Your search keyword '"Amadou Alpha Sall"' showing total 120 results

1. Case report: Kinetics of viral load, immunoglobulins, and cytokines in a fatal case of Crimean-Congo hemorrhagic fever virus

Author

Moufid Mhamadi, Ousseynou Sene, Arfang Diamanka, Moundhir Mhamadi, Marie Pedapa Mendy, Andy Mahine Diouf, Mignane Ndiaye, Mamadou Aliou Barry, Samba Niang Sagne, Mahfouz Cissé Traoré, Amadou Alpha Sall, Gamou Fall, Ndongo Dia, and Oumar Faye

Subjects

CCHFV, biomarkers, viremia, immunoglobulins, cytokines, severity, Microbiology, QR1-502

Abstract

A fatal case of Crimean-Congo hemorrhagic fever virus (CCHFV) was detected in Dakar, Senegal, West Africa, in April 2023. To elucidate the mechanisms involved in this outcome, the kinetics of viral load, immunoglobulins, and cytokines were assessed using RT-qPCR and ELISA. A high IL-6 titer, low IL-10 titer, and delayed IgG response were associated with disease severity. These biomarkers may serve as predictors of disease severity, potentially aiding in early intervention and treatment strategies.

Published

2025

2. Molecular epidemiology and pathogenicity of Wesselsbron virus circulating in Africa

Author

Martin Faye, Nicholas Di Paola, Moussa Dia, Amadou Alpha Sall, and Ousmane Faye

Subjects

Wesselsbron virus, Molecular epidemiology, Pathogenicity, Tropism West Africa, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Wesselsbron is a neglected, mosquito-borne zoonotic disease transmitted by several species of virus-infected Aedes mosquitoes endemic to tropical regions in Africa. It affects primarily domestic livestock species with teratogenic effects, but can jump to humans. Herein, we investigated the molecular epidemiology of Wesselsbron virus in Africa using whole genome sequencing and structural analysis, and assessed its pathogenicity and tropism through in vivo experiments. A total of twenty-five isolates collected from three countries were successfully characterized. Our study is noteworthy by identifying, for the first time, inter-clade recombination events on the genome of Wesselsbron virus. However, more investigations on the precise molecular mechanisms conducting the occurrence of recombination on the genome of Wesselsbron virus, are warranted. The identification of polymorphisms on motifs of virulence and selection pressures on major proteins showed evidence of genetic evolution for Wesselsbron virus. The clade 1 was more pathogenic and neurotropic in suckling mice and the intramuscular route was found to be the best transmission mode. Our findings also provide new insights in the pathogenicity and tropism of Wesselsbron virus, which could be useful for prevention, preparedness and future outbreak response. Considering its high prevalence in mosquito populations and the increasing number of sporadic human cases, Wesselsbron virus merits more attention in terms of prevention and preparedness, as its mosquito vectors continue to globally expand and there is no vaccine.

Published

2024

3. Genomic characterization of a reemerging Chikungunya outbreak in Kedougou, Southeastern Senegal, 2023

Author

Idrissa Dieng, Bacary Djilocalisse Sadio, Alioune Gaye, Samba Niang Sagne, Marie Henriette Dior Ndione, Mouhamed Kane, Mamadou Korka Diallo, Bocar Sow, Safietou Sankhe, Ousseynou Sene, Amadou Diallo, Madeleine Dieng, Serge Freddy Moukaha Doukanda, Maimouna Mbanne, Seynabou Mbaye Ba Souna Diop, Diamilatou Balde, Mignane Ndiaye, Khalidou Djibril Sow, Maryam Diarra, Abdoulaye Sam, Ababacar Mbaye, Boubacar Diallo, Yoro Sall, Ousmane Faye, Boly Diop, Abdourahmane Sow, Amadou Alpha Sall, Cheikh Loucoubar, Ndongo Dia, Oumar Faye, Diawo Diallo, Gamou Fall, Scott C. Weaver, Mamadou Aliou Barry, Mawlouth Diallo, and Moussa Moise Diagne

Subjects

Chikungunya, Kedougou, Southeastern Senegal, outbreak, genomic characterization, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Chikungunya virus has caused millions of cases worldwide over the past 20 years, with recent outbreaks in Kedougou region in the southeastern Senegal, West Africa. Genomic characterization highlights that an ongoing epidemic in Kedougou in 2023 is not due to an introduction event but caused by the re-emergence of an endemic strain evolving linearly in a sylvatic context.

Published

2024

4. An amplicon-based sequencing approach for Usutu virus characterization

Author

Marie Henriette Dior Ndione, Moussa Moïse Diagne, Giulia Mencattelli, Amadou Diallo, El Hadji Ndiaye, Marco Di Domenico, Diawo Diallo, Mouhamed Kane, Valentina Curini, Ndeye Marieme Top, Maurilia Marcacci, Safiétou Sankhe, Massimo Ancora, Barbara Secondini, Valeria Di Lollo, Liana Teodori, Alessandra Leone, Ilaria Puglia, Alioune Gaye, Amadou Alpha Sall, Cheikh Loucoubar, Roberto Rosà, Mawlouth Diallo, Federica Monaco, Ousmane Faye, Cesare Cammà, Annapaola Rizzoli, Giovanni Savini, and Oumar Faye

Subjects

Usutu virus, Next-generation sequencing, Amplicon-based sequencing, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Usutu virus (USUV), an arbovirus from the Flaviviridae family, genus Flavivirus, has recently gained increasing attention because of its potential for emergence. After his discovery in South Africa, USUV spread to other African countries, then emerged in Europe where it was responsible for epizootics. The virus has recently been found in Asia. USUV infection in humans is considered to be most often asymptomatic or to cause mild clinical signs. However, a few cases of neurological complications such as encephalitis or meningo-encephalitis have been reported in both immunocompromised and immunocompetent patients. USUV natural life cycle involves Culex mosquitoes as its main vector, and multiple bird species as natural viral reservoirs or amplifying hosts, humans and horses can be incidental hosts. Phylogenetic studies carried out showed eight lineages, showing an increasing genetic diversity for USUV. This work describes the development and validation of a novel whole-genome amplicon-based sequencing approach to Usutu virus. This study was carried out on different strains from Senegal and Italy. The new approach showed good coverage using samples derived from several vertebrate hosts and may be valuable for Usutu virus genomic surveillance to better understand the dynamics of evolution and transmission of the virus.

Published

2024

5. Reemergence of Sylvatic Dengue Virus Serotype 2 in Kedougou, Senegal, 2020

Author

Idrissa Dieng, Maryam Diarra, Bacary Djilocalisse Sadio, Bocar Sow, Alioune Gaye, Amadou Diallo, Martin Faye, Marie Henriette Dior Ndione, Diawo Diallo, Safietou Sankhe, Mignane Ndiaye, Fode Danfakha, Boly Diop, Amadou Alpha Sall, Gamou Fall, Oumar Faye, Cheikh Loucoubar, Ousmane Faye, Scott C. Weaver, Mawlouth Diallo, Mamadou Aliou Barry, and Moussa Moise Diagne

Subjects

sylvatic dengue virus serotype 2, dengue, outbreak, mosquito, vector-borne infections, viruses, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

In 2020, a sylvatic dengue virus serotype 2 infection outbreak resulted in 59 confirmed dengue cases in Kedougou, Senegal, suggesting those strains might not require adaptation to reemerge into urban transmission cycles. Large-scale genomic surveillance and updated molecular diagnostic tools are needed to effectively prevent dengue virus infections in Senegal.

Published

2024

6. Establishment of a New Real-Time Molecular Assay for the Detection of Babanki Virus in Africa

Author

Martin Faye, Mathilde Ban, Fatou Kiné Top, El Hadji Ndiaye, Fatou Diène Thiaw, Gamou Fall, Moussa Moise Diagne, Amadou Alpha Sall, Mawlouth Diallo, Valérie Choumet, and Ousmane Faye

Subjects

Babanki virus, molecular diagnostic, qRT-PCR, Africa, Microbiology, QR1-502

Abstract

Babanki virus is a subtype of the Sindbis virus, a widespread arthropod-borne alphavirus circulating in Eurasia, Africa, and Oceania. Characterized by rashes and arthritis, clinical infections due to Sindbis were mainly reported in Africa, Australia, Asia, and Europe. However, its sub-type, Babanki virus, was reported in Northern Europe and Africa, where its epidemiology potential remains poorly understood. The diagnosis of alphaviruses is mainly based on serological testing and conventional PCR methods, which have considerable limits. In this study, we developed a real-time qRT-PCR assay for the detection of Babanki virus. The analytical sensitivity and specificity of the newly established assay were evaluated using in vitro standard RNA and related viruses relevant to the African context, respectively. In addition, its diagnostic sensitivity was assessed using a subset of Babanki virus-positive and -negative mosquito pools collected from the field. The new real-time qRT-PCR assay exhibited a 100% specificity, a 95% detection limit of 1 RNA molecule/reaction, and a diagnostic sensitivity of up to 120 pfu/reaction. This newly established assay could be useful not only for the detection of Babanki virus during epidemics but also in future experimental and surveillance studies focusing on their epidemiology and pathogenicity.

Published

2024

7. Recent Molecular Epidemiology of Echovirus 11 Throughout North and West Africa Resulted in the First Identification of a Recombinant Strain from an Acute Flaccid Paralysis Case in West Africa

Author

Ndack Ndiaye, Fatou Diène Thiaw, Adamou Lagare, Thérèse Sinare, Mohamed Lemine Diakité, Serigne Fallou Mbacké Ngom, Ousmane Kébé, Issifi Kollo Abdoulkader, Gassim Cissé, Mohamed Dia, Hermann Nodji Djimadoum, Christelle Ouedraogo Neya, Rakia Boubakar, Issaka Ouedraogo, Landoh Dadja Essoya, Ndongo Dia, Amadou Alpha Sall, Ousmane Faye, and Martin Faye

Subjects

enterovirus, echovirus E11, genomic sequencing, recombination, phylogeography, West Africa, Microbiology, QR1-502

Abstract

Echovirus 11 has emerged as a major public health concern, causing sepsis in neonates in many European countries in recent years. In Africa, especially West Africa, where resources and diagnostic capacities are limited, only sporadic cases have been reported. To better understand the recent molecular epidemiology of E11 in West Africa, we characterized twenty-three echovirus 11 strains isolated through the acute flaccid paralysis and environmental surveillance systems for polio from 2013 to 2023, using high-throughput sequencing. Our data are noteworthy due to identifying for the first time a recombinant strain from an acute flaccid paralysis case and represent the first focus to date on molecular characterization of echovirus 11 in West Africa. Moreover, our data show that echovirus 11 diverged from 1970 (95% HPD range, 1961–1979) and evolved into four distinct clades, with the virus spread from West Africa to Europe, exhibiting two introductions in France around 2017, from Senegal and Guinea. Furthermore, the in silico analysis reveals four non-conservative amino acid substitutions in the VP1 sequences of the European strains associated with neonatal sepsis in newborns and a conserved amino acid motif in the VP1 protein toward enterovirus genotypes. Our data provide new insights into the epidemiology of echovirus 11 and point to the crucial need to implement specific surveillance programs targeting non-polio enteroviruses for the rapid identification of emerging or re-emerging enterovirus species, particularly in Africa.

