Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-7 (of 7 Records) |
Query Trace: Diomande FV[original query] |
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Lessons learned from enhancing vaccine pharmacovigilance activities during PsA-TT introduction in African countries, 2010-2013
Diomande FV , Yameogo TM , Vannice KS , Preziosi MP , Viviani S , Ouandaogo CR , Keita M , Djingarey MH , Mbakuliyemo N , Akanmori BD , Sow SO , Zuber PL . Clin Infect Dis 2015 61 Suppl 5 S459-66 BACKGROUND: The rollout of the group A meningococcal vaccine, PsA-TT, in Africa's meningitis belt countries represented the first introduction of a vaccine specifically designed for this part of the world. During the first year alone, the number of people who received the vaccine through mass vaccination campaigns was several hundredfold higher than that of subjects who participated in the closely monitored clinical trials. Implementation of a system to identify rare but potentially serious vaccine reactions was therefore a high priority in the design and implementation of those campaigns. METHODS: National authorities and their technical partners set up effective vaccine pharmacovigilance systems, including conducting active surveillance projects. RESULTS: Implementation of national expert advisory groups to review serious adverse events following immunization in all countries and active monitoring of conditions of interest in 3 early-adopter countries did not identify particular concerns with the safety profile of PsA-TT, which had already provided tremendous public health benefits. CONCLUSIONS: Lessons learned from this experience will help to improve preparations for future vaccine introductions in resource-poor settings and capitalize on such efforts to advance vaccine safety systems in the future. |
Public health impact after the introduction of PsA-TT: the first 4 years
Diomande FV , Djingarey MH , Daugla DM , Novak RT , Kristiansen PA , Collard JM , Gamougam K , Kandolo D , Mbakuliyemo N , Mayer L , Stuart J , Clark T , Tevi-Benissan C , Perea WA , Preziosi MP , Marc LaForce F , Caugant D , Messonnier N , Walker O , Greenwood B . Clin Infect Dis 2015 61 Suppl 5 S467-72 BACKGROUND: During the first introduction of a group A meningococcal vaccine (PsA-TT) in 2010-2011 and its rollout from 2011 to 2013, >150 million eligible people, representing 12 hyperendemic meningitis countries, have been vaccinated. METHODS: The new vaccine effectiveness evaluation framework was established by the World Health Organization and partners. Meningitis case-based surveillance was strengthened in PsA-TT first-introducer countries, and several evaluation studies were conducted to estimate the vaccination coverage and to measure the impact of vaccine introduction on meningococcal carriage and disease incidence. RESULTS: PsA-TT implementation achieved high vaccination coverage, and results from studies conducted showed significant decrease of disease incidence as well as significant reduction of oropharyngeal carriage of group A meningococci in vaccinated and unvaccinated individuals, demonstrating the vaccine's ability to generate herd protection and prevent group A epidemics. CONCLUSIONS: Lessons learned from this experience provide useful insights in how to guide and better prepare for future new vaccine introductions in resource-limited settings. |
Introduction and rollout of a new group a meningococcal conjugate vaccine (PsA-TT) in African meningitis belt countries, 2010-2014
Djingarey MH , Diomande FV , Barry R , Kandolo D , Shirehwa F , Lingani C , Novak RT , Tevi-Benissan C , Perea W , Preziosi MP , LaForce FM . Clin Infect Dis 2015 61 Suppl 5 S434-41 BACKGROUND: A group A meningococcal conjugate vaccine (PsA-TT) was developed specifically for the African "meningitis belt" and was prequalified by the World Health Organization (WHO) in June 2010. The vaccine was first used widely in Burkina Faso, Mali, and Niger in December 2010 with great success. The remaining 23 meningitis belt countries wished to use this new vaccine. METHODS: With the help of African countries, WHO developed a prioritization scheme and used or adapted existing immunization guidelines to mount PsA-TT vaccination campaigns. Vaccine requirements were harmonized with the Serum Institute of India, Ltd. RESULTS: Burkina Faso was the first country to fully immunize its 1- to 29-year-old population in December 2010. Over the next 4 years, vaccine coverage was extended to 217 million Africans living in 15 meningitis belt countries. CONCLUSIONS: The new group A meningococcal conjugate vaccine was well received, with country coverage rates ranging from 85% to 95%. The rollout proceeded smoothly because countries at highest risk were immunized first while attention was paid to geographic contiguity to maximize herd protection. Community participation was exemplary. |
