Your search keyword '"Kandolo D"' showing total 17 results

1. Phytophthora infestans populations in central, eastern and southern African countries consist of two major clonal lineages

Author

Pule, B. B., Meitz, J. C., Thompson, A. H., Linde, C. C., Fry, W. E., Langenhoven, S. D., Meyers, K. L., Kandolo, D. S., van Rij, N. C., and McLeod, A.

Published

2013

2. P2-6 - La confirmation biologique du choléra en République Démocratique du Congo, de 1997-2019

Author

Miwanda, B.N., Batumo, D., Kandolo, D., Welo, P., Piarroux, R., and Muyembe, J.J.

Abstract

Le choléra est un problème important de santé publique dans de nombreux pays en développement. La République démocratique du Congo fait régulièrement face aux épidémies de choléra avec un profil endémo épidémique à l'Est et épidémique à l'Ouest. La surveillance biologique du choléra en République Démocratique du Congo a commencé en1997 à ce jour.

Published

2024

3. The effects of treatments with selected pesticides on viability and vigour of maize (Zea mays) seeds and seedling emergence in the presence of Fusarium graminearum

Author

AVELING, T. A. S., primary, GOVENDER, V., additional, KANDOLO, D. S., additional, and KRITZINGER, Q., additional

Published

2012

4. Phytophthora infestanspopulations in central, eastern and southern African countries consist of two major clonal lineages

Author

Pule, B. B., primary, Meitz, J. C., additional, Thompson, A. H., additional, Linde, C. C., additional, Fry, W. E., additional, Langenhoven, S. D., additional, Meyers, K. L., additional, Kandolo, D. S., additional, van Rij, N. C., additional, and McLeod, A., additional

Published

2012

5. Focus: Meningococcal meningitis

Author

Aguado, T., primary, Bertherat, E., additional, Djingarey, M., additional, Kandolo, D., additional, Kieny, M. P., additional, Kondé, K., additional, LaForce, F. M., additional, Nelson, C. B., additional, Perea, W., additional, and Préziosi, M. P., additional

Published

2005

6. The effects of treatments with selected pesticides on viability and vigour of maize (Zea mays) seeds and seedling emergence in the presence of Fusarium graminearum.

Author

AVELING, T. A. S., GOVENDER, V., KANDOLO, D. S., and KRITZINGER, Q.

Abstract

The quality of seed is dependent on two very broad aspects: how healthy (disease-free) a seed is and its field performance (germination and vigour). The objective of the present study was to evaluate the effect of pesticidal seed treatments of maize (Zea mays L.) on seed germination and vigour, and on greenhouse emergence in the presence of Fusarium graminearum Schw. Maize seeds were treated with four pesticides: Apron® XL (metalaxyl), Thiram (thiram), Celest® XL (fludioxonil, metalaxyl) and Apron® Star 42 WS (thiamethoxam, metalaxyl, difenoconazole). Viability and vigour of the treated seeds were determined. Thereafter, seeds were planted under greenhouse conditions. The control consisted of water-treated seeds. None of the pesticides reduced the standard germination under laboratory conditions and none had any effect on the quantity of leachate (measured as conductivity) or moisture content of the seeds. The different treatments also had no effect on germination or on seedling weight increase among treatments after rapid imbibition and there was no difference in germination among treatments following the cold test. The proportion of diseased plants harvested from F. graminearum inoculated soil was significantly reduced by Apron® Star 42 WS and Celest® XL. The vigour tests indicated that none of the pesticides tested affected the seeds negatively and that plant biomass in the presence of the pathogen, F. graminearum, was increased after the application of the pesticides to the seeds, with the exception of seeds treated with Apron® XL. [ABSTRACT FROM PUBLISHER]