Published

2024

8. Non-polio enteroviruses circulation in acute flaccid paralysis cases and sewage in Senegal from 2013 to 2021

Author

Ndack Ndiaye, Ousmane Kébé, Maryam Diarra, Fatou Diène Thiaw, Mohamed Dia, NDongo Dia, Amadou Alpha Sall, Malick Fall, Ousmane Faye, and Martin Faye

Subjects

Acute flaccid paralysis, Environment, Non-polio enteroviruses, Genetic diversity, Senegal, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Several factors can cause acute flaccid paralysis cases including non-polio enteroviruses. In Senegal, few studies on non-polio enteroviruses (NPEV) have been performed. Methods: Our study assess the molecular epidemiology of non-polio enteroviruses in Senegal from 2013 to 2021 through the previously existing programs for surveillance of polioviruses. Results: A total of 3815 stool samples and 281 sewage samples were collected. After virus isolation by cell culture, non-polio enteroviruses-positive isolates were confirmed by reverse transcriptase-quantitative polymerase chain reaction. Following this detection, the positive samples were subjected to molecular characterization. Our data showed that 15.22% and 52.66% were positive in cell culture for non-polio enteroviruses in acute flaccid paralysis surveillance and environmental surveillance, respectively. These non-polio enteroviruses-positive isolates were detected all year round but tend to unequal peaks of circulation, and the age group 0-5 years was more vulnerable to infection (84.4%). Genetic characterization revealed the circulation of enteroviruses species infecting humans (Enterovirus A – Enterovirus D): Enterovirus A (29.2%) and Enterovirus B (63.1%) isolates from both the acute flaccid paralysis surveillance and environmental surveillance while Enterovirus C (5.3%) and Enterovirus D (2.4%) were only isolated from the acute flaccid paralysis surveillance. However, the highly prevalent Enterovirus B species from the acute flaccid paralysis surveillance included echovirus 7 and echovirus 13, whereas coxsackievirus A6 was the predominant species from the environmental surveillance. Conclusion: This first 8-year period study of NPEV in Senegal showed that NPEV represent important viral etiologies associated with acute flaccid paralysis cases and circulating in environmental surveillance in Senegal and highlighted the need to promote effective long-term strategies for monitoring of non-polio enteroviruses infections.

Published

2024

9. Shifting Patterns of Influenza Circulation during the COVID-19 Pandemic, Senegal

Author

Alexandre Lampros, Cheikh Talla, Maryam Diarra, Billo Tall, Samba Sagne, Mamadou Korka Diallo, Boly Diop, Ibrahim Oumar, Ndongo Dia, Amadou Alpha Sall, Mamadou Aliou Barry, and Cheikh Loucoubar

Subjects

Influenza, COVID-19, SARS-CoV-2, viruses, respiratory infections, severe acute respiratory syndrome coronavirus 2, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Historically low levels of seasonal influenza circulation were reported during the first years of the COVID-19 pandemic and were mainly attributed to implementation of nonpharmaceutical interventions. In tropical regions, influenza’s seasonality differs largely, and data on this topic are scarce. We analyzed data from Senegal’s sentinel syndromic surveillance network before and after the start of the COVID-19 pandemic to assess changes in influenza circulation. We found that influenza shows year-round circulation in Senegal and has 2 distinct epidemic peaks: during January–March and during the rainy season in August–October. During 2021–2022, the expected January–March influenza peak completely disappeared, corresponding to periods of active SARS-CoV-2 circulation. We noted an unexpected influenza epidemic peak during May–July 2022. The observed reciprocal circulation of SARS-CoV-2 and influenza suggests that factors such as viral interference might be at play and should be further investigated in tropical settings.

Published

2023

10. Aetiology of non-malaria acute febrile illness fever in children in rural Guinea-Bissau: a prospective cross-sectional investigation

Author

Rui Gutierrez, Mariana Landa, Masse Sambou, Hubert Bassane, Ndongo Dia, Alfa Saliu Djalo, Chiara Domenichini, Gamou Fall, Martin Faye, Ousmane Faye, Maria-Dolores Fernandez-Garcia, Laurence Flevaud, Jerlie Loko, Oleg Mediannikov, Valerie Mize, Kader Ndiaye, Mbayame Niang, Didier Raoult, Merce Rocaspana, Susana Villen, Amadou Alpha Sall, and Florence Fenollar

Subjects

fever, paediatrics, non-malaria acute febrile illness (NMAFI), West Africa, aetiology, Infectious and parasitic diseases, RC109-216

Abstract

BackgroundWith growing use of parasitological tests to detect malaria and decreasing incidence of the disease in Africa; it becomes necessary to increase the understanding of causes of non-malaria acute febrile illness (NMAFI) towards providing appropriate case management. This research investigates causes of NMAFI in pediatric out-patients in rural Guinea-Bissau.MethodsChildren 0–5 years presenting acute fever (≥38°) or history of fever, negative malaria rapid diagnostic test (mRDT) and no signs of specific disease were recruited at the out-patient clinic of 3 health facilities in Bafatá province during 54 consecutive weeks (dry and rainy season). Medical history was recorded and blood, nasopharyngeal, stool and urine samples were collected and tested for the presence of 38 different potential aetiological causes of fever.ResultsSamples from 741 children were analysed, the protocol was successful in determining a probable aetiological cause of acute fever in 544 (73.61%) cases. Respiratory viruses were the most frequently identified pathogens, present in the nasopharynx samples of 435 (58.86%) cases, followed by bacteria detected in 167 (22.60%) samples. Despite presenting negative mRDTs, P. falciparum was identified in samples of 24 (3.25%) patients.ConclusionsThis research provides a description of the aetiological causes of NMAFI in West African context. Evidence of viral infections were more commonly found than bacteria or parasites.

Published

2024

11. Molecular Detection and Genetic Characterization of Two Dugbe Orthonairovirus Isolates Detected from Ticks in Southern Senegal

Author

Mignane Ndiaye, Aminata Badji, Idrissa Dieng, Anna S. Dolgova, Moufid Mhamadi, Anastasiia D. Kirichenko, Anna S. Gladkikh, Alioune Gaye, Ousmane Faye, Amadou Alpha Sall, Mawlouth Diallo, Vladimir G. Dedkov, and Oumar Faye

Subjects

Dugbe orthonairovirus, ticks, phylogenetic analysis, Senegal, sequencing, Microbiology, QR1-502

Abstract

Dugbe virus (DUGV) is a tick-borne arbovirus first isolated in Nigeria in 1964. It has been detected in many African countries using such diverse methods as serological tests, virus isolation, and molecular detection. In Senegal, reports of DUGV isolates mainly occurred in the 1970s and 1980s. Here, we report a contemporary detection of three novel DUGV isolates upon screening of a total of 2877 individual ticks regrouped into 844 pools. The three positive pools were identified as Amblyomma variegatum, the main known vector of DUGV, collected in the southern part of the country (Kolda region). Interestingly, phylogenetic analysis indicates that the newly sequenced isolates are globally related to the previously characterized isolates in West Africa, thus highlighting potentially endemic, unnoticed viral transmission. This study was also an opportunity to develop a rapid and affordable protocol for full-genome sequencing of DUGV using nanopore technology. The results suggest a relatively low mutation rate and relatively conservative evolution of DUGV isolates.

Published

2024

12. Re-Emergence of Rift Valley Fever Virus Lineage H in Senegal in 2022: In Vitro Characterization and Impact on Its Global Emergence in West Africa

Author

Ousseynou Sene, Samba Niang Sagne, Ndeye Sakha Bob, Moundhir Mhamadi, Idrissa Dieng, Aboubacry Gaye, Haoua Ba, Moussa Dia, Elisabeth Thérèse Faye, Sokhna Mayemouna Diop, Yoro Sall, Boly Diop, Mamadou Ndiaye, Cheikh Loucoubar, Etienne Simon-Lorière, Anavaj Sakuntabhai, Ousmane Faye, Amadou Alpha Sall, Diawo Diallo, Ndongo Dia, Oumar Faye, Moussa Moise Diagne, Malick Fall, Marie Henriette Dior Ndione, Mamadou Aliou Barry, and Gamou Fall

Subjects

Rift Valley fever, re-emergence, lineage H, in vitro characterization, Senegal, 2022, Microbiology, QR1-502

Abstract

Rift Valley fever (RVF) is a re-emerging vector-borne zoonosis with a high public health and veterinary impact. In West Africa, many lineages were previously detected, but since 2020, lineage H from South Africa has been the main cause of the outbreaks. In this study, clinical samples collected through national surveillance were screened for RVF virus (RVFV) acute infection by RT-PCR and IgM ELISA tests. Sequencing, genome mapping and in vitro phenotypic characterization in mammal cells were performed on RT-PCR positive samples in comparison with other epidemic lineages (G and C). Four RVFV human cases were detected in Senegal and the sequence analyses revealed that the strains belonged to lineage H. The in vitro kinetics and genome mapping showed different replication efficiency profiles for the tested RVFV lineages and non-conservative mutations, which were more common to lineage G or specific to lineage H. Our findings showed the re-emergence of lineage H in Senegal in 2022, its high viral replication efficiency in vitro and support the findings that genetic diversity affects viral replication. This study gives new insights into the biological properties of lineage H and calls for deeper studies to better assess its potential to cause a future threat in Senegal.

Published

2024

13. Linear epitope mapping of the humoral response against SARS-CoV-2 in two independent African cohorts

Author

Inès Vigan-Womas, Jean-Louis Spadoni, Thomas Poiret, Fabien Taïeb, Fanirisoa Randrianarisaona, Rokhaya Faye, Adji Astou Mbow, Aboubacry Gaye, Ndongo Dia, Cheikh Loucoubar, Diary Juliannie Ny Mioramalala, Rila Ratovoson, Rindra Vatosoa Randremanana, Amadou Alpha Sall, Moussa Seydi, Josselin Noirel, Gabriel Moreau, Arnaud Simon, Pavlo Holenya, Jean-Philippe Meyniel, Jean-François Zagury, and Matthieu Schoenhals

Subjects

Medicine, Science

Abstract

Abstract Profiling of the antibody responses to severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) proteins in African populations is scarce. Here, we performed a detailed IgM and IgG epitope mapping study against 487 peptides covering SARS-CoV-2 wild-type structural proteins. A panel of 41 pre-pandemic and 82 COVID-19 RT-PCR confirmed sera from Madagascar and Senegal were used. We found that the main 36 immunodominant linear epitopes identified were (i) similar in both countries, (ii) distributed mainly in the Spike and the Nucleocapsid proteins, (iii) located outside the RBD and NTD regions where most of the reported SARS-CoV-2 variant mutations occur, and (iv) identical to those reported in European, North American, and Asian studies. Within the severe group, antibody levels were inversely correlated with the viral load. This first antibody epitope mapping study performed in patients from two African countries may be helpful to guide rational peptide-based diagnostic assays or vaccine development.

