125 research outputs found
Modeling Diapause Termination of Rhipicephalus Appendiculatus using Statistical Tools to Detect Sudden Behavioral Changes and Time Dependencies
The Disease Burden of Taenia solium Cysticercosis in Cameroon
Taenia solium cysticercosis is a zoonotic disease occurring in many developing countries. A relatively high prevalence in humans and pigs has been reported in several parts of the world, but insufficient data are available on the disease burden. Disease impact assessment needs detailed information on well-defined epidemiological and economic parameters. Our work conducted in West Cameroon over several years allowed us to collect the necessary information to estimate the impact of the parasite on the human and animal populations in this area using both cost and Disability Adjusted Life Year (DALY) estimations. This study identified the professional inactivity caused by the disease as the major loss factor in comparison to the cost of health care and losses due to infected pigs. These findings should allow a simpler estimation of the global disease burden based on information on salary levels and human cysticercosis prevalence in endemic areas of the world. In addition, the number of DALYs lost was higher than estimates already available for some other neglected tropical diseases in sub-Saharan Africa
Raising the political profile of the neglected zoonotic diseases: three complementary European commission-funded projects to streamline research, build capacity and advocate for control
Construção e evidĂȘncias de validade de duas escalas de percepção de desenvolvimento profissional
Genetic and antigenic variation of the bovine tick-borne pathogen Theileria parva in the Great Lakes region of Central Africa
BACKGROUND : Theileria parva causes East Coast fever (ECF), one of the most economically important tick-borne diseases
of cattle in sub-Saharan Africa. A live immunisation approach using the infection and treatment method (ITM)
provides a strong long-term strain-restricted immunity. However, it typically induces a tick-transmissible carrier state
in cattle and may lead to spread of antigenically distinct parasites. Thus, understanding the genetic composition of T.
parva is needed prior to the use of the ITM vaccine in new areas. This study examined the sequence diversity and the
evolutionary and biogeographical dynamics of T. parva within the African Great Lakes region to better understand the
epidemiology of ECF and to assure vaccine safety. Genetic analyses were performed using sequences of two antigencoding
genes, Tp1 and Tp2, generated among 119 T. parva samples collected from cattle in four agro-ecological zones
of DRC and Burundi.
RESULTS : The results provided evidence of nucleotide and amino acid polymorphisms in both antigens, resulting
in 11 and 10 distinct nucleotide alleles, that predicted 6 and 9 protein variants in Tp1 and Tp2, respectively. Theileria
parva samples showed high variation within populations and a moderate biogeographical sub-structuring due to the
widespread major genotypes. The diversity was greater in samples from lowlands and midlands areas compared to
those from highlands and other African countries. The evolutionary dynamics modelling revealed a signal of selective
evolution which was not preferentially detected within the epitope-coding regions, suggesting that the observed
polymorphism could be more related to gene flow rather than recent host immune-based selection. Most alleles
isolated in the Great Lakes region were closely related to the components of the trivalent Muguga vaccine.
CONCLUSIONS : Our findings suggest that the extensive sequence diversity of T. parva and its biogeographical distribution
mainly depend on host migration and agro-ecological conditions driving tick population dynamics. Such
patterns are likely to contribute to the epidemic and unstable endemic situations of ECF in the region. However, the fact that ubiquitous alleles are genetically similar to the components of the Muguga vaccine together with the limited
geographical clustering may justify testing the existing trivalent vaccine for cross-immunity in the region.Additional file 1: Table S1. Cattle blood sample distribution across agroecological
zones.Additional file 2: Table S2. Nucleotide and amino acid sequences of Tp1
and Tp2 antigen epitopes from T. parva Muguga reference sequence.Additional file 3: Table S3. Characteristics of 119 T. parva samples
obtained from cattle in different agro-ecological zones (AEZs) of The
Democratic Republic of Congo and Burundi.Additional file 4: Figure S1. Multiple sequence alignment of the 11 Tp1
gene alleles obtained in this study.Additional file 5: Table S4. Estimates of evolutionary divergence
between gene alleles for Tp1 and Tp2, using proportion nucleotide
distance.Additional file 6: Table S5. Tp1 and Tp2 genes alleles with their corresponding
antigen variants.Additional file 7: Table S6. Amino acid variants of Tp1 and Tp2 CD8+
T
cell target epitopes of T. parva from DRC and Burundi.Additional file 8: Figure S2. Multiple sequence alignment of the 10 Tp2
gene alleles obtained in this study.Additional file 9: Table S7. Distribution of Tp1 gene alleles of T. parva
from cattle and buffalo in the sub-Saharan region of Africa.Additional file 10: Table S8. Distribution of Tp2 gene alleles of T. parva
from cattle and buffalo in the sub-Saharan region of Africa.Additional file 11: Figure S3. Neighbor-joining tree showing phylogenetic
relationships among 48 Tp1 gene alleles described in Africa.Additional file 12: Figure S4. Phylogenetic tree showing the relationships
among concatenated Tp1 and Tp2 nucleotide sequences of 93 T.