Published

2013

7. Filtrage par transformée en ondelettes discrète du ground roll en sismique réflexion

Author

Abdelkader Benaissa, Zahia Benaïssa, Tahar Aïfa, Amar Boudella, Kandolo, D., Laboratoire de Physique de la Terre, Université des Sciences et de la Technologie Houari Boumediene [Alger] (USTHB)-Université M'Hamed Bougara Boumerdes (UMBB), Géosciences Rennes (GR), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre Armoricain de Recherches en Environnement-Centre National de la Recherche Scientifique (CNRS), Dubigeon, Isabelle, Université des Sciences et de la Technologie Houari Boumediene = University of Sciences and Technology Houari Boumediene [Alger] (USTHB)-Université M'Hamed Bougara Boumerdes (UMBB), and Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre Armoricain de Recherches en Environnement-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDU.STU.GP]Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph], [SDU.STU.GP] Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph]

8. Introduction and Rollout of a New Group A Meningococcal Conjugate Vaccine (PsA-TT) in African Meningitis Belt Countries, 2010-2014.

Author

Djingarey MH, Diomandé FV, Barry R, Kandolo D, Shirehwa F, Lingani C, Novak RT, Tevi-Benissan C, Perea W, Preziosi MP, and LaForce FM

Subjects

Africa South of the Sahara epidemiology, Humans, Immunization Programs, Meningitis, Meningococcal epidemiology, Vaccines, Conjugate, Disease Transmission, Infectious prevention & control, Meningitis, Meningococcal prevention & control, Meningococcal Vaccines administration & dosage, Meningococcal Vaccines immunology, Vaccination statistics & numerical data

Abstract

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., (© 2015 World Health Organization; licensee Oxford Journals.)

Published

2015

9. Public Health Impact After the Introduction of PsA-TT: The First 4 Years.

Author

Diomandé 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, and Greenwood B

Subjects

Adolescent, Adult, Africa epidemiology, Child, Child, Preschool, Female, Humans, Incidence, Infant, Male, Treatment Outcome, Young Adult, Carrier State epidemiology, Carrier State prevention & control, Disease Transmission, Infectious prevention & control, Meningococcal Infections epidemiology, Meningococcal Infections prevention & control, Meningococcal Vaccines administration & dosage, Meningococcal Vaccines immunology

Abstract

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., (© 2015 World Health Organization; licensee Oxford Journals.)

Published

2015

10. Persistent low carriage of serogroup A Neisseria meningitidis two years after mass vaccination with the meningococcal conjugate vaccine, MenAfriVac.

Author

Kristiansen PA, Ba AK, Ouédraogo AS, Sanou I, Ouédraogo R, Sangaré L, Diomandé F, Kandolo D, Saga IM, Misegades L, Clark TA, Préziosi MP, and Caugant DA

Subjects

Adolescent, Adult, Asymptomatic Infections epidemiology, Bacterial Outer Membrane Proteins genetics, Burkina Faso epidemiology, Child, Child, Preschool, Cross-Sectional Studies, Female, Humans, Infant, Male, Mass Vaccination, Meningitis, Meningococcal epidemiology, Meningococcal Infections prevention & control, Multilocus Sequence Typing, Neisseria meningitidis, Serogroup A genetics, Oropharynx microbiology, Porins genetics, Prevalence, Vaccination, Young Adult, Carrier State epidemiology, Meningococcal Infections epidemiology, Meningococcal Vaccines therapeutic use, Neisseria meningitidis, Serogroup A isolation & purification