Published

2023

14. Multiple genotypes of Crimean-Congo hemorrhagic fever virus detected in ticks during a one health survey in Agnam, Northeastern Senegal

Author

Moufid Mhamadi, Aminata Badji, Idrissa Dieng, Alioune Gaye, El Hadji Ndiaye, Mignane Ndiaye, Moundhir Mhamadi, Cheikh Talibouya Toure, Aliou Barry, Oumar Ndiaye, Babacar Faye, Fatimata Amadou Ba, Boly Diop, Mamadou Ndiaye, Samba Niang Sagne, Gamou Fall, Cheikh Loucoubar, Hugues Fausther Bovendo, Amadou Alpha Sall, Gary Kobinger, Ousmane Faye, Mawlouth Diallo, and Oumar Faye

Subjects

CCHF, ticks, Northeastern Senegal, genotypes (I, II & III), livestock, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

A Crimean-Congo Hemorrhagic Fever Virus (CCHFV) survey in Agnam (North Senegal) permits the detection of three isolates in ticks. These isolates belong genetically to multiple genotypes (I, II, III) and clustered with strains from Uganda, Sudan, Mauritania, and Senegal. The role of ticks in CCHF emergence and widespread is highlighted.

Published

2022

15. Plasmodium infection is associated with cross-reactive antibodies to carbohydrate epitopes on the SARS-CoV-2 Spike protein

Author

Sarah Lapidus, Feimei Liu, Arnau Casanovas-Massana, Yile Dai, John D. Huck, Carolina Lucas, Jon Klein, Renata B. Filler, Madison S. Strine, Mouhamad Sy, Awa B. Deme, Aida S. Badiane, Baba Dieye, Ibrahima Mbaye Ndiaye, Younous Diedhiou, Amadou Moctar Mbaye, Cheikh Tidiane Diagne, Inés Vigan-Womas, Alassane Mbengue, Bacary D. Sadio, Moussa M. Diagne, Adam J. Moore, Khadidiatou Mangou, Fatoumata Diallo, Seynabou D. Sene, Mariama N. Pouye, Rokhaya Faye, Babacar Diouf, Nivison Nery, Federico Costa, Mitermayer G. Reis, M. Catherine Muenker, Daniel Z. Hodson, Yannick Mbarga, Ben Z. Katz, Jason R. Andrews, Melissa Campbell, Ariktha Srivathsan, Kathy Kamath, Elisabeth Baum-Jones, Ousmane Faye, Amadou Alpha Sall, Juan Carlos Quintero Vélez, Michael Cappello, Michael Wilson, Choukri Ben-Mamoun, Richard Tedder, Myra McClure, Peter Cherepanov, Fabrice A. Somé, Roch K. Dabiré, Carole Else Eboumbou Moukoko, Jean Bosco Ouédraogo, Yap Boum, John Shon, Daouda Ndiaye, Adam Wisnewski, Sunil Parikh, Akiko Iwasaki, Craig B. Wilen, Albert I. Ko, Aaron M. Ring, and Amy K. Bei

Subjects

Medicine, Science

Abstract

Abstract Sero-surveillance can monitor and project disease burden and risk. However, SARS-CoV-2 antibody test results can produce false positive results, limiting their efficacy as a sero-surveillance tool. False positive SARS-CoV-2 antibody results are associated with malaria exposure, and understanding this association is essential to interpret sero-surveillance results from malaria-endemic countries. Here, pre-pandemic samples from eight malaria endemic and non-endemic countries and four continents were tested by ELISA to measure SARS-CoV-2 Spike S1 subunit reactivity. Individuals with acute malaria infection generated substantial SARS-CoV-2 reactivity. Cross-reactivity was not associated with reactivity to other human coronaviruses or other SARS-CoV-2 proteins, as measured by peptide and protein arrays. ELISAs with deglycosylated and desialated Spike S1 subunits revealed that cross-reactive antibodies target sialic acid on N-linked glycans of the Spike protein. The functional activity of cross-reactive antibodies measured by neutralization assays showed that cross-reactive antibodies did not neutralize SARS-CoV-2 in vitro. Since routine use of glycosylated or sialated assays could result in false positive SARS-CoV-2 antibody results in malaria endemic regions, which could overestimate exposure and population-level immunity, we explored methods to increase specificity by reducing cross-reactivity. Overestimating population-level exposure to SARS-CoV-2 could lead to underestimates of risk of continued COVID-19 transmission in sub-Saharan Africa.

Published

2022

16. Genomic Characterization of a Bataï Orthobunyavirus, Previously Classified as Ilesha Virus, from Field-Caught Mosquitoes in Senegal, Bandia 1969

Author

Cheikh Talibouya Toure, Idrissa Dieng, Safietou Sankhe, Mouhamed Kane, Moussa Dia, Moufid Mhamadi, Mignane Ndiaye, Ousmane Faye, Amadou Alpha Sall, Moussa Moise Diagne, and Oumar Faye

Subjects

Bataï virus, Orthobunyavirus, Africa, Senegal, genome sequencing, Microbiology, QR1-502

Abstract

Bataï virus (BATV), belonging to the Orthobunyavirus genus, is an emerging mosquito-borne virus with documented cases in Asia, Europe, and Africa. It causes various symptoms in humans and ruminants. Another related virus is Ilesha virus (ILEV), which causes a range of diseases in humans and is mainly found in African countries. This study aimed to genetically identify and characterize a BATV strain previously misclassified as ILEV in Senegal. The strain was reactivated and subjected to whole genome sequencing using an Illumina-based approach. Genetic analyses and phylogeny were performed to assess the evolutionary relationships. Genomic analyses revealed a close similarity between the Senegal strain and the BATV strains UgMP-6830 from Uganda. The genetic distances indicated high homology. Phylogenetic analysis confirmed the Senegal strain’s clustering with BATV. This study corrects the misclassification, confirming the presence of BATV in West Africa. This research represents the first evidence of BATV circulation in West Africa, underscoring the importance of genomic approaches in virus classification. Retrospective sequencing is crucial for reevaluating strains and identifying potential public health threats among neglected viruses.

Published

2024

17. Emergence of Crimean–Congo Hemorrhagic Fever Virus in Eastern Senegal in 2022

Author

Ousseynou Sene, Samba Niang Sagne, Déthié Ngom, Moussa Moise Diagne, Aminata Badji, Aliou Khoulé, El Hadji Ndiaye, Safietou Sankhe, Cheikh Loucoubar, Mawlouth Diallo, Manfred Weidmann, Ndongo Dia, Etienne Simon-Lorière, Yoro Sall, Boly Diop, Mamadou Ndiaye, Anavaj Sakuntabhai, Amadou Alpha Sall, Ousmane Faye, Oumar Faye, Diawo Diallo, Mamadou Aliou Barry, and Gamou Fall

Subjects

Crimean–Congo hemorrhagic fever virus, human, ticks, reassortment, Eastern Senegal, Microbiology, QR1-502

Abstract

Crimean–Congo hemorrhagic fever (CCHF), the most widespread tick-borne viral human infection, poses a threat to global health. In this study, clinical samples collected through national surveillance systems were screened for acute CCHF virus (CCHFV) infection using RT-PCR and for exposure using ELISA. For any CCHF-positive sample, livestock and tick samples were also collected in the neighborhood of the confirmed case and tested using ELISA and RT-PCR, respectively. Genome sequencing and phylogenetic analyses were also performed on samples with positive RT-PCR results. In Eastern Senegal, two human cases and one Hyalomma tick positive for CCHF were identified and a seroprevalence in livestock ranging from 9.33% to 45.26% was detected. Phylogenetic analyses revealed that the human strain belonged to genotype I based on the available L segment. However, the tick strain showed a reassortant profile, with the L and M segments belonging to genotype I and the S segment belonging to genotype III. Our data also showed that our strains clustered with strains isolated in different countries, including Mauritania. Therefore, our findings confirmed the high genetic variability inside the CCHF genotypes and their introduction to Senegal from other countries. They also indicate an increasing CCHF threat in Senegal and emphasize the need to reinforce surveillance using a one-health approach.

Published

2024

18. First hepatitis E outbreak in Southeastern Senegal

Author

Bacary Djilocalisse Sadio, Martin Faye, Marco Kaiser, Maryam Diarra, Fanny Balique, Cheikh Tidiane Diagne, Oumar Faye, Moussa Moïse Diagne, Gamou Fall, Oumar Ndiaye, Cheikh Loucoubar, Abdourahmane Sow, Ousmane Faye, Adama Faye, Cheikh Saad Bouh Boye, and Amadou Alpha Sall

Subjects

Medicine, Science

Abstract

Abstract The Rapid proliferation of traditional gold mining sites in the Kedougou region has led to massive migration of people from neighbouring West African countries and the establishment of several small villages where poor hygiene and sanitation conditions exist. In this context, a Hepatitis E virus outbreak was reported in Kedougou in 2014 with several cases among the traditional mining workers. Herein, we described epidemiological and laboratory data collected during the outbreak’s investigation from February 2012 to November 2014. Any suspected, contact or probable case was investigated, clinical and epidemiological data were collected. In our study, sera were collected and tested for viral RNA and anti-Hepatitis E virus (HEV) IgM. Archived serum samples from Kedougou were retrospectively screened by real-time polymerase chain reaction (RT-PCR) and enzyme-linked immunosorbent assay (ELISA). A total of 65 water samples collected from ponds and wells surrounding gold panners' sites and habitats and 75 tissues samples from rats captured in the environment of traditional gold mining sites were also tested. A total of 1617 sera were collected from 698 suspected cases, 862 contacts and 57 persons with missing information. The median age was 20 (1–88 years-old) and the sex ratio was 1.72. An overall rate of 64.62% (1045/1617) of these patients tested positive for HEV with a high case fatality rate in pregnant women. All water samples and animal tissues tested negative for HEV. Our data help not only determining of the beginning of the HEV outbreak to March 2012, but also identifying risk factors associated to its emergence. However, there is a need to implement routine diagnosis, surveillance and training of health personnel in order to reduce mortality especially among pregnant women. In addition, further studies are needed to identify the virus reservoir and environmental risk factors for HEV in the Kedougou region.

Published

2022

19. Importation and Circulation of Vaccine-Derived Poliovirus Serotype 2, Senegal, 2020–2021

Author

Martin Faye, Ousmane Kébé, Boly Diop, NDack Ndiaye, Annick Dosseh, Abdoulaye Sam, Aliou Diallo, Hamet Dia, Jean Pierre Diallo, Ndongo Dia, Davy Evrard Kiori, Ousmane Madiagne Diop, Amadou Alpha Sall, and Ousmane Faye

Subjects

polio, vaccine-derived poliovirus serotype 2, viruses, environmental surveillance, acute flaccid paralysis, Senegal, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Environmental surveillance for poliovirus is increasingly used in poliovirus eradication efforts as a supplement to acute flaccid paralysis (AFP) surveillance. Environmental surveillance was officially established in 2017 in Senegal, where no poliovirus had been detected since 2010. We tested sewage samples from 2 sites in Dakar monthly for polioviruses. We identified a vaccine-derived poliovirus serotype 2 on January 19, 2021, from a sample collected on December 24, 2020; by December 31, 2021, we had detected 70 vaccine-derived poliovirus serotype 2 isolates circulating in 7 of 14 regions in Senegal. Sources included 18 AFP cases, 20 direct contacts, 17 contacts in the community, and 15 sewage samples. Phylogenetic analysis revealed the circulation of 2 clusters and provided evidence on the virus introduction from Guinea. Because novel oral polio vaccine serotype 2 was used for response activities throughout Senegal, we recommend expanding environmental surveillance into other regions.

