Influence of the Manager’s Characteristics on the SME Performance in Senegal

The Small and Medium-sized Entreprises (SMEs) represent the most important part of companies in all economies. In Senegal, they constitute 90% of companies, contribute to up to 30% of job creations and participate in the national value added training for up to 20%. In most of the countries, the SME is defined by the number of employees, the turnover and the investment; but what characterizes it, in particular, is the manager’s central position (Julien, 1997). It is him who assumes the responsibility for defining the vision, combining the different resources and setting up strategies to lead the SME towards performance.In Senegal, very little work basically focuses on the SME manager and namely his or her personal characteristics. The ambition of this paper is also to study the manager’s characteristics which influence the performance of his company. It is based on the theoretical framework of the Upper Echelons Theory (UET) developed by Hambrick and Mason (1984).The results which are obtained from a sample of 202 Senegalese SMEs show that the manager’s characteristics namely the age and the high level of education have a positive impact on the SMEs performance

Workshop on mobile laboratories deployed in the Ebola outbreak in West-Africa 2014-2015

First paragraph: Ebola virus disease (EVD) is a haemorrhagic fever caused by Ebola virus (EBOV) with high infectivity and mortality. EBOV is an enveloped, single-stranded, and negative-sense RNA virus belonging to the Filoviridae family. In contrast to the genus Marburgvirus which contains one single species, the genus Ebolavirus contains 5 species: Zaire ebolavirus (ZEBOV), Sudan ebolavirus (SUDV), Taï Forest ebolavirus (TAFV), Bundibugyo ebolavirus (BDBV) which are pathogenic for humans, and Reston Ebolavirus (RESTV) which infects non human primates. EBOV was first discovered in 1976 in the Democratic Republic of Congo (DRC) and simultaneously in Sudan. Since 1976, EVD has appeared sporadically in DRC, Sudan, Gabon, Uganda, and Congo, with small to large outbreaks and lethality ranging from 50 to 100% with about 2500 cumulative cases until 2013

Quantitative real-time PCR detection of Zika virus and evaluation with field-caught mosquitoes

BACKGROUND Zika virus (ZIKV), a mosquito borne flavivirus is a pathogen affecting humans in Asia and Africa. ZIKV infection diagnosis relies on serology-which is challenging due to cross-reactions with other flaviviruses and/or absence or low titer of IgM and IgG antibodies at early phase of infection- virus isolation, which is labor intensive, time consuming and requires appropriate containment. Therefore, real-time RT-PCR (rRT-PCR) is an appealing option as a rapid, sensitive and specific method for detection of ZIKV in the early stage of infection. So far, only one rRT-PCR assay has been described in the context of the outbreak in Micronesia in 2007. In this study, we described a one step rRT-PCR for ZIKV which can detect a wider genetic diversity of ZIKV isolates from Asia and Africa. RESULTS The NS5 protein coding regions of African ZIKV isolates were sequenced and aligned with representative flaviviruses sequences from GenBank to design primers and probe from conserved regions. The analytical sensitivity of the assay was evaluated to be 32 genome-equivalents and 0.05 plaque forming unit (pfu). The assay was shown to detect 37 ZIKV isolates covering a wide geographic in Africa and Asia over 36 years but none of the 31 other flaviviruses tested showing high analytical specificity. The rRT-PCR could be performed in less than 3 hours. This method was used successfully to detect ZIKV strains from field-caught mosquitoes. CONCLUSION We have developed a rapid, sensitive and specific rRT-PCR for detection of ZIKV. This assay is a useful tool for detection of ZIKV infection in regions where a number of other clinically indistinguishable arboviruses like dengue or chikungunya co-circulate. Further studies are needed to validate this assay in clinical positive samples collected during acute ZIKV infection

Analyse De La Pluviométrie Dans Les Rivières Du Sud : Cas De La Basse Casamance (Sénégal) Au Rio Gêba En République De Guinée

La pluviométrie est une variable climatique fréquemment utilisée pour étudier l’évolution du climat en Afrique tropicale. Les études récentes basées sur ce paramètre ont révélé une forte fluctuation de celui-ci en Afrique de l’ouest. Cette variabilité se traduit par la récurrence de la sécheresse et la migration vers le sud des isohyètes entrainant une « sahélisation » des zones soudaniennes. Ce glissement climatique est surtout noté à la fin des années 1960 traduisant un changement dans les lois de distribution des variables hydro-pluviométriques.L’objectif de cette étude consiste à mieux appréhender l’évolution de la pluviométrie dans la partie septentrionale des Rivières du Sud à travers l’indice Pluviométrique Standardisé (IPS), les tests de Pettitt et de Mann-Kendall. Il ressort des résultats de l’IPS une légère supériorité des années sèches par rapport aux années humides à Ziguinchor (20% années sèches contre 14% années humides) et à Cap Skiring avec 22% d’années sèches contre 20% d’années humides. A la station de Bissau, le nombre d’année humide est proportionnel aux années sèches (18%). Cela se traduit, selon le test de Pettitt, par une absence de rupture à Bissau et la présence de ruptures à Ziguinchor en 2004 et à Cap Skiring en 1976. Le test de Mann-Kendall révèle que seule la station de Cap Skiring présente une hypothèse alternative Ha. La p-value (0,006) étant inférieure au seuil alpha (0,05), le test affiche une tendance dans la série

