Your search keyword '"African horse sickness"' showing total 1,122 results

151. African horse sickness cases reportedly rising.

Author

Botha, Lindi

Subjects

*AFRICAN horse sickness, *ANIMAL vaccination

Abstract

The article examines the increasing cases of African horse sickness (AHS) in Gauteng, South Africa, and the unavailability of vaccines, causing significant challenges for horse owners and farmers, as the disease can be fatal and there is a peak season for infections during late summer.

Published

2023

152. Evidence of African horse sickness virus infection of <italic>Equus zebra hartmannae</italic> in the south‐western Khomas Region, Namibia.

Author

Becker, E., Venter, G. J., Greyling, T., Molini, U., and van Hamburg, H.

Subjects

*AFRICAN horse sickness, *AFRICAN horse sickness virus, *SERUM, *MOUNTAIN zebra, *ENZYME-linked immunosorbent assay

Abstract

Summary: Equine mortalities suspected to be due to African horse sickness (AHS) were reported from the arid Khomas Region, Namibia, in 2008. The area was previously considered a localized AHS‐free area. Hartmann's mountain zebra (Equus zebra hartmannae), a potential but unconfirmed reservoir host of African horse sickness virus (AHSV), occurs in the region. Between 2009 and 2010 serum, blood and tissue samples from 31 culled E. z. hartmannae were analysed by reverse transcription‐polymerase chain reaction (RT‐PCR) (n = 31) and enzyme‐linked immunosorbent assay (ELISA) (n = 18) to determine the presence of AHSV and/or antibodies against AHSV. The presence of antibodies against AHSV was demonstrated in all 18 samples assayed, and AHSV double stranded RNA was detected in 26% of the animals. This is evidence that E. z. hartmannae can become infected with AHSV. [ABSTRACT FROM AUTHOR]

Published

2018

153. Exotic threats to UK equines

Author

Matthew Robin

Subjects

0303 health sciences, West Nile Virus Infection, biology, 040301 veterinary sciences, 04 agricultural and veterinary sciences, biology.organism_classification, Equine piroplasmosis, 0403 veterinary science, 03 medical and health sciences, Geography, One Health, African horse sickness, Socioeconomics, 030304 developmental biology

Abstract

Historically, veterinary surgeons in the UK have had little cause to consider many vector-borne infections that are of great significance elsewhere in the world. Primarily this has reflected the combination of a lack of the required vectors and climate conditions for disease transmission, combined with the geographical barrier to disease entry that being a small island provides. In recent years there have been significant changes in the global distribution of vector-borne diseases, and it has been suggested that these are associated with climate change and the increasing international movement of animals and animal products. Veterinary surgeons attending cases with clinical findings consistent with exotic disease, in particular in any equids that have travelled or are housed with equids that have travelled, must remain vigilant to the possibility of the disease occurring in areas currently considered disease-free. This article focuses on three such diseases that increasingly threaten the UK equine population: African horse sickness, piroplasmosis and West Nile virus infection.

Published

2019

154. Prioritization of livestock transboundary diseases in Belgium using a multicriteria decision analysis tool based on drivers of emergence

Author

Frank Koenen, Mickaël Cargnel, Kris De Clercq, Yves Van der Stede, Claude Saegerman, Juana Bianchini, and Marie-France Humblet

Subjects

Livestock, 040301 veterinary sciences, Cost-Benefit Analysis, Decision Making, Porcine epidemic diarrhoea, Disease, medicine.disease_cause, Decision Support Techniques, 0403 veterinary science, 03 medical and health sciences, multicriteria decision analysis (MCDA), Belgium, ranking, sensitivity analysis, Surveys and Questionnaires, medicine, Animals, Humans, Environmental planning, 030304 developmental biology, transboundary diseases, 0303 health sciences, General Veterinary, General Immunology and Microbiology, biology, Cost–benefit analysis, Health Priorities, business.industry, Expert elicitation, Original Articles, drivers, prioritization, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Influenza A virus subtype H5N1, zoonoses, expert elicitation, Geography, Ranking, Virus Diseases, African horse sickness, Original Article, business, cluster analysis