Abstract

Background: The conjugate vaccine against serogroup A Neisseria meningitidis (NmA), MenAfriVac, is currently being introduced throughout the African meningitis belt. In repeated multicentre cross-sectional studies in Burkina Faso we demonstrated a significant effect of vaccination on NmA carriage for one year following mass vaccination in 2010. A new multicentre carriage study was performed in October-November 2012, two years after MenAfriVac mass vaccination., Methods: Oropharyngeal samples were collected and analysed for presence of N. meningitidis (Nm) from a representative selection of 1-29-year-olds in three districts in Burkina Faso using the same procedures as in previous years. Characterization of Nm isolates included serogrouping, multilocus sequence typing, and porA and fetA sequencing. A small sample of invasive isolates collected during the epidemic season of 2012 through the national surveillance system were also analysed., Results: From a total of 4964 oropharyngeal samples, overall meningococcal carriage prevalence was 7.86%. NmA prevalence was 0.02% (1 carrier), significantly lower (OR, 0.05, P = 0.005, 95% CI, 0.006-0.403) than pre-vaccination prevalence (0.39%). The single NmA isolate was sequence type (ST)-7, P1.20,9;F3-1, a clone last identified in Burkina Faso in 2003. Nm serogroup W (NmW) dominated with a carriage prevalence of 6.85%, representing 87.2% of the isolates. Of 161 NmW isolates characterized by molecular techniques, 94% belonged to the ST-11 clonal complex and 6% to the ST-175 complex. Nm serogroup X (NmX) was carried by 0.60% of the participants and ST-181 accounted for 97% of the NmX isolates. Carriage prevalence of serogroup Y and non-groupable Nm was 0.20% and 0.18%, respectively. Among the 20 isolates recovered from meningitis cases, NmW dominated (70%), followed by NmX (25%). ST-2859, the only ST with a serogroup A capsule found in Burkina Faso since 2004, was not found with another capsule, neither among carriage nor invasive isolates., Conclusions: The significant reduction of NmA carriage still persisted two years following MenAfriVac vaccination, and no cases of NmA meningitis were recorded. High carriage prevalence of NmW ST-11 was consistent with the many cases of NmW meningitis in the epidemic season of 2012 and the high proportion of NmW ST-11 among the characterized invasive isolates.

Published

2014

11. Phenotypic and genotypic characterization of meningococcal carriage and disease isolates in Burkina Faso after mass vaccination with a serogroup a conjugate vaccine.

Author

Kristiansen PA, Ba AK, Sanou I, Ouédraogo AS, Ouédraogo R, Sangaré L, Diomandé F, Kandolo D, Thomas JD, Clark TA, Laforce M, and Caugant DA

Subjects

Adolescent, Adult, Anti-Bacterial Agents pharmacology, Bacterial Capsules genetics, Burkina Faso, Carrier State microbiology, Child, Child, Preschool, Cross-Sectional Studies, Genotype, Humans, Infant, Mass Vaccination, Meningococcal Infections prevention & control, Microbial Sensitivity Tests, Neisseria meningitidis drug effects, Neisseria meningitidis genetics, Phenotype, Meningococcal Infections microbiology, Meningococcal Vaccines administration & dosage, Neisseria meningitidis isolation & purification

Abstract

Background: The conjugate vaccine against serogroup A Neisseria meningitidis (NmA), MenAfriVac, was first introduced in mass vaccination campaigns of the 1-29-year-olds in Burkina Faso in 2010. The aim of this study was to genetically characterize meningococcal isolates circulating in Burkina Faso before and up to 13 months after MenAfriVac mass vaccination., Methods: A total of 1,659 meningococcal carriage isolates were collected in a repeated cross-sectional carriage study of the 1-29-year-olds in three districts of Burkina Faso in 2010 and 2011, before and up to 13 months after mass vaccination. Forty-two invasive isolates were collected through the national surveillance in Burkina Faso in the same period. All the invasive isolates and 817 carriage isolates were characterized by serogroup, multilocus sequence typing and porA-fetA sequencing., Results: Seven serogroup A isolates were identified, six in 2010, before vaccination (4 from carriers and 2 from patients), and one in 2011 from an unvaccinated patient; all were assigned to sequence type (ST)-2859 of the ST-5 clonal complex. No NmA carriage isolate and no ST-2859 isolate with another capsule were identified after vaccination. Serogroup X carriage and disease prevalence increased before vaccine introduction, due to the expansion of ST-181, which comprised 48.5% of all the characterized carriage isolates. The hypervirulent serogroup W ST-11 clone that was responsible for most of meningococcal disease in 2011 and 2012 was not observed in 2010; it appeared during the epidemic season of 2011, when it represented 40.6% of the serogroup W carriage isolates., Conclusions: Successive clonal waves of ST-181 and ST-11 may explain the changing epidemiology in Burkina Faso after the virtual disappearance of NmA disease and carriage. No ST-2859 strain of any serogroup was found after vaccination, suggesting that capsule switching of ST-2859 did not occur, at least not during the first 13 months after vaccination.