Active surveillance for adverse events after a mass vaccination campaign with a group A meningococcal conjugate vaccine (PsA-TT) in Mali
Vannice KS , Keita M , Sow SO , Durbin AP , Omer SB , Moulton LH , Yameogo TM , Zuber PL , Onwuchekwa U , Sacko M , Diomande FV , Halsey NA . Clin Infect Dis 2015 61 Suppl 5 S493-500 BACKGROUND: The monovalent meningococcal A conjugate vaccine (PsA-TT, MenAfriVac) was developed for use in the "meningitis belt" of sub-Saharan Africa. Mali was 1 of 3 countries selected for early introduction. As this is a new vaccine, postlicensure surveillance is particularly important to identify and characterize possible safety issues. METHODS: The national vaccination campaign was phased from September 2010 to November 2011. We conducted postlicensure safety surveillance for PsA-TT in 40 government clinics from southern Mali serving approximately 400 000 people 1-29 years of age. We conducted analyses with individual-level data and population-level data, and we calculated rates of adverse events using the conditional exact test, a modified vaccine cohort risk interval method, and a modified self-controlled case series method for each outcome of interest, including 18 prespecified adverse events and 18 syndromic categories. RESULTS: An increased rate of clinic visits for fever within 3 days after vaccination was found using multiple methods for all age groups. Although other signals were found with some methods, complete assessment of all other prespecified outcomes and syndromic categories did not reveal that PsA-TT was consistently associated with any other health problem. CONCLUSIONS: No new safety concerns were identified in this study. These results are consistent with prelicensure data and other studies indicating that PsA-TT is safe. The approach presented could serve as a model for future active postlicensure vaccine safety monitoring associated with large-scale immunization campaigns in low-income countries. |
Neisseria meningitidis serogroup W, Burkina Faso, 2012
Macneil JR , Medah I , Koussoube D , Novak RT , Cohn AC , Diomande FV , Yelbeogo D , Kambou JL , Tarbangdo TF , Ouedraogo-Traore R , Sangare L , Hatcher C , Vuong J , Mayer LW , Djingarey MH , Clark TA , Messonnier NE . Emerg Infect Dis 2014 20 (3) 394-9 In 2010, Burkina Faso became the first country to introduce meningococcal serogroup A conjugate vaccine (PsA-TT). During 2012, Burkina Faso reported increases in Neisseria meningitidis serogroup W, raising questions about whether these cases were a natural increase in disease or resulted from serogroup replacement after PsA-TT introduction. We analyzed national surveillance data to describe the epidemiology of serogroup W and genotyped 61 serogroup W isolates. In 2012, a total of 5,807 meningitis cases were reported through enhanced surveillance, of which 2,353 (41%) were laboratory confirmed. The predominant organism identified was N. meningitidis serogroup W (62%), and all serogroup W isolates characterized belonged to clonal complex 11. Although additional years of data are needed before we can understand the epidemiology of serogroup W after PsA-TT introduction, these data suggest that serogroup W will remain a major cause of sporadic disease and has epidemic potential, underscoring the need to maintain high-quality case-based meningitis surveillance after PsA-TT introduction. |
Identifying optimal vaccination strategies for serogroup A Neisseria meningitidis conjugate vaccine in the African meningitis belt
