Your search keyword '"Dangy, Jean-Pierre"' showing total 4 results

1. An Outbreak of Serotype 1 Streptococcus pneumoniae Meningitis in Northern Ghana with Features That Are Characteristic of Neisseria meningitidis Meningitis Epidemics

Author

Leimkugel, Julia, Forgor, Abudulai Adams, Gagneux, Sébastien, Pflüger, Valentin, Flierl, Christian, Awine, Elizabeth, Naegeli, Martin, Dangy, Jean-Pierre, Smith, Tom, Hodgson, Abraham, and Pluschke, Gerd

Published

2005

2. Loss of Genomic Diversity in a Neisseria meningitidis Clone Through a Colonization Bottleneck.

Author

Lamelas, Araceli, Hamid, Abdul-Wahab M, Dangy, Jean-Pierre, Hauser, Julia, Jud, Maja, Röltgen, Katharina, Hodgson, Abraham, Junghanss, Thomas, Harris, Simon R, and Parkhill, Julian

Subjects

NEISSERIA meningitidis, MOLECULAR cloning, EPIDEMICS, CEREBROSPINAL fluid, POPULATION biology

Abstract

Neisseria meningitidis is the leading cause of epidemic meningitis in the “meningitis belt” of Africa, where clonal waves of colonization and disease are observed. Point mutations and horizontal gene exchange lead to constant diversification of meningococcal populations during clonal spread. Maintaining a high genomic diversity may be an evolutionary strategy of meningococci that increases chances of fixing occasionally new highly successful “fit genotypes”. We have performed a longitudinal study of meningococcal carriage and disease in northern Ghana by analyzing cerebrospinal fluid samples from all suspected meningitis cases and monitoring carriage of meningococci by twice yearly colonization surveys. In the framework of this study, we observed complete replacement of an A: sequence types (ST)-2859 clone by a W: ST-2881 clone. However, after a gap of 1 year, A: ST-2859 meningococci re-emerged both as colonizer and meningitis causing agent. Our whole genome sequencing analyses compared the A population isolated prior to the W colonization and disease wave with the re-emerging A meningococci. This analysis revealed expansion of one clone differing in only one nonsynonymous SNP from several isolates already present in the original A: ST-2859 population. The colonization bottleneck caused by the competing W meningococci thus resulted in a profound reduction in genomic diversity of the A meningococcal population. [ABSTRACT FROM AUTHOR]

Published

2018

3. Clonal Waves of Neisseria Colonisation and Disease in the African Meningitis Belt: Eight-Year Longitudinal Study in Northern Ghana.

Author

Leimkugel, Julia, Hodgson, Abraham, Forgor, Abudulai Adams, Pflüger, Valentin, Dangy, Jean-Pierre, Smith, Tom, Achtman, Mark, Gagneux, Sébastien, and Pluschke, Gerd

Subjects

MENINGITIS, NEISSERIA meningitidis, EPIDEMICS, VACCINES

Abstract

Background The Kassena-Nankana District of northern Ghana lies in the African "meningitis belt" where epidemics of meningococcal meningitis have been reoccurring every eight to 12 years for the last 100 years. The dynamics of meningococcal colonisation and disease are incompletely understood, and hence we embarked on a long-term study to determine how levels of colonisation with different bacterial serogroups change over time, and how the patterns of disease relate to such changes. Methods and Findings Between February 1998 and November 2005, pharyngeal carriage of Neisseria meningitidis in the Kassena-Nankana District was studied by twice-yearly colonisation surveys. Meningococcal disease was monitored throughout the eight-year study period, and patient isolates were compared to the colonisation isolates. The overall meningococcal colonisation rate of the study population was 6.0%. All culture-confirmed patient isolates and the majority of carriage isolates were associated with three sequential waves of colonisation with encapsulated (A ST5, X ST751, and A ST7) meningococci. Compared to industrialised countries, the colonising meningococcal population was less constant in genotype composition over time and was genetically less diverse during the peaks of the colonisation waves, and a smaller proportion of the isolates was nonserogroupable. We observed a broad age range in the healthy carriers, resembling that of meningitis patients during large disease epidemics. Conclusions The observed lack of a temporally stable and genetically diverse resident pharyngeal flora of meningococci might contribute to the susceptibility to meningococcal disease epidemics of residents in the African meningitis belt. Because capsular conjugate vaccines are known to impact meningococcal carriage, effects on herd immunity and potential serogroup replacement should be monitored following the introduction of such vaccines. [ABSTRACT FROM AUTHOR]

Published

2007

4. Emergence of W135 meningococcal meningitis in Ghana.

Author

Forgor, Abudulai Adams, Leimkugel, Julia, Hodgson, Abraham, Bugri, Akalifa, Dangy, Jean-Pierre, Gagneux, Sébastien, Smith, Tom, and Pluschke, Gerd

Subjects

MENINGITIS, CENTRAL nervous system diseases, NEISSERIA meningitidis, DEAFNESS, EPIDEMICS

Abstract

Neisseria meningitidis serogroup W135, well known for a long time as a cause of isolated cases of meningococcal meningitis, has recently increasingly been associated with disease outbreaks of considerable magnitude. Burkina Faso was hit by W135 epidemics in the dry seasons of 2002–2004, but only four W135 meningitis cases were recorded between February 2003 and March 2004 in adjoining Ghana. This reconfirms previous findings that bottlenecks exist in the spreading of new epidemic N. meningitidis clones within the meningitis belt of sub-Saharan Africa. Of the four Ghanaian W135 meningitis patients one died and three survived, of whom one had profound neurosensory hearing loss and speech impairment. All four disease isolates were sensitive to penicillin G, chloramphenicol, ciprofloxacin and cefotaxime and had the multi-locus sequence type (ST) 11, which is the major ST of the ET-37 clonal complex. Pulsed-field gel electrophoresis (PFGE) profiles of the Ghanaian disease isolates and recent epidemic isolates from Burkina Faso were largely identical. We conducted meningococcal colonization surveys in the home communities of three of the patients and in the Kassena Nankana District located at the border to Burkina Faso. W135 carriage rates ranged between 0% and 17.5%. When three consecutive surveys were conducted in the patient community with the highest carrier rate, persistence of W135 colonization over a period of 1 year was observed. Differences in PFGE profiles of carrier isolates taken at different times in the same patient community were indicative of rapid microevolution of the W135 bacteria, emphasizing the need for innovative fine typing methods to reveal the relationship between W135 isolates. [ABSTRACT FROM AUTHOR]

Published

2005