Published

2013

12. Impact of the serogroup A meningococcal conjugate vaccine, MenAfriVac, on carriage and herd immunity.

Author

Kristiansen PA, Diomandé F, Ba AK, Sanou I, Ouédraogo AS, Ouédraogo R, Sangaré L, Kandolo D, Aké F, Saga IM, Clark TA, Misegades L, Martin SW, Thomas JD, Tiendrebeogo SR, Hassan-King M, Djingarey MH, Messonnier NE, Préziosi MP, Laforce FM, and Caugant DA

Subjects

Adolescent, Adult, Burkina Faso, Child, Child, Preschool, Cross-Sectional Studies, Disease Outbreaks prevention & control, Female, Humans, Infant, Male, Meningitis, Meningococcal immunology, Meningitis, Meningococcal microbiology, Neisseria meningitidis immunology, Prevalence, Vaccination, Young Adult, Immunity, Herd immunology, Meningitis, Meningococcal prevention & control, Meningococcal Vaccines administration & dosage, Neisseria meningitidis isolation & purification

Abstract

Background: The conjugate vaccine against serogroup A Neisseria meningitidis (NmA), MenAfriVac, was first introduced in mass vaccination campaigns of 1-29-year-olds in Burkina Faso in 2010. It is not known whether MenAfriVac has an impact on NmA carriage., Methods: We conducted a repeated cross-sectional meningococcal carriage study in a representative portion of the 1-29-year-old population in 3 districts in Burkina Faso before and up to 13 months after vaccination. One district was vaccinated in September 2010, and the other 2 were vaccinated in December 2010. We analyzed 25 521 oropharyngeal samples, of which 22 093 were obtained after vaccination., Results: In October-November 2010, NmA carriage prevalence in the unvaccinated districts was comparable to the baseline established in 2009, but absent in the vaccinated district. Serogroup X N. meningitidis (NmX) dominated in both vaccinated and unvaccinated districts. With 4 additional sampling campaigns performed throughout 2011 in the 3 districts, overall postvaccination meningococcal carriage prevalence was 6.95%, with NmX dominating but declining for each campaign (from 8.66% to 1.97%). Compared with a baseline NmA carriage prevalence of 0.39%, no NmA was identified after vaccination. Overall vaccination coverage in the population sampled was 89.7%, declining over time in 1-year-olds (from 87.1% to 26.5%), as unvaccinated infants reached 1 year of age. NmA carriage was eliminated in both the vaccinated and unvaccinated population from 3 weeks up to 13 months after mass vaccination (P = .003)., Conclusions: The disappearance of NmA carriage among both vaccinated and unvaccinated populations is consistent with a vaccine-induced herd immunity effect.

Published

2013

13. Carriage of Neisseria lactamica in 1- to 29-year-old people in Burkina Faso: epidemiology and molecular characterization.

Author

Kristiansen PA, Diomandé F, Ouédraogo R, Sanou I, Sangaré L, Ouédraogo AS, Ba AK, Kandolo D, Dolan Thomas J, Clark TA, Préziosi MP, Laforce FM, and Caugant DA

Subjects

Adolescent, Adult, Burkina Faso epidemiology, Carrier State microbiology, Child, Child, Preschool, Cross-Sectional Studies, Female, Genetic Variation, Humans, Infant, Male, Molecular Epidemiology, Multilocus Sequence Typing, Neisseria lactamica classification, Neisseria lactamica genetics, Neisseriaceae Infections microbiology, Oropharynx microbiology, Prevalence, Young Adult, Carrier State epidemiology, Neisseria lactamica isolation & purification, Neisseriaceae Infections epidemiology