Abstract

During the past decade, livestock diseases have (re-)emerged in areas where they had been previously eradicated or never been recorded before Drivers (i e factors of (re-)emergence) have been identified Livestock diseases spread irrespective of borders, and therefore, reliable methods are required to help decision-makers to identify potential threats and try stopping their (re-)emergence Ranking methods and multicriteria approaches are cost-effective tools for such purpose and were applied to prioritize a list of selected diseases (N = 29 including 6 zoonoses) based on the opinion of 62 experts in accordance with 50 drivers-related criteria Diseases appearing in the upper ranking were porcine epidemic diarrhoea, foot-and-mouth disease, low pathogenic avian influenza, African horse sickness and highly pathogenic avian influenza The tool proposed uses a multicriteria decision analysis approach to prioritize pathogens according to drivers and can be applied to other countries or diseases Copyright © 2019 Blackwell Verlag GmbH

Published

2019

155. Establishing post‐outbreak freedom from African horse sickness virus in South Africa's surveillance zone

Author

Evan S. Sergeant, Beverley Joan Parker, Lesley S. van Helden, Tasneem Anthony, Camilla Theresa Weyer, John Duncan Grewar, and Peter N. Thompson

Subjects

medicine.medical_specialty, African Horse Sickness Virus, Population, Survey sampling, Disease Outbreaks, South Africa, African Horse Sickness, Epidemiology, medicine, Animals, Horses, education, Sampling frame, education.field_of_study, General Veterinary, General Immunology and Microbiology, biology, Incidence (epidemiology), Outbreak, General Medicine, biology.organism_classification, Geography, African horse sickness, Sentinel Surveillance, Demography

Abstract

An African horse sickness (AHS) outbreak occurred in South Africa's AHS controlled area in autumn 2016. A freedom from disease survey was performed to establish the likelihood of ongoing circulation of the associated virus during the same period the following year. A single-stage surveillance strategy was employed with a population-level design prevalence of 1% to establish a survey population sensitivity of 95% (probability that one or more positive horses would be detected if AHS was present at a prevalence greater than or equal to the design prevalence). In March 2017, a total of 262 randomly selected horses from 51 herds were sampled from the 2016 outbreak containment zone. Three within-herd and herd-level design prevalence scenarios were used in evaluating the post-survey probability of freedom. Depending on the underlying design prevalence scenarios, effectively ranging between 0.8% and 6.4%, and the use of informed or uninformed priors, the probability of freedom derived from this surveillance ranged between 73.1% and 99.9% (uninformed prior) and between 96.6% and 100% (informed prior). Based on the results, the authors conclude that it is unlikely that the 2016 AHS virus was still circulating in the autumn of 2017 in the 2016 outbreak containment zone. The ability to perform freedom from disease surveys, and also to include risk-based methods, in the AHS controlled area of South Africa is influenced by the changing underlying population at risk and the high level of vaccination coverage in the horse population. Ongoing census post-outbreak must be undertaken to maintain a valid sampling frame for future surveillance activity. The seasonality of AHS, the restricted AHS vaccination period and the inability to easily differentiate infected from vaccinated animals by laboratory testing impact the ability to perform a freedom from disease survey for AHS in the 12 months following an outbreak in the controlled area.

Published

2019

156. Bloodmeal analysis in Culicoides midges collected near horses, donkeys and zebras in the Eastern Cape, South Africa

Author

M. A. Riddin, Martin H. Villet, K. Labuschagne, and G. J. Venter

Subjects

0301 basic medicine, Culicoides imicola, Food Chain, Ceratopogonidae, 030231 tropical medicine, Zoology, Host Specificity, South Africa, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, biology.animal, Animals, Horses, Ecology, Evolution, Behavior and Systematics, General Veterinary, biology, Equidae, Feeding Behavior, 030108 mycology & parasitology, biology.organism_classification, Culicoides, Culicoides bolitinos, Diet, Insect Science, Vector (epidemiology), Midge, African horse sickness, Female, Parasitology