Published

2022

20. Introduction of monkeypox virus in Benin, 2022

Author

Anges Yadouleton, Martin Faye, Carine Tchibozo, Mariam Oke, Oumar Faye, Thierry Lawale, Eric Denon, René Keke, Ange Dossou, Alban Zohoun, Francis Dossou, Moussa Moise Diagne, Sourakou Salifou, Khadija Leila Diatta, Mignane Ndiaye, Safietou Sankhe, Amadou Diallo, Sonia Bedie, Clément Glele-Kakai, Al Fattah Onifade, Raoul Saizonou, Gildas Hounkanrin, Olga Quenum, Yvette Badou, Benjamin Hounkpatin, Amadou Alpha Sall, and Ousmane Faye

Subjects

Monkeypox virus, Introduction, Human-to-human transmission, Benin, Medicine (General), R5-920, Military Science

Published

2022

21. The Spatiotemporal Distribution and Molecular Characterization of Circulating Dengue Virus Serotypes/Genotypes in Senegal from 2019 to 2023

Author

Idrissa Dieng, Cheikh Talla, Mamadou Aliou Barry, Aboubacry Gaye, Diamilatou Balde, Mignane Ndiaye, Mouhamed Kane, Samba Niang Sagne, Moussa Moise Diagne, Boly Diop, Boubacar Diallo, Amadou Alpha Sall, Ousmane Faye, Abdourahmane Sow, Gamou Fall, Cheikh Loucoubar, and Oumar Faye

Subjects

DENV, serotypes, Senegal, spatiotemporal distribution, genotypes, Medicine

Abstract

Dengue virus is becoming a major public health threat worldwide, principally in Africa. From 2016 to 2020, 23 outbreaks were reported in Africa, principally in West Africa. In Senegal, dengue outbreaks have been reported yearly since 2017. Data about the circulating serotypes and their spatial and temporal distribution were limited to outbreaks that occurred between 2017 and 2018. Herein, we describe up-to-date molecular surveillance of circulating DENV serotypes in Senegal between 2019 to 2023 and their temporal and spatial distribution around the country. For this purpose, suspected DENV-positive samples were collected and subjected to dengue detection and serotyping using RT-qPCR methods. Positive samples were used for temporal and spatial mapping. A subset of DENV+ samples were then sequenced and subjected to phylogenetic analysis. Results show a co-circulation of three DENV serotypes with an overall predominance of DENV-3. In terms of abundance, DENV-3 is followed by DENV-1, with scarce cases of DENV-2 from February 2019 to February 2022. Interestingly, data show the extinction of both serotype 1 and serotype 2 and the only circulation of DENV-3 from March 2022 to February 2023. At the genotype level, the analysis shows that sequenced strains belong to same genotype as previously described: Senegalese DENV-1 strains belong to genotype V, DENV-2 strains to the cosmopolitan genotype, and DENV-3 strains to Genotype III. Interestingly, newly obtained DENV 1–3 sequences clustered in different clades within genotypes. This co-circulation of strains belonging to different clades could have an effect on virus epidemiology and transmission dynamics. Overall, our results highlight DENV serotype replacement by DENV-3, accompanied by a wider geographic distribution, in Senegal. These results highlight the importance of virus genomic surveillance and call for further viral fitness studies using both in vitro and in vivo models, as well as in-depth phylogeographic studies to uncover the virus dispersal patterns across the country.

Published

2024

22. Useful public health countermeasures to control the current multicountry outbreak of Monkeypox disease

Author

Khadija Leila El Siby Diatta, Oumar Faye, Amadou Alpha Sall, Ousmane Faye, and Martin Faye

Subjects

Monkeypox disease, public health countermeasures, major threat, worldwide, emerging disease, Public aspects of medicine, RA1-1270

Abstract

Monkeypox is a viral disease endemic to some countries in Central and Western Africa. However, sporadic human cases have also been reported outside of Africa. The first human case was reported in 1970 in the Democratic Republic of Congo. Very similar to the eradicated smallpox regarding its clinical representation, the Monkeypox disease is most common in children aged between 5 and 9 years with a fatality rate ranging from 1 to 11% in Africa. During the past decade, the number of countries that reported human cases of the disease grew significantly, while experts still sought knowledge on the characteristics of the virus. The recent increase in Monkeypox cases in many countries raises the concern about a possible global health threat. There is a need to subsequently provide insights into the incidence of Monkeypox disease and come up with mechanisms to prevent its emergence and contain its spread. Furthermore, it is crucial to have a better view of the global diagnostic capacity of the Monkeypox virus. This review aims to assess useful public health countermeasures to control the current multicountry outbreak of Monkeypox disease. Articles were searched in PubMed and Google Scholar electronic databases on 30 June 2022, using selected keywords, without language and date restriction. A total of 44 scientific records were published between 1 January 1962 and 30 June 2022. Herein, we discuss the epidemiological and public health situation at a global scale, provide an updated overview and data of utility for a better understanding of knowledge and research gaps in the epidemiology of the Monkeypox disease, and give useful measures for controlling the current multicountry outbreak.

Published

2023

23. Co-circulation of dengue virus serotypes 1 and 3 in the Fatick region of senegal 2018

Author

Cheikh Tidiane Diagne, Idrissa Dieng, Oumar Faye, Cheikh Fall, Mamadou Aliou Barry, Maryam Diarra, Oumar Ndiaye, Marie Henriette Dior Ndione, Mamadou Ndiaye, Boly Diop, Abdoulaye Bousso, Abiboulaye Sall, Gamou Fall, Cheikh Loucoubar, Yamar Ba, Amadou Alpha Sall, Mawlouth Diallo, and Ousmane Faye

Subjects

Dengue, arbovirus, epidemics, public health, Senegal, Fatick, Microbiology, QR1-502

Abstract

On 10th September 2018, the Syndromic Sentinel Surveillance network that monitors febrile illnesses in all 14 regions of Senegal detected a peak of fever in the Fatick region. On 13 September 2018, 10 samples were sent to the WHO Collaborating Centre for Arboviruses and Viral Haemorrhagic Fevers at the Institut Pasteur de Dakar (IPD). Laboratory investigations revealed an epidemic of dengue 1 genotype V and dengue 3 genotype III. Fatick neighbors the Holy City of Touba where 3.5 million people from all over the word gather every year for the Grand Magal pilgrimage. This article discusses the impact of mass gatherings and their role in the recent introduction of dengue serotypes in Senegal. Dengue is now endemic in Senegal and across many countries in Africa, highlighting the need for early detection, control measures and prevention of severe dengue cases in highly connected urban settings.

Published

2023

24. Detection of human case of dengue virus 2 belonging to sylvatic genotype during routine surveillance of fever in Senegal, Kolda 2021

Author

Idrissa Dieng, Samba Niang Sagne, Mignane Ndiaye, Mamadou Aliou Barry, Cheikh Talla, Moufid Mhamadi, Diamilatou Balde, Cheikh Talibouya Toure, Boly Diop, Amadou Alpha Sall, Gamou Fall, Cheikh Loucoubar, Oumar Faye, and Ousmane Faye

Subjects

fever, DENV 2, sylvatic, Senegal, one health, Microbiology, QR1-502

Abstract

Dengue virus 2 (DENV-2) was detected in a febrile patient living in Saré Yoba in the Kolda region of southern Senegal. Phylogenetic analysis based on the full coding region revealed that the virus belongs to the DENV-2 sylvatic genotype and is closely related to a strain (JF260983/99.66% identity) detected in Spain in a tourist who traveled to Guinea-Bissau (which borders the Kolda region) in 2009. This highlights a potential recent under-reported circulation of sylvatic dengue in the southern part of Senegal and calls for reinforced integrated surveillance among humans, non-human primates, and arboreal mosquitoes through a one-health approach.

Published

2022

25. Molecular Evolution of Dengue Virus 3 in Senegal between 2009 and 2022: Dispersal Patterns and Implications for Prevention and Therapeutic Countermeasures

Author

Idrissa Dieng, Diamilatou Balde, Cheikh Talla, Diogop Camara, Mamadou Aliou Barry, Samba Niang Sagne, Khadim Gueye, Cheikh Abdou Khadre Mbacké Dia, Babacar Souleymane Sambe, Gamou Fall, Amadou Alpha Sall, Ousmane Faye, Cheikh Loucoubar, and Oumar Faye

Subjects

DENV−3, molecular evolution, Senegal, amino acid changes, vaccine strain, human mAB, Medicine

Abstract

Dengue fever is the most prevalent arboviral disease worldwide. Dengue virus (DENV), the etiological agent, is known to have been circulating in Senegal since 1970, though for a long time, virus epidemiology was restricted to the circulation of sylvatic DENV−2 in south-eastern Senegal (the Kedougou region). In 2009 a major shift was noticed with the first urban epidemic, which occurred in the Dakar region and was caused by DENV−3. Following the notification by Senegal, many other West African countries reported DENV−3 epidemics. Despite these notifications, there are scarce studies and data about the genetic diversity and molecular evolution of DENV−3 in West Africa. Using nanopore sequencing, phylogenetic, and phylogeographic approaches on historic strains and 36 newly sequenced strains, we studied the molecular evolution of DENV−3 in Senegal between 2009 and 2022. We then assessed the impact of the observed genetic diversity on the efficacy of preventive countermeasures and vaccination by mapping amino acid changes against vaccine strains. The results showed that the DENV−3 strains circulating in Senegal belong to genotype III, similarly to strains from other West African countries, while belonging to different clades. Phylogeographic analysis based on nearly complete genomes revealed three independent introduction events from Asia and Burkina Faso. Comparison of the amino acids in the CprM-E regions of genomes from the Senegalese strains against the vaccine strains revealed the presence of 22 substitutions (7 within the PrM and 15 within the E gene) when compared to CYD-3, while 23 changes were observed when compared to TV003 (6 within the PrM and 17 within the E gene). Within the E gene, most of the changes compared to the vaccine strains were located in the ED-III domain, which is known to be crucial in neutralizing antibody production. Altogether, these data give up-to-date insight into DENV−3 genomic evolution in Senegal which needs to be taken into account in future vaccination strategies. Additionally, they highlight the importance of the genomic epidemiology of emerging pathogens in Africa and call for the implementation of a pan-African network for genomic surveillance of dengue virus.