Abstract

Neisseria lactamica is a true commensal bacterium occupying the same ecological niche as the pathogenic Neisseria meningitidis, which is responsible for outbreaks and large epidemics, especially in sub-Saharan Africa. To better understand the epidemiology of N. lactamica in Africa and its relationship to N. meningitidis, we studied N. lactamica carriage in 1- to 29-year-old people living in three districts of Burkina Faso from 2009 to 2011. N. lactamica was detected in 18.2% of 45,847 oropharyngeal samples. Carriage prevalence was highest among the 2-year-olds (40.1%) and decreased with age. Overall prevalence was higher for males (19.1%) than females (17.5%) (odds ratio [OR], 1.11; 95% confidence interval [CI], 1.04 to 1.18), while among the 18- to 29-year-olds, carriage prevalence was significantly higher in women (9.1%) than in men (3.9%) (OR, 2.49; 95% CI, 1.94 to 3.19). Carriage prevalence of N. lactamica was remarkably homogeneous in the three districts of Burkina Faso and stable over time, in comparison with carriage of N. meningitidis (P. A. Kristiansen et al., Clin. Vaccine Immunol. 18:435-443, 2011). There was no significant seasonal variation of N. lactamica carriage and no significant change in carriage prevalence after introduction of the serogroup A meningococcal conjugate vaccine, MenAfriVac. Multilocus sequence typing was performed on a selection of 142 isolates. The genetic diversity was high, as we identified 62 different genotypes, of which 56 were new. The epidemiology of N. lactamica carriage and the molecular characteristics of carried isolates were similar to those reported from industrialized countries, in contrast to the particularities of N. meningitidis carriage and disease epidemiology in Burkina Faso.

Published

2012

14. Effectively introducing a new meningococcal A conjugate vaccine in Africa: the Burkina Faso experience.

Author

Djingarey MH, Barry R, Bonkoungou M, Tiendrebeogo S, Sebgo R, Kandolo D, Lingani C, Preziosi MP, Zuber PL, Perea W, Hugonnet S, Dellepiane de Rey Tolve N, Tevi-Benissan C, Clark TA, Mayer LW, Novak R, Messonier NE, Berlier M, Toboe D, Nshimirimana D, Mihigo R, Aguado T, Diomandé F, Kristiansen PA, Caugant DA, and Laforce FM

Subjects

Burkina Faso epidemiology, Humans, Meningococcal Infections epidemiology, Vaccination methods, Immunization Programs organization & administration, Meningococcal Infections microbiology, Meningococcal Infections prevention & control, Meningococcal Vaccines administration & dosage, Meningococcal Vaccines immunology, Neisseria meningitidis, Serogroup A immunology

Abstract

A new Group A meningococcal (Men A) conjugate vaccine, MenAfriVac™, was prequalified by the World Health Organization (WHO) in June 2010. Because Burkina Faso has repeatedly suffered meningitis epidemics due to Group A Neisseria meningitidis special efforts were made to conduct a country-wide campaign with the new vaccine in late 2010 and before the onset of the next epidemic meningococcal disease season beginning in January 2011. In the ensuing five months (July-November 2010) the following challenges were successfully managed: (1) doing a large safety study and registering the new vaccine in Burkina Faso; (2) developing a comprehensive communication plan; (3) strengthening the surveillance system with particular attention to improving the capacity for real-time polymerase chain reaction (PCR) testing of spinal fluid specimens; (4) improving cold chain capacity and waste disposal; (5) developing and funding a sound campaign strategy; and (6) ensuring effective collaboration across all partners. Each of these issues required specific strategies that were managed through a WHO-led consortium that included all major partners (Ministry of Health/Burkina Faso, Serum Institute of India Ltd., UNICEF, Global Alliance for Vaccines and Immunization, Meningitis Vaccine Project, CDC/Atlanta, and the Norwegian Institute of Public Health/Oslo). Biweekly teleconferences that were led by WHO ensured that problems were identified in a timely fashion. The new meningococcal A conjugate vaccine was introduced on December 6, 2010, in a national ceremony led by His Excellency Blaise Compaore, the President of Burkina Faso. The ensuing 10-day national campaign was hugely successful, and over 11.4 million Burkinabes between the ages of 1 and 29 years (100% of target population) were vaccinated. African national immunization programs are capable of achieving very high coverage for a vaccine desired by the public, introduced in a well-organized campaign, and supported at the highest political level. The Burkina Faso success augurs well for further rollout of the Men A conjugate vaccine in meningitis belt countries., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