Abstract

An upsurge in African horse sickness (AHS) in the Eastern Cape, South Africa, from 2006 led to an epidemiological reassessment of the disease there. Light trapping surveys carried out near horses, donkeys and zebras in 2014-2016 collected 39 species of Culicoides midge (Diptera: Ceratopogonidae) that are potential vectors of AHS. To establish if these midges fed on equids, DNA sequences were obtained from the gut contents of 52 female midges (35 freshly blood-fed, 13 gravid and four parous), representing 11 species collected across 11 sites. Culicoides leucostictus fed on all three equids. Culicoides bolitinos, Culicoides imicola and Culicoides magnus fed on both horses and donkeys. Culicoides onderstepoortensis fed on donkeys, and Culicoides similis and Culicoides pycnostictus fed on zebras. Bloodmeals from cows, pigs, warthogs, impalas and a domestic dog were also identified in various species, but none of the midges tested had fed on birds. These results contribute to knowledge of the vectorial capacity of several species of Culicoides with regard to AHS in the Eastern Cape and point to potential reservoir hosts, of which donkeys, zebras and domestic dogs have previously been found to harbour AHS. Blood-fed midges were also obtained throughout winter, indicating the potential for endemic AHS in the province.

Published

2019

157. Using a new serotype-specific Polymerase Chain Reaction (PCR) and sequencing to differentiate between field and vaccine-derived African Horse Sickness viruses submitted in 2016/2017

Author

Maryke Louise Ferreira, Marco Romito, and Antoinette van Schalkwyk

Subjects

0301 basic medicine, Serotype, Viral protein, 030106 microbiology, African Horse Sickness Virus, Genome, Viral, Serogroup, medicine.disease_cause, Polymerase Chain Reaction, Genome, Virus, law.invention, 03 medical and health sciences, law, African Horse Sickness, Virology, medicine, Animals, Horses, Serotyping, Polymerase chain reaction, DNA Primers, biology, Viral Vaccines, Sequence Analysis, DNA, Amplicon, biology.organism_classification, 030104 developmental biology, RNA, Viral, African horse sickness, Capsid Proteins

Abstract

The outer capsid viral protein 2 (VP2) of African horse sickness virus, encoded by the most variable genome segment 2 (Seg-2), is the primary target for AHSV-specific neutralising antibodies and thus determines the virus serotype. Full length segment 2 sequences from more than 100 AHSVs isolated over the last 80 years were compared and single nucleotide polymorphisms (SNPs) identified between the reference strains and recent field viruses. Regions unique to each individual serotype were identified and primers designed to differentially amplify each of the nine serotypes. The sequences of resulting amplicons contained a significant amount of SNPs to discriminate between field viruses and reference strains or live attenuated viruses. The new serotype specific RT-PCR were subsequently used to determine the prevalence of different AHSV serotypes associated with samples submitted to the Agricultural Research Council - Onderstepoort Veterinary Research Institute during the 2016 / 2017 season. Subsequent sequencing of the PCR products were used to determine if the infections were caused by field or vaccine-derived strains. The serotypes of 70 AHSV positive diagnostic samples submitted to the ARC-OVR were determined. Serotypes 2 and 6 were the most prevalent, while Serotype 1 was the only serotype where sequences identical to the ALV or reference strains were detected in field samples. Based on this study, the incidence of vaccine-derived AHS infections submitted from southern Africa were low. This serotype-specific RT-PCR and sequencing assay could assist with the surveillance and control of equines movement nationally and internationally. It could also provide valuable scientific guidance on the policies and guidelines regulating vaccination and trade of equines in South Africa.