Published

2023

26. Multifoci and multiserotypes circulation of dengue virus in Senegal between 2017 and 2018

Author

Idrissa Dieng, Marie Henriette Dior Ndione, Cheikh Fall, Moussa Moïse Diagne, Mamadou Diop, Aboubacry Gaye, Mamadou Aliou Barry, Boly Diop, Mamadou Ndiaye, Abdoulaye Bousso, Gamou Fall, Cheikh Loucoubar, Oumar Faye, Amadou Alpha Sall, and Ousmane Faye

Subjects

Genetic diversity, Dengue virus, Senegal, Serotype 1, Serotype 2, Serotype 3, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Dengue fever is a mosquito born disease associated with self-limited to life threatening illness. First detected in Senegal in the nineteenth century, and despite its growing incidence this last decade, significant knowledge gaps exist in our knowledge of genetic diversity of circulating strains. This study highlights the circulating serotypes and genotypes between January 2017 and December 2018 and their spatial and temporal distribution throughout all regions of Senegal. Methods We used 56 dengue virus (DENV) strains for the analysis collected from 11 sampling areas: 39 from all regions of Senegal, and 17 isolates from Thiès, a particular area of the country. Two real time RT-qPCR systems were used to confirm dengue infection and corresponding serotypes. For molecular characterization, CprM gene was sequenced and submitted to phylogenetic analysis for serotypes and genotypes assignment. Results Three dengue virus serotypes (DENV-1–3) were detected by all used methods. DENV-3 was detected in 50% (28/56) of the isolates, followed by DENV-1 and DENV-2, each representing 25% (14/56) of the isolates. DENV-3 belongs to genotype III, DENV-1 to genotype V and DENV-2 to Cosmopolitan genotype. Serotype 3 was detected in 7 sampling locations and a co-circulation of different serotypes was observed in Thiès, Fatick and Richard-toll. Conclusions These results emphasize the need of continuous DENV surveillance in Senegal to detect DENV cases, to define circulating serotypes/genotypes and to prevent the spread and the occurrence of severe cases.

Published

2021

27. Novel Amplicon-Based Sequencing Approach to West Nile Virus

Author

Moussa Moïse Diagne, Marie Henriette Dior Ndione, Giulia Mencattelli, Amadou Diallo, El hadji Ndiaye, Marco Di Domenico, Diawo Diallo, Mouhamed Kane, Valentina Curini, Ndeye Marieme Top, Maurilia Marcacci, Maïmouna Mbanne, Massimo Ancora, Barbara Secondini, Valeria Di Lollo, Liana Teodori, Alessandra Leone, Ilaria Puglia, Alioune Gaye, Amadou Alpha Sall, Cheikh Loucoubar, Roberto Rosà, Mawlouth Diallo, Federica Monaco, Ousmane Faye, Cesare Cammà, Annapaola Rizzoli, Giovanni Savini, and Oumar Faye

Subjects

West Nile virus, lineages, next-generation sequencing, amplicon-based sequencing, Microbiology, QR1-502

Abstract

West Nile virus is a re-emerging arbovirus whose impact on public health is increasingly important as more and more epidemics and epizootics occur, particularly in America and Europe, with evidence of active circulation in Africa. Because birds constitute the main reservoirs, migratory movements allow the diffusion of various lineages in the world. It is therefore crucial to properly control the dispersion of these lineages, especially because some have a greater health impact on public health than others. This work describes the development and validation of a novel whole-genome amplicon-based sequencing approach to West Nile virus. This study was carried out on different strains from lineage 1 and 2 from Senegal and Italy. The presented protocol/approach showed good coverage using samples derived from several vertebrate hosts and may be valuable for West Nile genomic surveillance.

Published

2023

28. A recombinase polymerase amplification assay for rapid detection of rabies virus

Author

Martin Faye, Ahmed Abd El Wahed, Oumar Faye, Jonas Kissenkötter, Bernd Hoffmann, Amadou Alpha Sall, and Ousmane Faye

Subjects

Medicine, Science

Abstract

Abstract Rabies is a generally fatal encephalitis caused by a negative-sense single-stranded RNA lyssavirus transmitted to humans mainly from dog bite. Despite the recommendation by WHO and OIE to use the direct immunofluorescence test as standard method, molecular diagnostic assays like reverse transcription quantitative polymerase chain reaction (RT-qPCR) are increasing as a confirmatory method. However, both technologies are inaccessible in resource-limited settings. Moreover, the available point-of-need molecular assay is of poor detection limit for African strains. Herein, we developed a reverse transcription recombinase polymerase amplification (RT-RPA) assay as potential point-of-need diagnostic tool for rapid detection of various strains of rabies virus including locally isolated African strains. The sensitivity and specificity of the method was evaluated using a molecular RNA standard and different Rabies-related viruses belonging to the Rhabdoviridea family, respectively. The RABV-RPA performances were evaluated on isolates representative of the existing diversity and viral dilutions spiked in non-neural clinical specimen. The results were compared with RT-qPCR as a gold standard. The RABV-RPA detected down to 4 RNA molecules per reaction in 95% of the cases in less than 10 min. The RABV-RPA assay is highly specific as various RABV isolates were identified, but no amplification was observed for other member of the Rhabdoviridea family. The sample background did not affect the performance of the RABV-RPA as down to 11 RNA molecules were identified, which is similar to the RT-qPCR results. Our developed assay is suitable for use in low-resource settings as a promising alternative tool for ante-mortem rabies diagnosis in humans for facilitating timely control decisions.

Published

2021

29. Genomic Epidemiology of 2015–2016 Zika Virus Outbreak in Cape Verde

Author

Oumar Faye, Maria de Lourdes Monteiro, Bram Vrancken, Matthieu Prot, Sebastian Lequime, Maryam Diarra, Oumar Ndiaye, Tomas Valdez, Sandra Tavarez, Jessica Ramos, Silvânia da Veiga Leal, Cecilio Pires, Antonio Moreira, Maria Filomena Tavares, Linete Fernandes, Jorge Noel Barreto, Maria do Céu Teixeira, Maria da Luz de Lima Mendonça, Carolina Cardoso da Silva Leite Gomes, Mariano Salazar Castellon, Laurence Ma, Frédéric Lemoine, Fabiana Gámbaro-Roglia, Déborah Delaune, Gamou Fall, Ibrahima Socé Fall, Mamadou Diop, Anavaj Sakuntabhai, Cheikh Loucoubar, Philippe Lemey, Edward C. Holmes, Ousmane Faye, Amadou Alpha Sall, and Etienne Simon-Loriere

Subjects

Zika virus, microcephaly, Cabo Verde, Cape Verde, Brazil, Western Africa, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

During 2015–2016, Cape Verde, an island nation off the coast of West Africa, experienced a Zika virus (ZIKV) outbreak involving 7,580 suspected Zika cases and 18 microcephaly cases. Analysis of the complete genomes of 3 ZIKV isolates from the outbreak indicated the strain was of the Asian (not African) lineage. The Cape Verde ZIKV sequences formed a distinct monophylogenetic group and possessed 1–2 (T659A, I756V) unique amino acid changes in the envelope protein. Phylogeographic and serologic evidence support earlier introduction of this lineage into Cape Verde, possibly from northeast Brazil, between June 2014 and August 2015, suggesting cryptic circulation of the virus before the initial wave of cases were detected in October 2015. These findings underscore the utility of genomic-scale epidemiology for outbreak investigations.

Published

2020

30. Laboratory Evaluation and Field Testing of Dengue NS1 and IgM/IgG Rapid Diagnostic Tests in an Epidemic Context in Senegal

Author

Oumar Ndiaye, Kevin Woolston, Aboubacry Gaye, Cheikh Loucoubar, Michael Cocozza, Cheikh Fall, Fatou Dia, Emily R. Adams, Marième Samb, Diogop Camara, Bacary Djilocalisse Sadio, Cheikh T. Diagne, Manfred Weidmann, Oumar Faye, Joseph R. A. Fitchett, Amadou Alpha Sall, and Cheikh Tidiane Diagne

Subjects

dengue, rapid tests, diagnostics, outbreak response, arboviruses, Microbiology, QR1-502

Abstract

In Senegal, the burden of dengue is increasing and expanding. As case management and traditional diagnostic techniques can be difficult to implement, rapid diagnostic tests (RDTs) deployed at point of care are ideal for investigating active outbreaks. The aim of this study was to evaluate the diagnostic performance of the Dengue NS1 and Dengue IgM/IgG RDTs on the serum/plasma samples in a laboratory setting and in the field. During laboratory evaluation, performance of the NS1 RDT was assessed using NS1 ELISA as the gold standard. Sensitivity and specificity were 88% [75–95%] and 100% [97–100%], respectively. Performance of the IgM/IG RDT was assessed using the IgM Antibody Capture (MAC) ELISA, indirect IgG, and PRNT as gold standards. The IgM and IgG test lines respectively displayed sensitivities of 94% [83–99%] and 70% [59–79%] and specificities of 91% [84–95%] and 91% [79–98%]. In the field, the Dengue NS1 RDT sensitivity and specificity was 82% [60–95%] and 75% [53–90%], respectively. The IgM and IgG test lines displayed sensitivities of 86% [42–100%] and 78% [64–88%], specificities of 85% [76–92%] and 55% [36–73%], respectively. These results demonstrate that RDTs are ideal for use in a context of high prevalence or outbreak setting and can be implemented in the absence of a confirmatory test for acute and convalescent patients.

Published

2023

31. Whole Genome Sequencing Analysis of African Orthobunyavirus Isolates Reveals Naturally Interspecies Segments Recombinations between Bunyamwera and Ngari Viruses

Author

Moufid Mhamadi, Idrissa Dieng, Anna S. Dolgova, Cheikh Talibouya Touré, Mignane Ndiaye, Moussa Moïse Diagne, Babacar Faye, Anna S. Gladkikh, Vladimir G. Dedkov, Amadou Alpha Sall, Ousmane Faye, and Oumar Faye

Subjects

Bunyamwera, serogroup, segmented RNA, genetic recombination, Microbiology, QR1-502

Abstract

Bunyamwera virus is the prototype of the Bunyamwera serogroup, which belongs to the order Bunyavirales of the Orthobunyavirus genus in the Peribunyaviridae family. Bunyamwera is a negative-sense RNA virus composed of three segments S, M, and L. Genetic recombination is possible between members of this order as it is already documented. Additionally, it can lead to pathogenic or host range improvement, if it occurs with viruses of public health and agricultural importance such as Rift Valley fever virus and Crimea–Congo hemorrhagic fever virus. Here, we characterize five African Orthobunyavirus viruses from different geographical regions. Our results suggest that the five newly characterized strains are identified as Bunyamwera virus strains. Furthermore, two of the five strains sequenced in this study are recombinant strains, as fragments of their segments are carried by Ngari and Bunyamwera strains. Further investigations are needed to understand the functional impact of these recombinations.

Published

2023

32. Use of Envelope Domain III Protein for the Detection of IgG Type Antibodies Specific to Zika Virus by Indirect ELISA

Author

Oumar Ndiaye, Cheikh Tidiane Diagne, Ahmed Abd El Wahed, Fatou Dia, Moussa Dia, Adama Faye, Silvania Da Veiga Leal, Menilita dos Santos, Maria da Luz de Lima Mendonça, Carolina Cardoso da Silva Leite, Cheikh Saad Bouh Boye, Juliet E. Bryant, Philippe Desprès, Ousmane Faye, Amadou Alpha Sall, and Oumar Faye

Subjects

Zika, diagnostics, ELISA, recombinant, antigen, envelope, Medicine (General), R5-920

Abstract

Zika virus (ZIKV) diagnostics are crucial for proper antenatal and postnatal care and also for surveillance and serosurvey studies. Since the viremia during ZIKV infection is fleeting, serological testing is highly valuable to inform diagnosis. However, current serology tests using whole virus antigens frequently suffer from cross reactivity issues, delays, and technical complexity, especially in low and middle income countries (LMICs) and endemic countries. Here, we describe an indirect ELISA to detect specific IgG antibodies using the ZIKV envelope domain III (EDIII) protein expressed in Drosophila S2 cells as an immunogen. Using a total of 367 clinical samples, we showed that the EDIII-ELISA was able to detect IgG antibodies against ZIKV with high sensitivity of 100.0% and specificity of 94.7% when compared to plaque reduction neutralization tests (PRNTs) as the gold standard and using 0.208 as the cut-off OD value. These results show the usefulness of the recombinant envelope domain III as an alternative to standard whole virus proteins for ZIKV diagnostics as it improves the sensitivity and specificity of IgG ELISA assay when used as an immunogen. This method should, therefore, be extended to serological diagnostic techniques for other members of the flavivirus genus and for use in IgM diagnostic testing.