parva samples from cattle in DRC and Burundi.This study is part of the PhD work supported by the University of Namur (UNamur,
Belgium) through the UNamur-CERUNA institutional PhD grant awarded
to GSA for bioinformatic analyses, interpretation of data and manuscript write
up in Belgium. The laboratory aspects (molecular biology analysis) of the
project were supported by the BecA-ILRI Hub through the Africa Biosciences
Challenge Fund (ABCF) programme. The ABCF Programme is funded by
the Australian Department for Foreign Affairs and Trade (DFAT) through the
BecA-CSIRO partnership; the Syngenta Foundation for Sustainable Agriculture
(SFSA); the Bill & Melinda Gates Foundation (BMGF); the UK Department for International Development (DFID); and the Swedish International Development
Cooperation Agency (Sida). The ABCF Fellowship awarded to GAS was
funded by BMGF grant (OPP1075938). Sample collection, field equipment and
preliminary sample processing were supported through the âTheileriaâ project
co-funded to the Université Evangélique en Afrique (UEA) by the Agence
Universitaire de la Francophonie (AUF) and the Communauté Economique
des Pays des Grands Lacs (CEPGL). The International Foundation for Science
(IFS, Stockholm, Sweden) supported the individual scholarship awarded to
GSA (grant no. IFS-92890CA3) for field work and part of field equipment to the
âTheileriaâ project.http://www.parasitesandvectors.comam2020Veterinary Tropical Disease
The harlequin ladybird, Harmonia axyridis: global perspectives on invasion history and ecology
The harlequin ladybird, Harmonia axyridis (Pallas) (Coleoptera: Coccinellidae), is native to Asia but has been intentionally introduced to many countries as a biological control agent of pest insects. In numerous countries, however, it has been introduced unintentionally. The dramatic spread of H. axyridis within many countries has been met with considerable trepidation. It is a generalist top predator, able to thrive in many habitats and across wide climatic conditions. It poses a threat to biodiversity, particularly aphidophagous insects, through competition and predation, and in many countries adverse effects have been reported on other species, particularly coccinellids. However, the patterns are not consistent around the world and seem to be affected by many factors including landscape and climate. Research on H. axyridis has provided detailed insights into invasion biology from broad patterns and processes to approaches in surveillance and monitoring. An impressive number of studies on this alien species have provided mechanistic evidence alongside models explaining large-scale patterns and processes. The involvement of citizens in monitoring this species in a number of countries around the world is inspiring and has provided data on scales that would be otherwise unachievable. Harmonia axyridis has successfully been used as a model invasive alien species and has been the inspiration for global collaborations at various scales. There is considerable scope to expand the research and associated collaborations, particularly to increase the breadth of parallel studies conducted in the native and invaded regions. Indeed a qualitative comparison of biological traits across the native and invaded range suggests that there are differences which ultimately could influence the population dynamics of this invader. Here we provide an overview of the invasion history and ecology of H. axyridis globally with consideration of future research perspectives. We reflect broadly on the contributions of such research to our understanding of invasion biology while also informing policy and people
Re-assessment of tick control after immunization against East Coast Fever in the Eastern Province of Zambia
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