15. Laboratory quality control in a multicentre meningococcal carriage study in Burkina Faso.

Author

Kristiansen PA, Ouédraogo AS, Sanou I, Ky Ba A, Ouédraogo CD, Sangaré L, Ouédraogo R, Kandolo D, Diomandé F, Kaboré P, Hassan-King M, Thomas JD, Hatcher CP, Andreasson I, Clark TA, Préziosi MP, LaForce M, and Caugant DA

Subjects

Burkina Faso epidemiology, Cross-Sectional Studies, Humans, Meningitis, Meningococcal prevention & control, Neisseria meningitidis classification, Neisseria meningitidis isolation & purification, Prevalence, Quality Control, Reproducibility of Results, Vaccines, Conjugate pharmacology, Carrier State immunology, Meningitis, Meningococcal immunology, Meningococcal Vaccines pharmacology, Neisseria meningitidis immunology

Abstract

To investigate the potential herd immunity effect of MenAfriVac, a new conjugate vaccine against serogroup A Neisseria meningitidis, a multiple cross-sectional carriage study was conducted in three districts in Burkina Faso in 2009, yielding a total of 20 326 oropharyngeal samples. A major challenge was the harmonisation of operational procedures and ensuring the reliability of results. Here we describe the laboratory quality control (QC) system that was implemented. Laboratory analysis performed by three local laboratories included colony morphology assessment, oxidase test, Gram stain, β-galactosidase activity using o-nitrophenyl-β-galactopyranoside (ONPG), γ-glutamyl transferase (GGT) activity and slide agglutination serogrouping. Internal QC was performed on media, reagents, laboratory equipment and field conditions. Confirmation of results and molecular characterisation was performed at the Norwegian Institute of Public Health (Oslo, Norway). External QC was performed on 3% of specimens where no colonies morphologically resembling N. meningitidis had been identified and on 10% of non-ONPG-/GGT+ isolates. The QC system was a critical element: it identified logistical and operational problems in real time and ensured accuracy of the final data. The overall N. meningitidis carriage prevalence (3.98%) was probably slightly underestimated and the calculated true prevalence was 4.48%. The components of the presented QC system can easily be implemented in any other laboratory study., (Copyright © 2012 Royal Society of Tropical Medicine and Hygiene. All rights reserved.)

Published

2012

16. Molecular characterization of invasive meningococcal isolates from countries in the African meningitis belt before introduction of a serogroup A conjugate vaccine.

Author

Caugant DA, Kristiansen PA, Wang X, Mayer LW, Taha MK, Ouédraogo R, Kandolo D, Bougoudogo F, Sow S, and Bonte L

Subjects

Africa South of the Sahara, Anti-Bacterial Agents pharmacology, Genetic Variation, Humans, Meningococcal Infections classification, Meningococcal Infections drug therapy, Neisseria meningitidis classification, Neisseria meningitidis drug effects, Neisseria meningitidis isolation & purification, Porins genetics, Serotyping, Meningococcal Infections microbiology, Neisseria meningitidis genetics

