Spatial dynamics of meningococcal meningitis in Niger: observed patterns in comparison with measles
Spatial dynamics of meningococcal meningitis in Niger: observed patterns in comparison with measles
Throughout the African meningitis belt, meningococcal meningitis outbreaks occur only during the dry season. Measles in Niger exhibits similar seasonality, where increased population density during the dry season probably escalates measles transmission. Because meningococcal meningitis and measles are both directly transmitted, we propose that host aggregation also impacts the transmission of meningococcal meningitis. Although climate affects broad meningococcal meningitis seasonality, we focus on the less examined role of human density at a finer spatial scale. By analysing spatial patterns of suspected cases of meningococcal meningitis, we show fewer absences of suspected cases in districts along primary roads, similar to measles fadeouts in the same Nigerien metapopulation. We further show that, following periods during no suspected cases, districts with high reappearance rates of meningococcal meningitis also have high measles reintroduction rates. Despite many biological and epidemiological differences, similar seasonal and spatial patterns emerge from the dynamics of both diseases. This analysis enhances our understanding of spatial patterns and disease transmission and suggests hotspots for infection and potential target areas for meningococcal meningitis surveillance and intervention
epidemiology, measles (rubeola), meningitis - bacterial, spatial modelling, vaccine-preventable diseases
1356-1365
Bharti, N.
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Broutin, H.
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Grais, R.F.
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Ferrari, M.J.
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Djibo, A.
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Tatem, A.J.
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Grenfell, B.T.
eba8efe9-8276-41b0-9cd2-387c19742080
August 2012
Bharti, N.
14714667-2a53-46e3-90fc-357a264dbdbc
Broutin, H.
8ea0298a-c497-4f52-8c30-6785b22fdc7b
Grais, R.F.
1deddd5c-6b84-4234-b7d7-cf6f398eac6d
Ferrari, M.J.
2b5afed3-3fd6-44d6-bea8-ca9c8e98d22e
Djibo, A.
4ab3f2b5-1b13-4540-a11b-64187ac12eee
Tatem, A.J.
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Grenfell, B.T.
eba8efe9-8276-41b0-9cd2-387c19742080
Bharti, N., Broutin, H., Grais, R.F., Ferrari, M.J., Djibo, A., Tatem, A.J. and Grenfell, B.T.
(2012)
Spatial dynamics of meningococcal meningitis in Niger: observed patterns in comparison with measles.
Epidemiology and Infection, 140 (8), .
(doi:10.1017/S0950268811002032).
(PMID:22009033)
Abstract
Throughout the African meningitis belt, meningococcal meningitis outbreaks occur only during the dry season. Measles in Niger exhibits similar seasonality, where increased population density during the dry season probably escalates measles transmission. Because meningococcal meningitis and measles are both directly transmitted, we propose that host aggregation also impacts the transmission of meningococcal meningitis. Although climate affects broad meningococcal meningitis seasonality, we focus on the less examined role of human density at a finer spatial scale. By analysing spatial patterns of suspected cases of meningococcal meningitis, we show fewer absences of suspected cases in districts along primary roads, similar to measles fadeouts in the same Nigerien metapopulation. We further show that, following periods during no suspected cases, districts with high reappearance rates of meningococcal meningitis also have high measles reintroduction rates. Despite many biological and epidemiological differences, similar seasonal and spatial patterns emerge from the dynamics of both diseases. This analysis enhances our understanding of spatial patterns and disease transmission and suggests hotspots for infection and potential target areas for meningococcal meningitis surveillance and intervention
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Published date: August 2012
Keywords:
epidemiology, measles (rubeola), meningitis - bacterial, spatial modelling, vaccine-preventable diseases
Organisations:
Geography & Environment, PHEW – P (Population Health)
Identifiers
Local EPrints ID: 344404
URI: http://eprints.soton.ac.uk/id/eprint/344404
ISSN: 0950-2688
PURE UUID: e851aea6-cd23-4327-bfc1-4a7a5c570845
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Date deposited: 07 Nov 2012 11:14
Last modified: 15 Mar 2024 03:43
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Contributors
Author:
N. Bharti
Author:
H. Broutin
Author:
R.F. Grais
Author:
M.J. Ferrari
Author:
A. Djibo
Author:
B.T. Grenfell
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