Published

2023

33. Human and Livestock Surveillance Revealed the Circulation of Rift Valley Fever Virus in Agnam, Northern Senegal, 2021

Author

Moufid Mhamadi, Aminata Badji, Mamadou Aliou Barry, El Hadji Ndiaye, Alioune Gaye, Mignane Ndiaye, Moundhir Mhamadi, Cheikh Talibouya Touré, Oumar Ndiaye, Babacar Faye, Boly Diop, Mamadou Ndiaye, Mathioro Fall, Andy Mahine Diouf, Samba Niang Sagne, Cheikh Loucoubar, Hugues Fausther-Bovendo, Ara, Amadou Alpha Sall, Gary Kobinger, Ousmane Faye, Mawlouth Diallo, and Oumar Faye

Subjects

Rift Valley Fever Virus, survey, humans, livestock, northeastern Senegal, Medicine

Abstract

The mosquito-borne disease caused by the Rift Valley Fever Virus (RVFV) is a viral hemorrhagic fever that affects humans and animals. In 1987, RVFV emerged in Mauritania, which caused the first RVFV outbreak in West Africa. This outbreak was shortly followed by reported cases in humans and livestock in Senegal. Animal trade practices with neighboring Mauritania suggest northern regions of Senegal are at high risk for RVF. In this study, we aim to conduct a molecular and serological survey of RVFV in humans and livestock in Agnam (northeastern Senegal) by RT-PCR (reverse transcription real-time polymerase chain reaction) and ELISA (Enzyme-Linked Immunosorbent Assay), respectively. Of the two hundred fifty-five human sera, one (0.39%) tested RVFV IgM positive, while fifty-three (20.78%) tested positive for RVFV IgG. For animal monitoring, out of 30 sheep recorded and sampled over the study period, 20 (66.67%) showed seroconversion to RVFV IgG antibodies, notably during the rainy season. The presence of antibodies increased significantly with age in both groups (p < 0.05), as the force of RVF infection (FOI), increased by 16.05% per year for humans and by 80.4% per month for livestock sheep. This study supports the usefulness of setting up a One Health survey for RVF management.

Published

2023

34. Analysis of a Dengue Virus Outbreak in Rosso, Senegal 2021

Author

Idrissa Dieng, Mamadou Aliou Barry, Cheikh Talla, Bocar Sow, Oumar Faye, Moussa Moise Diagne, Ousseynou Sene, Oumar Ndiaye, Boly Diop, Cheikh Tidiane Diagne, Gamou Fall, Amadou Alpha Sall, Cheikh Loucoubar, and Ousmane Faye

Subjects

DENV-1, Rosso, NS1 RDTs, outbreak response, serotype replacement, re-introduction, Medicine

Abstract

Senegal is hyperendemic for dengue. Since 2017, outbreaks have been noticed annually in many regions around the country, marked by the co-circulation of DENV1-3. On 8 October 2021, a Dengue virus outbreak in the Rosso health post (sentinel site of the syndromic surveillance network) located in the north of the country was notified to the WHO Collaborating Center for arboviruses and hemorrhagic fever viruses at Institut Pasteur de Dakar. A multidisciplinary team was then sent for epidemiological and virologic investigations. This study describes the results from investigations during an outbreak in Senegal using a rapid diagnostic test (RDT) for the combined detection of dengue virus non-structural protein 1 (NS1) and IgM/IgG. For confirmation, samples were also tested by real-time RT-PCR and IgM ELISA at the reference lab in Dakar. qRT-PCR positive samples were subjected to whole genome sequencing using nanopore technology. Virologic analysis scored 102 positives cases (RT-PCR, NS1 antigen detection and/or IgM) out of 173 enrolled patients; interestingly, virus serotyping showed that the outbreak was caused by the DENV-1, a serotype different from DENV-2 involved during the outbreak in Rosso three years earlier, indicating a serotype replacement. Nearly all field-tested NS1 positives samples were confirmed by qRT-PCR with a concordance of 92.3%. Whole genome sequencing and phylogenetic analysis of strains suggested a re-introduction in Rosso of a DENV-1 strain different to the one responsible for the outbreak in the Louga area five years before. Findings call for improved dengue virus surveillance in Senegal, with a wide deployment of DENV antigenic tests, which allow easy on-site diagnosis of suspected cases and early detection of outbreaks. This work highlights the need for continuous monitoring of circulating serotypes which is crucial for a better understanding of viral epidemiology around the country.

Published

2022

35. Re-Introduction of West Nile Virus Lineage 1 in Senegal from Europe and Subsequent Circulation in Human and Mosquito Populations between 2012 and 2021

Author

Marie Henriette Dior Ndione, El Hadji Ndiaye, Martin Faye, Moussa Moïse Diagne, Diawo Diallo, Amadou Diallo, Amadou Alpha Sall, Cheikh Loucoubar, Oumar Faye, Mawlouth Diallo, Ousmane Faye, Mamadou Aliou Barry, and Gamou Fall

Subjects

West Nile virus, lineage 1, arbovirus, human population, mosquito population, Senegal, Microbiology, QR1-502

Abstract

West Nile virus (WNV) is a virus of the Japanese encephalitis antigenic complex and belongs to the family Flaviviridae of the genus flavivirus. The virus can cause infection in humans which in most cases is asymptomatic, however symptomatic cases exist and the disease can be severe causing encephalitis and meningoencephalitis. The virus is maintained in an enzootic cycle involving mosquitoes and birds, humans and other mammals such as horses can be accidental hosts. A mosquito-based arbovirus surveillance system and the sentinel syndromic surveillance network (4S) have been in place since 1988 and 2015 respectively, to better understand the transmission dynamics of arboviruses including WNV in Senegal. Arthropod and human samples have been collected from the field and analysed at Institut Pasteur de Dakar using different methods including RT-PCR, ELISA, plaque reduction neutralization test and viral isolation. RT-PCR positive samples have been analysed by Next Generation Sequencing. From 2012 to 2021, 7912 samples have been analysed and WNV positive cases have been detected, 20 human cases (19 IgM and 1 RT-PCR positive cases) and 41 mosquito pools. Phylogenetic analyzes of the sequences of complete genomes obtained showed the circulation of lineage 1a, with all these recent strains from Senegal identical to each other and very close to strains isolated from horse in France in 2015, Italy and Spain. Our data showed lineage 1a endemicity in Senegal as previously described, with circulation of WNV in humans and mosquitoes. Phylogenetic analyzes carried out with the genome sequences obtained also revealed exchanges of WNV strains between Europe and Senegal which could be possible via migratory birds. The surveillance systems that have enabled the detection of WNV in humans and arthropods should be extended to animals in a one-health approach to better prepare for global health threats.

Published

2022

36. COVID-19 Outbreak, Senegal, 2020

Author

Ndongo Dia, Ndeye Aïssatou Lakh, Moussa Moise Diagne, Khardiata Diallo Mbaye, Fabien Taieb, Ndeye Maguette Fall, Mamadou Alioune Barry, Daye Ka, Amary Fall, Viviane Marie Pierre Cisse Diallo, Oumar Faye, Mamadou Malado Jallow, Idrissa Dieng, Mamadou Ndiaye, Mamadou Diop, Abdoulaye Bousso, Cheikh loucoubar, Marie Khemesse Ngom Ndiaye, Christophe Peyreffite, Louise Fortes, Amadou Alpha Sall, Ousmane Faye, and Moussa Seydi

Subjects

COVID-19, SARS-CoV-2, severe acute respiratory syndrome coronavirus 2, viruses, respiratory infections, zoonoses, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

The spread of severe acute respiratory syndrome coronavirus 2 began later in Africa than in Asia and Europe. Senegal confirmed its first case of coronavirus disease on March 2, 2020. By March 4, a total of 4 cases had been confirmed, all in patients who traveled from Europe.

Published

2020

37. Vector competence of anthropophilic mosquitoes for a new mesonivirus in Senegal

Author

Alioune Gaye, Moussa Moïse Diagne, El Hadji Ndiaye, Marie Henriette Dior Ndione, Martin Faye, Cheikh Talla, Gamou Fall, Yamar Ba, Diawo Diallo, Ibrahima Dia, Pascal Handschumacher, Ousmane Faye, Amadou Alpha Sall, and Mawlouth Diallo

Subjects

Vector competence, Dianke virus, Culex, Aedes, Anopheles, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTThe mesoniviruses (MESOVs) belong to the newly described Mesoniviridae family (Order: Nidovirales). They have never been reported in Senegal until recently during a study in arbovirus emergence with the detection of a new species of MESOV named Dianke virus (DKV) from common mosquitoes from eastern Senegal. Actually, their vector competence for this newly described DKV is unknown. We, therefore, estimated the vector competence of Culex tritaeniorhynchus, Culex quinquefasciatus, Aedes aegypti, and Anopheles gambiae mosquitoes collected in Senegal for DKV using oral infection. Whole bodies, legs/wings, and saliva samples were tested for DKV by RT–PCR to estimate infection, dissemination, and transmission rates. The infectivity of virus particles in the saliva was confirmed by infecting C6/36 cells. Virus transmission rates were up to 95.45% in Culex tritaeniorhynchus, 28% in Cx. quinquefasciatus and 9.09% in Aedes aegypti. Viral particles in the saliva were confirmed infectious by C6/36 cell culture. An. gambiae was able to disseminate DKV only at 20 days post-infection. This study shows that Culex mosquitoes are more competent than Ae. aegypti for DKV, while Anopheles gambiae is not likely a competent vector.

