would prevent 30800 cases of pertussis (36% of projected cases) and would result in 91000 vaccine adverse events (67% local reactions). If pertussis vaccination cost $15 and vaccine coverage was 76%, then 1-time adolescent vaccination would cost $1100 per case prevented (or $1200 per case prevented) or $20000 per QALY (or $23000 per QALY) saved, from the societal (or health care payer) perspective. With a threshold of $50000 per QALY saved, the adolescent and adult vaccination with boosters strategy became potentially cost-effective from the societal perspective only if 2 conditions were met simultaneously, ie, (1) the disease incidence for adolescents and adults was times higher than base-case assumptions and (2) the cost of vaccination was less than $10. Adult vaccination strategies were more costly and less effective than adolescent vaccination strategies. The results were sensitive to assumptions about disease incidence, vaccine efficacy, frequency of vaccine adverse events, and vaccine costs.

Conclusions Routine pertussis vaccination of adolescents results in net health benefits and may be relatively cost-effective. (Pediatrics June 2005, 115: 1675-1684.)

Duration of Immunity Against Pertussis After Natural Infection or Vaccination.

Despite decades of high vaccination coverage, pertussis has remained endemic and reemerged as a public health problem in many countries in the past 2 decades. Waning of vaccine-induced immunity has been cited as one of the reasons for the observed epidemiologic trend. A review of the published data on duration of immunity reveals estimates that infection-acquired immunity against pertussis disease wanes after 4-20 years and protective immunity after vaccination wanes after 4-12 years. Further research into the rate of waning of vaccine-acquired immunity will help determine the optimal timing and frequency of booster immunizations and their role in pertussis control.

(Pediatric Infectious Disease Journal. The Global Pertussis Initiative. 24(5) Supplement:S58-S61, May 2005.)

Use of Antibiotics in the Prevention and Treatment of Pertussis.

Antibiotics are commonly used for treating confirmed cases of pertussis and also for disease prevention in outbreak situations, and there is little evidence of antibiotic resistance of Bordetella pertussis. The most commonly used antibiotic is erythromycin, but the associated side effects limit compliance and therefore efficacy. Other antibiotics, such as clarithromycin and azithromycin, have been shown to be at least as effective as erythromycin in preventing and treating pertussis, and they also have fewer side effects, which improves compliance. This article outlines the use of different antibiotics in pertussis management and their effect on preventing disease transmission and reducing disease severity and duration.

(Pediatric Infectious Disease Journal. The Global Pertussis Initiative. 24(5) Supplement:S66-S68, May 2005.)

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