Tartof S , Cohn A , Tarbangdo F , Djingarey MH , Messonnier N , Clark TA , Kambou JL , Novak R , Diomande FV , Medah I , Jackson ML . PLoS One 2013 8 (5) e63605 OBJECTIVE: The optimal long-term vaccination strategies to provide population-level protection against serogroup A Neisseria meningitidis (MenA) are unknown. We developed an age-structured mathematical model of MenA transmission, colonization, and disease in the African meningitis belt, and used this model to explore the impact of various vaccination strategies. METHODS: The model stratifies the simulated population into groups based on age, infection status, and MenA antibody levels. We defined the model parameters (such as birth and death rates, age-specific incidence rates, and age-specific duration of protection) using published data and maximum likelihood estimation. We assessed the validity of the model by comparing simulated incidence of invasive MenA and prevalence of MenA carriage to observed incidence and carriage data. RESULTS: The model fit well to observed age- and season-specific prevalence of carriage (mean pseudo-R2 0.84) and incidence of invasive disease (mean R2 0.89). The model is able to reproduce the observed dynamics of MenA epidemics in the African meningitis belt, including seasonal increases in incidence, with large epidemics occurring every eight to twelve years. Following a mass vaccination campaign of all persons 1-29 years of age, the most effective modeled vaccination strategy is to conduct mass vaccination campaigns every 5 years for children 1-5 years of age. Less frequent campaigns covering broader age groups would also be effective, although somewhat less so. Introducing conjugate MenA vaccine into the EPI vaccination schedule at 9 months of age results in higher predicted incidence than periodic mass campaigns. DISCUSSION: We have developed the first mathematical model of MenA in Africa to incorporate age structures and progressively waning protection over time. Our model accurately reproduces key features of MenA epidemiology in the African meningitis belt. This model can help policy makers consider vaccine program effectiveness when determining the feasibility and benefits of MenA vaccination strategies. |
Serogroup A meningococcal conjugate vaccination in Burkina Faso: analysis of national surveillance data
Novak RT , Kambou JL , Diomande FV , Tarbangdo TF , Ouedraogo-Traore R , Sangare L , Lingani C , Martin SW , Hatcher C , Mayer LW , Laforce FM , Avokey F , Djingarey MH , Messonnier NE , Tiendrebeogo SR , Clark TA . Lancet Infect Dis 2012 12 (10) 757-64 BACKGROUND: An affordable, highly immunogenic Neisseria meningitidis serogroup A meningococcal conjugate vaccine (PsA-TT) was licensed for use in sub-Saharan Africa in 2009. In 2010, Burkina Faso became the first country to implement a national prevention campaign, vaccinating 11.4 million people aged 1-29 years. We analysed national surveillance data around PsA-TT introduction to investigate the early effect of the vaccine on meningitis incidence and epidemics. METHODS: We examined national population-based meningitis surveillance data from Burkina Faso using two sources, one with cases and deaths aggregated at the district level from 1997 to 2011, and the other enhanced with results of cerebrospinal fluid examination and laboratory testing from 2007 to 2011. We compared mortality rates and incidence of suspected meningitis, probable meningococcal meningitis by age, and serogroup-specific meningococcal disease before and during the first year after PsA-TT implementation. We assessed the risk of meningitis disease and death between years. FINDINGS: During the 14 year period before PsA-TT introduction, Burkina Faso had 148 603 cases of suspected meningitis with 17 965 deaths, and 174 district-level epidemics. After vaccine introduction, there was a 71% decline in risk of meningitis (hazard ratio 0.29, 95% CI 0.28-0.30, p<0.0001) and a 64% decline in risk of fatal meningitis (0.36, 0.33-0.40, p<0.0001). We identified a statistically significant decline in risk of probable meningococcal meningitis across the age group targeted for vaccination (62%, cumulative incidence ratio [CIR] 0.38, 95% CI 0.31-0.45, p<0.0001), and among children aged less than 1 year (54%, 0.46, 0.24-0.86, p=0.02) and people aged 30 years and older (55%, 0.45, 0.22-0.91, p=0.003) who were ineligible for vaccination. No cases of serogroup A meningococcal meningitis occurred among vaccinated individuals, and epidemics were eliminated. The incidence of laboratory-confirmed serogroup A N meningitidis dropped significantly to 0.01 per 100,000 individuals per year, representing a 99.8% reduction in the risk of meningococcal A meningitis (CIR 0.002, 95% CI 0.0004-0.02, p<0.0001). INTERPRETATION: Early evidence suggests the conjugate vaccine has substantially reduced the rate of meningitis in people in the target age group, and in the general population because of high coverage and herd immunity. These data suggest that fully implementing the PsA-TT vaccine could end epidemic meningitis of serogroup A in sub-Saharan Africa. FUNDING: None. |
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