Published

2020

38. Crimean–Congo Hemorrhagic Fever Virus Survey in Humans, Ticks, and Livestock in Agnam (Northeastern Senegal) from February 2021 to March 2022

Author

Moufid Mhamadi, Aminata Badji, Idrissa Dieng, Alioune Gaye, El Hadji Ndiaye, Mignane Ndiaye, Moundhir Mhamadi, Cheikh Talibouya Touré, Mouhamed Rassoul Mbaye, Mamadou Aliou Barry, Oumar Ndiaye, Babacar Faye, Fatimata Amadou Ba, Boly Diop, Mamadou Ndiaye, Mathioro Fall, Samba Niang Sagne, Gamou Fall, Cheikh Loucoubar, Hugues Fausther-Bovendo, Amadou Alpha Sall, Gary Kobinger, Ousmane Faye, Mawlouth Diallo, and Oumar Faye

Subjects

CCHF, prevalence, human, sheep, tick, Medicine

Abstract

Crimean–Congo hemorrhagic fever virus (CCHFV) is widespread in Asia, Europe, and Africa. In Senegal, sporadic cases of CCHFV have been reported since 1960. Bordering Mauritania in northeastern Senegal, Agnam is an arid area in the region of Matam where CCHFV is endemic, which harbors a pastoralist community. Given the drought conditions of Agnam, inhabitants are in constant movement with their animals in search of pasture, which brings them into contact with pathogens such as arboviruses. To identify CCHFV in this area, we established a One Health site in order to analyze animal livestock, ticks and human samples collected over a one-year period by qRT-PCR and ELISA. Our analysis showed one (1/364) patient carried anti-CCHFV IgM and thirty-seven carried anti-CCHFV IgG (37/364). In livestock, anti-CCHFV IgG was detected in 13 (38.24%) of 34 sentinel sheep. The risk of CCHFV infection increased significatively with age in humans (p-value = 0.00117) and sheep (p-value = 1.18 × 10−11). Additional risk factors for CCHFV infection in sheep were dry seasons (p-value = 0.004) and time of exposure (p-value = 0.007). Furthermore, we detected a total of three samples with CCHFV RNA within Rhipicephalus evertsi evertsi and Rhipicephalus guilhoni tick species. Our results highlighted the usefulness of a One Health survey of CCHFV in pastoral communities at risk of arboviruses.

Published

2022

39. Laboratory capacity assessments in 25 African countries at high risk of yellow fever, August-December 2018

Author

Barbara Wilmot Johnson, Maurice Demanou, Gamou Fall, Jean-Luc Betoulle, Celestina Obiekea, Alison Jane Basile, Cristina Domingo, Christin Goodman, Eric Mossel, Chantal Reusken, Erin Staples, Joana Filipa Machado de Morais, Zoraima Neto, Paula Paixão, Yves Eric Denon, Mariette Glitho, José Mahinou, Therese Kagone, Emmanuel Nakoune, Kadidja Gamougam, Elisabeth Pukuta Simbu, Steve Ahuka, Jean-Vivien Mombouli, Cynthia Goma-Nkoua, Edgard Valery Adjogoua, Adamu Tayachew, Berhane Beyene, Bakary Sanneh, Modou Lamin Jarju, Alphonse Mendy, Dodzi Kofi Amelor, Lawrence Ofosu-Appiah, David Opare, Lorreta Antwi, Rexford Adade, N'Faly Magassouba, Sabado Fernandes Gomes, Samson Limbaso, Joel Lutomiah, Burgess Gbelee Jr, John Dogba, Issa Cisse, Zakou Idde, Chikwe Ihekweazu, Nwando Mba, Ousmane Faye, Oumar Faye, Amadou Alpha Sall, Zikan Koroma, Manuela Alphonse Juma, James Ayei Maror, Mawahib Eldigail, Adel Hussein Elduma, Rehab Elageb, Kossi Badziklou, Koba Adjaho Komla, John Kayiwa, Julius Julian Lutwama, Lee Hampton, and Mick Norman Mulders

Subjects

yellow fever, laboratory, diagnostics, testing, Medicine

Abstract

INTRODUCTION: accurate and timely laboratory diagnosis of yellow fever (YF) is critical to the Eliminate Yellow Fever Epidemics (EYE) strategy. Gavi, the Vaccine Alliance recognized the need to support and build capacity in the national and regional laboratories in the Global YF Laboratory Network (GYFLN) as part of this strategy. METHODS: to better understand current capacity, gaps and needs of the GYFLN laboratories in Africa, assessments were carried out in national and regional reference laboratories in the 25 African countries at high risk for YF outbreaks that were eligible for new financial support from Gavi. RESULTS: the assessments found that the GYFLN in Africa has high capacity but 21% of specimens were not tested due to lack of testing kits or reagents and approximately 50% of presumptive YF cases were not confirmed at the regional reference laboratory due to problems with shipping. CONCLUSION: the laboratory assessments helped to document the baseline capacities of these laboratories prior to Gavi funding to support strengthening YF laboratories.

Published

2021

40. National Surveillance of Acute Flaccid Paralysis Cases in Senegal during 2017 Uncovers the Circulation of Enterovirus Species A, B and C

Author

Ndack Ndiaye, Amary Fall, Ousmane Kébé, Davy Kiory, Hamet Dia, Malick Fall, Ndongo Dia, Amadou Alpha Sall, Martin Faye, and Ousmane Faye

Subjects

enterovirus, children, acute flaccid paralysis, Senegal, Biology (General), QH301-705.5

Abstract

Polioviruses have been eliminated in many countries; however, the number of acute flaccid paralysis cases has not decreased. Non-polio enteroviruses are passively monitored as part of the polio surveillance program. Previous studies have shown that some enteroviruses do not grow in conventional cell lines used for the isolation of poliovirus according to the WHO guidelines. In order to evaluate the presence of enteroviruses, real-time RT-PCR was performed on Human Rhabdomyosarcoma (RD)-positive and RD-negative stool samples. A total of 310 stool samples, collected from children under the age of 15 years with acute flaccid paralysis in Senegal in 2017, were screened using cell culture and real-time RT-PCR methods. The selected isolates were further characterized using Sanger sequencing and a phylogenetic tree was inferred based on VP1 sequences. Out of the 310 stool samples tested, 89 were positive in real-time RT-PCR. A total of 40 partial VP1 sequences were obtained and the classification analysis showed that 3 (13%), 19 (82.6%), and 1 (4.4%) sequences from 23 RD-positive non-polio enterovirus isolates and 3 (17.6%), 7 (41.1%), and 7 (41.1%) sequences from 17 RD-negative stool samples belonged to the species EV-A, B, and C, respectively. Interestingly, the EV-B sequences from RD-negative stool samples were grouped into three separate phylogenetic clusters. Our data exhibited also a high prevalence of the EV-C species in RD-negative stool samples. An active country-wide surveillance program of non-polio enteroviruses based on direct RT-PCR coupled with sequencing could be important not only for the rapid identification of the involved emergence or re-emergence enteroviruses, but also for the assessment of AFP’s severity associated with non-polio enteroviruses detected in Senegal.

Published

2022

41. Molecular Epidemiology of Enterovirus A71 in Surveillance of Acute Flaccid Paralysis Cases in Senegal, 2013–2020

Author

Ndack Ndiaye, Fatou Diène Thiaw, Amary Fall, Ousmane Kébé, Khadija Leila Diatta, Ndongo Dia, Malick Fall, Amadou Alpha Sall, Martin Faye, and Ousmane Faye

Subjects

enterovirus A71, environment, AFP, Africa, Senegal, Medicine

Abstract

Enterovirus A71 (EV-A71) is a non-polio enterovirus that currently represents a major public health concern worldwide. In Africa, only sporadic cases have been reported. Acute flaccid paralysis and environmental surveillance programs have been widely used as strategies for documenting the circulation of polio and non-polio enteroviruses. To date, little is known about the molecular epidemiology of enterovirus A71 in Africa where resources and diagnostic capacities are limited. To fill this gap in Senegal, a total of 521 non-polio enterovirus isolates collected from both acute flaccid paralysis (AFP) and environmental surveillance (ES) programs between 2013 and 2020 were screened for enterovirus A71 using real-time RT-PCR. Positive isolates were sequenced, and genomic data were analyzed using phylogeny. An overall rate of 1.72% (9/521) of the analyzed isolates tested positive for enterovirus A71. All positive isolates originated from the acute flaccid paralysis cases, and 44.4% (4/9) of them were isolated in 2016. The nine newly characterized sequences obtained in our study included eight complete polyprotein sequences and one partial sequence of the VP1 gene, all belonging to the C genogroup. Seven out of the eight complete polyprotein sequences belonged to the C2 subgenotype, while one of them grouped with previous sequences from the C1 subgenotype. The partial VP1 sequence belonged to the C1 subgenotype. Our data provide not only new insights into the recent molecular epidemiology of enterovirus A71 in Senegal but also point to the crucial need to set up specific surveillance programs targeting non-polio enteroviruses at country or regional levels in Africa for rapid identification emerging or re-emerging enteroviruses and better characterization of public health concerns causing acute flaccid paralysis in children such as enterovirus A71. To estimate the real distribution of EV-A71 in Africa, more sero-epidemiological studies should be promoted, particularly in countries where the virus has already been reported.

Published

2022

42. Field Deployment of a Mobile Biosafety Laboratory Reveals the Co-Circulation of Dengue Viruses Serotype 1 and Serotype 2 in Louga City, Senegal, 2017

Author

Idrissa Dieng, Maryam Diarra, Moussa Moïse Diagne, Martin Faye, Marie Henriette Dior Ndione, Yamar Ba, Mamadou Diop, El Hadji Ndiaye, Paolo Marinho de Andrade Zanotto, Boly Diop, Mamadou Ndiaye, Abdoulaye Bousso, Ndongo Dia, Mawlouth Diallo, Aliou Barry, Gamou Fall, Cheikh Loucoubar, Amadou Alpha Sall, Ousmane Faye, and Oumar Faye

Subjects

Arctic medicine. Tropical medicine, RC955-962

Abstract

Dengue virus (DENV) is the most prevalent arboviral threat worldwide. This virus belonging to genus Flavivirus, Flaviviridae family, is responsible for a wide spectrum of clinical manifestations, ranging from asymptomatic or mild febrile illness (dengue fever) to life-threatening infections (severe dengue). Many sporadic cases and outbreaks have occurred in Senegal since 1970. Nevertheless, this article describes a field investigation of suspected dengue cases, between 05 September 2017 and 17 December 2017 made possible by the deployment of a Mobile Biosafety Laboratory (MBS-Lab). Overall, 960 human sera were collected and tested in the field for the presence of viral RNA by real-time RT-PCR. Serotyping, sequencing of complete E gene, and phylogenetic analysis were also performed. Out of 960 suspected cases, 131 were confirmed dengue cases. The majority of confirmed cases were from Louga community. Serotyping revealed two serotypes, Dengue 1 (100/104; 96, 15%) and Dengue 2 (04/104; 3, 84%). Phylogenetic analysis of the sequences obtained indicated that the Dengue 1 strain was closely related to strains isolated, respectively, in Singapore (Asia) in 2013 (KX380803.1) outbreak and it cocirculated with a Dengue 2 strain closely related to strains from a Burkina Faso dengue outbreak in 2016 (KY62776.1). Our results showed the co-circulation of two dengue virus serotypes during a single outbreak in a short time period. This co-circulation highlighted the need to improve surveillance in order to prevent future potential severe dengue cases through antibody-dependent enhancement (ADE). Interestingly, it also proved the reliability and usefulness of the MBS-Lab for expedient outbreak response at the point of need, which allows early cases management.