Abstract

Background: The serogroup A conjugate meningococcal vaccine, MenAfriVac, was introduced in mass vaccination campaigns in December 2010 in Burkina Faso, Mali and Niger. In the coming years, vaccination will be extended to other African countries at risk of epidemics. To document the molecular characteristics of disease-causing meningococcal strains circulating in the meningitis belt of Africa before vaccine introduction, the World Health Organization Collaborating Centers on Meningococci in Europe and United States established a common strain collection of 773 isolates from cases of invasive meningococcal disease collected between 2004 and 2010 from 13 sub-Saharan countries., Methodology: All isolates were characterized by multilocus sequence typing, and 487 (62%) were also analyzed for genetic variation in the surface antigens PorA and FetA. Antibiotic susceptibility was tested for part of the collection., Principal Findings: Only 19 sequence types (STs) belonging to 6 clonal complexes were revealed. ST-5 clonal complex dominated with 578 (74.8%) isolates. All ST-5 complex isolates were remarkably homogeneous in their PorA (P1.20,9) and FetA (F3-1) and characterized the serogroup A strains which have been responsible for most epidemics during this time period. Sixty-eight (8.8%) of the 773 isolates belonged to the ST-11 clonal complex which was mainly represented by serogroup W135, while an additional 38 (4.9%) W135 isolates belonged to the ST-175 complex. Forty-eight (6.2%) serogroup X isolates from West Africa belonged to the ST-181 complex, while serogroup X cases in Kenya and Uganda were caused by an unrelated clone, ST-5403. Serogroup X, ST-181, emerged in Burkina Faso before vaccine introduction., Conclusions: In the seven years preceding introduction of a new serogroup A conjugate vaccine, serogroup A of the ST-5 clonal complex was identified as the predominant disease-causing strain.

Published

2012

17. Baseline meningococcal carriage in Burkina Faso before the introduction of a meningococcal serogroup A conjugate vaccine.

Author

Kristiansen PA, Diomandé F, Wei SC, Ouédraogo R, Sangaré L, Sanou I, Kandolo D, Kaboré P, Clark TA, Ouédraogo AS, Absatou KB, Ouédraogo CD, Hassan-King M, Thomas JD, Hatcher C, Djingarey M, Messonnier N, Préziosi MP, LaForce M, and Caugant DA

Subjects

Adolescent, Adult, Bacterial Typing Techniques, Burkina Faso epidemiology, Carrier State microbiology, Child, Child, Preschool, Cross-Sectional Studies, Female, Genotype, Humans, Infant, Male, Meningococcal Infections microbiology, Meningococcal Vaccines administration & dosage, Meningococcal Vaccines immunology, Molecular Typing, Multilocus Sequence Typing, Prevalence, Rural Population, Serotyping, Urban Population, Vaccines, Conjugate administration & dosage, Vaccines, Conjugate immunology, Young Adult, Carrier State epidemiology, Meningococcal Infections epidemiology, Neisseria meningitidis classification, Neisseria meningitidis isolation & purification

Abstract

The serogroup A meningococcal conjugate vaccine MenAfriVac has the potential to confer herd immunity by reducing carriage prevalence of epidemic strains. To better understand this phenomenon, we initiated a meningococcal carriage study to determine the baseline carriage rate and serogroup distribution before vaccine introduction in the 1- to 29-year old population in Burkina Faso, the group chosen for the first introduction of the vaccine. A multiple cross-sectional carriage study was conducted in one urban and two rural districts in Burkina Faso in 2009. Every 3 months, oropharyngeal samples were collected from >5,000 randomly selected individuals within a 4-week period. Isolation and identification of the meningococci from 20,326 samples were performed by national laboratories in Burkina Faso. Confirmation and further strain characterization, including genogrouping, multilocus sequence typing, and porA-fetA sequencing, were performed in Norway. The overall carriage prevalence for meningococci was 3.98%; the highest prevalence was among the 15- to 19-year-olds for males and among the 10- to 14-year-olds for females. Serogroup Y dominated (2.28%), followed by serogroups X (0.44%), A (0.39%), and W135 (0.34%). Carriage prevalence was the highest in the rural districts and in the dry season, but serogroup distribution also varied by district. A total of 29 sequence types (STs) and 51 porA-fetA combinations were identified. The dominant clone was serogroup Y, ST-4375, P1.5-1,2-2/F5-8, belonging to the ST-23 complex (47%). All serogroup A isolates were ST-2859 of the ST-5 complex with P1.20,9/F3-1. This study forms a solid basis for evaluating the impact of MenAfriVac introduction on serogroup A carriage.

Published

2011