Full-genome characterization and genetic evolution of West African isolates of Bagaza virus

Bagaza virus is a mosquito-borne flavivirus, first isolated in 1966 in Central African Republic. It has currently been identified in mosquito pools collected in the field in West and Central Africa. Emergence in wild birds in Europe and serological evidence in encephalitis patients in India raise questions on its genetic evolution and the diversity of isolates circulating in Africa. To better understand genetic diversity and evolution of Bagaza virus, we describe the full-genome characterization of 11 West African isolates, sampled from 1988 to 2014. Parameters such as genetic distances, N-glycosylation patterns, recombination events, selective pressures, and its codon adaptation to human genes are assessed. Our study is noteworthy for the observation of N-glycosylation and recombination in Bagaza virus and provides insight into its Indian origin from the 13th century. Interestingly, evidence of Bagaza virus codon adaptation to human house-keeping genes is also observed to be higher than those of other flaviviruses well known in human infections. Genetic variations on genome of West African Bagaza virus could play an important role in generating diversity and may promote Bagaza virus adaptation to other vertebrates and become an important threat in human health

Deployment of the Institut Pasteur de Dakar team to Guinea in the Ebola virus Disease outbreak in West-Africa 2014-2016

First paragraph: The unit of Arbovirus and Haemorrhagic Fever Viruses at the Institut Pasteur de Dakar (IPD), a WHO-approved collaborating Centre was the first laboratory deployed to Conakry in the Ebola virus disease (EVD) outbreak in West-Africa. On 20 March 2014, the IPD laboratory received a letter from the WHO and the Guinean Ministry of Health, informing about a suspected haemorrhagic fever outbreak and difficulties to send collected samples to IPD. They therefore requested the deployment of experts to Guinea for technical support in order to diagnose the haemorrhagic fever of unknown origin. The outbreak was identified by the Institut Pasteur (France) on 21 March 2014 [1,2] in samples shipped to France by a Médecins sans Frontières investigation team

Randomized Trial of Piperaquine with Sulfadoxine-Pyrimethamine or Dihydroartemisinin for Malaria Intermittent Preventive Treatment in Children

BACKGROUND: The long terminal half life of piperaquine makes it suitable for intermittent preventive treatment for malaria but no studies of its use for prevention have been done in Africa. We did a cluster randomized trial to determine whether piperaquine in combination with either dihydroartemisin (DHA) or sulfadoxine-pyrimethamine (SP) is as effective, and better tolerated, than SP plus amodiaquine (AQ), when used for intermittent preventive treatment in children delivered by community health workers in a rural area of Senegal. METHODS: Treatments were delivered to children 3-59 months of age in their homes once per month during the transmission season by community health workers. 33 health workers, each covering about 60 children, were randomized to deliver either SP+AQ, DHA+PQ or SP+PQ. Primary endpoints were the incidence of attacks of clinical malaria, and the incidence of adverse events. RESULTS: 1893 children were enrolled. Coverage of monthly rounds and compliance with daily doses was similar in all groups; 90% of children received at least 2 monthly doses. Piperaquine combinations were better tolerated than SP+AQ with a significantly lower risk of common, mild adverse events. 103 episodes of clinical malaria were recorded during the course of the trial. 68 children had malaria with parasitaemia >3000/microL, 29/671 (4.3%) in the SP+AQ group, compared with 22/604 (3.6%) in the DHA+PQ group (risk difference 0.47%, 95%CI -2.3%,+3.3%), and 17/618 (2.8%) in the SP+PQ group (risk difference 1.2%, 95%CI -1.3%,+3.6%). Prevalences of parasitaemia and the proportion of children carrying Pfdhfr and Pfdhps mutations associated with resistance to SP were very low in all groups at the end of the transmission season. CONCLUSIONS: Seasonal IPT with SP+PQ in children is highly effective and well tolerated; the combination of two long-acting drugs is likely to impede the emergence of resistant parasites. TRIAL REGISTRATION: ClinicalTrials.gov NCT00529620

Changes in the Transmission Dynamic of Chikungunya Virus in Southeastern Senegal.

In Senegal, chikungunya virus (CHIKV) is maintained in a sylvatic cycle and causes sporadic cases or small outbreaks in rural areas. However, little is known about the influence of the environment on its transmission. To address the question, 120 villages were randomly selected in the Kedougou region of southeastern Senegal. In each selected village, 10 persons by randomly selected household were sampled and tested for specific anti-CHIKV IgG antibodies by ELISA. We investigated the association of CHIKV seroprevalence with environmental variables using logistic regression analysis and the spatial correlation of village seroprevalence based on semivariogram analysis. Fifty-four percent (51%-57%) of individuals sampled during the survey tested positive for CHIKV-specific IgG. CHIKV seroprevalence was significantly higher in populations living close to forested areas (Normalized Difference Vegetation Index (NDVI), Odds Ratio (OR) = 1.90 (1.42-2.57)), and was negatively associated with population density (OR = 0.76 (0.69-0.84)). In contrast, in gold mining sites where population density was >400 people per km2, seroprevalence peaked significantly among adults (46% (27%-67%)) compared to all other individuals (20% (12%-31%)). However, traditional gold mining activities significantly modify the transmission dynamic of CHIKV, leading to a potential increase of the risk of human exposition in the region