Published

2021

43. COVID-19 testing in Africa: lessons learnt

Author

Pascale Ondoa, Yenew Kebede, Marguerite Massinga Loembe, Jinal N Bhiman, Sofonias Kifle Tessema, Abdourahmane Sow, Amadou Alpha Sall, and John Nkengasong

Subjects

Medicine (General), R5-920, Microbiology, QR1-502

Published

2020

44. Detection of Crimean Congo haemorrhagic fever virus in North-eastern Senegal, Bokidiawé 2019

Author

Idrissa Dieng, Mamadou Aliou Barry, Moussa Moise Diagne, Boly Diop, Mamadou Ndiaye, Martin Faye, Marie Henriette Dior Ndione, Mame Malick Dieng, Abdoulaye Bousso, Gamou Fall, Cheikh Loucoubar, Amadou Alpha Sall, Oumar Faye, and Ousmane Faye

Subjects

CCHF, Genotype III, Senegal, North-East, Mauritania, 2019, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTWe diagnosed a human case of Crimean Congo hemorrhagic fever (CCHF) in Bokidiawe (North-eastern Senegal), 2019. The phylogenetic analysis revealed that the isolate belongs to genotype III and is closely related to a strain reported in Mauritania in 1984 and Spain in 2016. Distribution area of CCHF in Senegal is progressively increasing.

Published

2020

45. Surveillance of Viral Encephalitis in the Context of COVID-19: A One-Year Observational Study among Hospitalized Patients in Dakar, Senegal

Author

Jamil Kahwagi, Al Ousseynou Seye, Ahmadou Bamba Mbodji, Rokhaya Diagne, El hadji Mbengue, Maouly Fall, Soa Fy Andriamandimby, Ava Easton, Martin Faye, Gamou Fall, Ndongo Dia, Babacar Ndiaye, Momo Banda Ndiaye, Alle Gueye, Serigne Saliou Mbacke, Fatou Kane, Mohamed Inejih El Ghouriechy, ENSENE Investigators, Lala Bouna Seck, Ndiaga Matar Gaye, Amadou Alpha Sall, Moustapha Ndiaye, Ousmane Faye, Amadou Gallo Diop, and Jean-Michel Heraud

Subjects

encephalitis, virus, herpetic viruses, SARS-CoV-2, Senegal, Africa, Microbiology, QR1-502

Abstract

The burden of encephalitis and its associated viral etiology is poorly described in Africa. Moreover, neurological manifestations of COVID-19 are increasingly reported in many countries, but less so in Africa. Our prospective study aimed to characterize the main viral etiologies of patients hospitalized for encephalitis in two hospitals in Dakar. From January to December 2021, all adult patients that met the inclusion criteria for clinical infectious encephalitis were enrolled. Cerebrospinal fluids, blood, and nasopharyngeal swabs were taken and tested for 27 viruses. During the study period, 122 patients were enrolled. Viral etiology was confirmed or probable in 27 patients (22.1%), with SARS-CoV-2 (n = 8), HSV-1 (n = 7), HHV-7 (n = 5), and EBV (n = 4) being the most detected viruses. Age groups 40–49 was more likely to be positive for at least one virus with an odds ratio of 7.7. The mortality was high among infected patients, with 11 (41%) deaths notified during hospitalization. Interestingly, SARS-CoV-2 was the most prevalent virus in hospitalized patients presenting with encephalitis. Our results reveal the crucial need to establish a country-wide surveillance of encephalitis in Senegal to estimate the burden of this disease in our population and implement strategies to improve care and reduce mortality.

Published

2022

46. Development of Real-Time Molecular Assays for the Detection of Wesselsbron Virus in Africa

Author

Martin Faye, Thiané Seye, Pranav Patel, Cheikh Tidiane Diagne, Moussa Moise Diagne, Moussa Dia, Fatou Diène Thiaw, Amadou Alpha Sall, and Ousmane Faye

Subjects

Wesselsbron virus, molecular assays, diagnostics, point-of-need, Africa, Biology (General), QH301-705.5

Abstract

Wesselsbron is a neglected, mosquito-borne zoonotic disease endemic to Africa. The virus is mainly transmitted by the mosquitoes of the Aedes genus and primarily affects domestic livestock species with teratogenic effects but can jump to humans. Although no major outbreak or fatal case in humans has been reported as yet worldwide, a total of 31 acute human cases of Wesselsbron infection have been previously described since its first isolation in 1955. However, most of these cases were reported from Sub-Saharan Africa where resources are limited and a lack of diagnostic means exists. We describe here two molecular diagnostic tools suitable for Wesselsbron virus detection. The newly established reverse transcription-quantitative polymerase chain reaction and reverse-transcription-recombinase polymerase amplification assays are highly specific and repeatable, and exhibit good agreement with the reference assay on the samples tested. The validation on clinical and veterinary samples shows that they can be accurately used for Wesselsbron virus detection in public health activities and the veterinary field. Considering the increasing extension of Aedes species worldwide, these new assays could be useful not only in laboratory studies for Wesselsbron virus, but also in routine surveillance activities for zoonotic arboviruses and could be applied in well-equipped central laboratories or in remote areas in Africa, regarding the reverse-transcription-recombinase polymerase amplification assay.

Published

2022

47. Yellow Fever Outbreak in Eastern Senegal, 2020–2021

Author

Moussa Moïse Diagne, Marie Henriette Dior Ndione, Alioune Gaye, Mamadou Aliou Barry, Diawo Diallo, Amadou Diallo, Lusajo L. Mwakibete, Mamadou Diop, El Hadji Ndiaye, Vida Ahyong, Babacar Diouf, Moufid Mhamadi, Cheikh Tidiane Diagne, Fodé Danfakha, Boly Diop, Oumar Faye, Cheikh Loucoubar, Gamou Fall, Cristina M. Tato, Amadou Alpha Sall, Scott C. Weaver, Mawlouth Diallo, and Ousmane Faye

Subjects

yellow fever virus, arbovirus, eastern Senegal, Kedougou, sylvatic lifecycle, virus isolation, Microbiology, QR1-502

Abstract

Yellow fever virus remains a major threat in low resource countries in South America and Africa despite the existence of an effective vaccine. In Senegal and particularly in the eastern part of the country, periodic sylvatic circulation has been demonstrated with varying degrees of impact on populations in perpetual renewal. We report an outbreak that occurred from October 2020 to February 2021 in eastern Senegal, notified and managed through the synergistic effort yellow fever national surveillance implemented by the Senegalese Ministry of Health in collaboration with the World Health Organization, the countrywide 4S network set up by the Ministry of Health, the Institut Pasteur de Dakar, and the surveillance of arboviruses and hemorrhagic fever viruses in human and vector populations implemented since mid 2020 in eastern Senegal. Virological analyses highlighted the implication of sylvatic mosquito species in virus transmission. Genomic analysis showed a close relationship between the circulating strain in eastern Senegal, 2020, and another one from the West African lineage previously detected and sequenced two years ago from an unvaccinated Dutch traveler who visited the Gambia and Senegal before developing signs after returning to Europe. Moreover, genome analysis identified a 6-nucleotide deletion in the variable domain of the 3′UTR with potential impact on the biology of the viral strain that merits further investigations. Integrated surveillance of yellow fever virus but also of other arboviruses of public health interest is crucial in an ecosystem such as eastern Senegal.

Published

2021

48. First Detection of the West Nile Virus Koutango Lineage in Sandflies in Niger

Author

Gamou Fall, Diawo Diallo, Hadiza Soumaila, El Hadji Ndiaye, Adamou Lagare, Bacary Djilocalisse Sadio, Marie Henriette Dior Ndione, Michael Wiley, Moussa Dia, Mamadou Diop, Arame Ba, Fati Sidikou, Bienvenu Baruani Ngoy, Oumar Faye, Jean Testa, Cheikh Loucoubar, Amadou Alpha Sall, Mawlouth Diallo, and Ousmane Faye

Subjects

West Nile virus, Koutango lineage, high virulence, sandflies, Niger, Medicine

Abstract

West Nile virus (WNV), belonging to the Flaviviridae family, causes a mosquito-borne disease and shows great genetic diversity, with at least eight different lineages. The Koutango lineage of WNV (WN-KOUTV), mostly associated with ticks and rodents in the wild, is exclusively present in Africa and shows evidence of infection in humans and high virulence in mice. In 2016, in a context of Rift Valley fever (RVF) outbreak in Niger, mosquitoes, biting midges and sandflies were collected for arbovirus isolation using cell culture, immunofluorescence and RT-PCR assays. Whole genome sequencing and in vivo replication studies using mice were later conducted on positive samples. The WN-KOUTV strain was detected in a sandfly pool. The sequence analyses and replication studies confirmed that this strain belonged to the WN-KOUTV lineage and caused 100% mortality of mice. Further studies should be done to assess what genetic traits of WN-KOUTV influence this very high virulence in mice. In addition, given the risk of WN-KOUTV to infect humans, the possibility of multiple vectors as well as birds as reservoirs of WNV, to spread the virus beyond Africa, and the increasing threats of flavivirus infections in the world, it is important to understand the potential of WN-KOUTV to emerge.

Published

2021

49. Origin and Spread of the Dengue Virus Type 1, Genotype V in Senegal, 2015–2019

Author

Idrissa Dieng, Marielton dos Passos Cunha, Moussa Moïse Diagne, Pape Mbacké Sembène, Paolo Marinho de Andrade Zanotto, Ousmane Faye, Oumar Faye, and Amadou Alpha Sall

Subjects

dengue virus type 1, phylogeny, phylogeography, origin, Senegal, Microbiology, QR1-502

Abstract

Dengue virus (DENV) is the most widespread arthropod-borne virus, with the number and severity of outbreaks increasing worldwide in recent decades. Dengue is caused by genetically distinct serotypes, DENV-1–4. Here, we present data on DENV-1, isolated from patients with dengue fever during an outbreak in Senegal and Mali (Western Africa) in 2015–2019, that were analyzed by sequencing the envelope (E) gene. The emergence and the dynamics of DENV-1 in Western Africa were inferred by using maximum likelihood and Bayesian methods. The DENV-1 grouped into a monophyletic cluster that was closely related to those from Southeast Asia. The virus appears to have been introduced directly into Medina Gounass (Suburb of Dakar), Senegal (location probability = 0.301, posterior = 0.76). The introduction of the virus in Senegal occurred around 2014 (95% HPD = 2012.88–2014.84), and subsequently, the virus moved to regions within Senegal (e.g., Louga and Fatick), causing intense outbreaks in the subsequent years. The virus appears to have been introduced in Mali (a neighboring country) after its introduction in Senegal. In conclusion, we present evidence that the outbreak caused by DENV-1 in urban environments in Senegal and Mali after 2015 was caused by a single viral introduction from Asia.

Published

2021

50. Ebola Virus Imported from Guinea to Senegal, 2014

Author

Daye Ka, Gamou Fall, Viviane Cissé Diallo, Ousmane Faye, Louise Deguenonvo Fortes, Oumar Faye, Elhadji Ibrahim Bah, Kadia Mbaye Diallo, Fanny Balique, Cheikh Tidiane Ndour, Moussa Seydi, and Amadou Alpha Sall

Subjects

Ebola, Ebola virus, imported, Senegal, Guinea, Ebola virus disease, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

In March 2014, the World Health Organization declared an outbreak of Ebola virus disease in Guinea. In August 2014, a case caused by virus imported from Guinea occurred in Senegal, most likely resulting from nonsecure funerals and travel. Preparedness and surveillance in Senegal probably prevented secondary cases.

Published

2017