Literature DB >> 25545929

The spatial and seasonal distribution of Bulinus truncatus, Bulinus forskalii and Biomphalaria pfeifferi, the intermediate host snails of schistosomiasis, in N'Djamena, Chad.

Wendelin Moser1, Helena Greter1, Christian Schindler1, Fiona Allan2, Bongo N R Ngandolo3, Daugla D Moto4, Jürg Utzinger1, Jakob Zinsstag1.   

Abstract

There is a paucity of epidemiological and malacological data pertaining to schistosomiasis in Chad. In view of a recently articulated elimination agenda, a deeper understanding of the spatio-temporal distribution of schistosomiasis intermediate host snails is pivotal. We conducted cross-sectional malacological surveys during the dry season (April/May 2013) and after the short rainy season (October 2013) in N'Djamena, the capital of Chad. Snails were identified at the genus and species level using morphological keys and molecular DNA barcoding approaches. Those belonging to Bulinus and Biomphalaria were examined for cercarial shedding. Snail habitats were characterised and their predictive potential for the presence of schistosomiasis intermediate host snails explored. Seasonal patterns were studied using geographical information system and kriging in order to interpolate snail abundance data to make predictions at non-sampled locations across N'Djamena. Overall, 413 Bulinus truncatus, 369 Bulinus forskalii and 108 Biomphalaria pfeifferi snails were collected and subjected to cercarial shedding. During the dry season, one Bu. truncatus of 119 snails collected shed Schistosoma spp. cercariae (0.84%), while S. mansoni was shed by one of 108 Bi. pfeifferi snails (0.93%). None of the snails collected after the rainy season shed Schistosoma spp. cercariae. The abundance of Bu. truncatus and Bu. forskalii showed an inverse U-shape relationship with the square term of conductivity, i.e. low abundance at the lowest and highest levels of conductivity and high abundance at intermediate levels. Bi. pfeifferi showed a negative, linear association with pH in the dry seasons. It is planned to link these intermediate host snail data to infection data in human populations with the goal to draw a predictive risk map that can be utilised for control and elimination of schistosomiasis in N'Djamena.

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Year:  2014        PMID: 25545929     DOI: 10.4081/gh.2014.9

Source DB:  PubMed          Journal:  Geospat Health        ISSN: 1827-1987            Impact factor:   1.212


  14 in total

1.  Predicting the habitat suitability of Schistosoma intermediate host Bulinus truncatus, its predatory aquatic insect Odonata nymph, and the associated aquatic plant Ceratophyllum demersum using MaxEnt.

Authors:  Marwa M Mahmoud; Aly A Younes; Hanaa A El-Sherif; Fathia A Gawish; Mohamed R Habib; Mohamed Kamel
Journal:  Parasitol Res       Date:  2022-01-04       Impact factor: 2.289

Review 2.  Prevalence of Schistosoma mansoni and S. haematobium in Snail Intermediate Hosts in Africa: A Systematic Review and Meta-analysis.

Authors:  Tamirat Hailegebriel; Endalkachew Nibret; Abaineh Munshea
Journal:  J Trop Med       Date:  2020-09-07

Review 3.  Climate Change and the Neglected Tropical Diseases.

Authors:  Mark Booth
Journal:  Adv Parasitol       Date:  2018-03-28       Impact factor: 3.870

4.  Validation of a Point-of-Care Circulating Cathodic Antigen Urine Cassette Test for Schistosoma mansoni Diagnosis in the Sahel, and Potential Cross-Reaction in Pregnancy.

Authors:  Helena Greter; Stefanie J Krauth; Bongo N R Ngandolo; Idriss O Alfaroukh; Jakob Zinsstag; Jürg Utzinger
Journal:  Am J Trop Med Hyg       Date:  2015-11-10       Impact factor: 2.345

5.  Modelling the spatial and seasonal distribution of suitable habitats of schistosomiasis intermediate host snails using Maxent in Ndumo area, KwaZulu-Natal Province, South Africa.

Authors:  Tawanda Manyangadze; Moses John Chimbari; Michael Gebreslasie; Pietro Ceccato; Samson Mukaratirwa
Journal:  Parasit Vectors       Date:  2016-11-04       Impact factor: 3.876

Review 6.  Snail-borne parasitic diseases: an update on global epidemiological distribution, transmission interruption and control methods.

Authors:  Xiao-Ting Lu; Qiu-Yun Gu; Yanin Limpanont; Lan-Gui Song; Zhong-Dao Wu; Kamolnetr Okanurak; Zhi-Yue Lv
Journal:  Infect Dis Poverty       Date:  2018-04-09       Impact factor: 4.520

7.  Identifying and Predicting the Geographical Distribution Patterns of Oncomelania hupensis.

Authors:  Yingnan Niu; Rendong Li; Juan Qiu; Xingjian Xu; Duan Huang; Qihui Shao; Ying Cui
Journal:  Int J Environ Res Public Health       Date:  2019-06-21       Impact factor: 3.390

8.  Freshwater snails of biomedical importance in the Niger River Valley: evidence of temporal and spatial patterns in abundance, distribution and infection with Schistosoma spp.

Authors:  Muriel Rabone; Joris Hendrik Wiethase; Fiona Allan; Anouk Nathalie Gouvras; Tom Pennance; Amina Amadou Hamidou; Bonnie Lee Webster; Rabiou Labbo; Aidan Mark Emery; Amadou Djirmay Garba; David Rollinson
Journal:  Parasit Vectors       Date:  2019-10-22       Impact factor: 3.876

Review 9.  Challenges and Opportunities Presented by Current Techniques for Detecting Schistosome Infections in Intermediate Host Snails: A Scoping Review.

Authors:  Onyekachi Esther Nwoko; John J O Mogaka; Moses John Chimbari
Journal:  Int J Environ Res Public Health       Date:  2021-05-19       Impact factor: 3.390

Review 10.  Differentiating snail intermediate hosts of Schistosoma spp. using molecular approaches: fundamental to successful integrated control mechanism in Africa.

Authors:  Eniola Michael Abe; Wei Guan; Yun-Hai Guo; Kokouvi Kassegne; Zhi-Qiang Qin; Jing Xu; Jun-Hu Chen; Uwem Friday Ekpo; Shi-Zhu Li; Xiao-Nong Zhou
Journal:  Infect Dis Poverty       Date:  2018-03-26       Impact factor: 4.520
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