Published

2019

158. Diagnosing bluetongue virus in domestic ruminants: current perspectives

Author

Verónica Martín, Noemí Sevilla, Daniel Rodríguez-Martín, and José M. Rojas

Subjects

Serotype, Orbivirus, biology, 040301 veterinary sciences, viruses, 0402 animal and dairy science, Outbreak, 04 agricultural and veterinary sciences, biology.organism_classification, medicine.disease, 040201 dairy & animal science, Virology, Virus, law.invention, 0403 veterinary science, law, medicine, African horse sickness, Virus classification, Epizootic, Polymerase chain reaction

Abstract

This review provides an overview of current and potential new diagnostic techniques against bluetongue virus (BTV), an Orbivirus transmitted by arthropods that affects ruminants. Bluetongue is a disease currently notifiable to the World Organization for Animal Health (OIE), causing great economic losses due to decreased trade associated with bluetongue outbreaks and high mortality and morbidity. BTV cross-reacts with many antigenically related viruses including viruses that causes African Horse sickness and epizootic haemorrhagic disease of deer. Therefore, reliable diagnostic approaches to detect BTV among these other antigenically related viruses are used or being developed. The antigenic determinant for differentiation of virus species/serogroups among orbiviruses is the VP7 protein, meanwhile VP2 is serotype specific. Serologically, assays are established in many laboratories, based mainly on competitive ELISA or serum neutralization assay (virus neutralization assay [VNT]) although new techniques are being developed. Virus isolation from blood or semen is, additionally, another means of BTV diagnosis. Nevertheless, most of these techniques for viral isolation are time-consuming and expensive. Currently, reverse-transcription polymerase chain reaction (RT-PCR) panels or real-time RT-PCR are widely used methods although next-generation sequencing remains of interest for future virus diagnosis.

Published

2019

159. Health and welfare problems of pack donkeys and cart horses in and around Holeta town, Walmara district, Central Ethiopia

Author

Chala Chaburte, Kassaye Aragaw, Feleke Getahun, Bojia Endabu, Zerihun Asefa, and Alemayehu Fanta

Subjects

Cart, 0303 health sciences, Veterinary medicine, education.field_of_study, biology, 040301 veterinary sciences, business.industry, Population, 04 agricultural and veterinary sciences, medicine.disease, biology.organism_classification, 030308 mycology & parasitology, 0403 veterinary science, 03 medical and health sciences, Lameness, Grazing, medicine, African horse sickness, Rabies, business, education, Epizootic lymphangitis, Strangles

Abstract

This study was conducted from October, 2013 to May, 2014 to identify and compare common health and welfare problems of pack donkeys and cart horses in and around Holeta town, central Ethiopia. The presence of the problems was directly assessed on 301 pack donkeys and 84 cart horses, and indirectly assessed in the areas where the study animals were living, grazing and working. Indirect assessments of the problems were also conducted using focus group discussions with 64 equine owners and 8 animal health professionals. Oral problems (2.3 and 16.7%), back sore (13.6 and 1.2%), girth sore (2.7 and 17.9%), tail base sore (15.6 and 0%), abnormal behavior (14.3 and 0%), epizootic lymphangitis (EL) (0 and 10.7%), wound (33 and 44%) and hoof overgrowth (62.5 and 35.7%) were identified on pack donkeys and cart horses, respectively. Indirect assessments indicated that the animals are affected by strangles, tetanus, anthrax, colic, lameness, EL, wounds, parasites, sarcoids, rabies, African horse sickness, owner abuses, shortage of feed and water, and housing problems in the area. This study revealed that back sore, tail sore and abnormal behavior were more frequently occurring in pack donkeys whereas girth sore and oral problems were more common in cart horses. Cart horses were highly affected by epizootic lymphangitis. Both species were more or less similarly affected by lameness, strangles, tetanus, colic, wounds, parasites, owner abuses, and lack of proper feeding, watering and housing. Therefore, awareness creation of the population about the use of these animals for working and good management system should be promoted by the government in the area. Capacity building services should also be delivered for local animal health professionals. Key words: Donkeys, horses, health, welfare, Ethiopia.

Published

2019

160. Rift Valley and West Nile Virus Antibodies in Camels, North Africa

Author

Mehdi El-Harrak, Raquel Martín-Folgar, Francisco Llorente, Paloma Fernández-Pacheco, Alejandro Brun, Jordi Figuerola, and Miguel Ángel Jiménez-Clavero

Subjects

Rift Valley fever virus, West Nile virus, African horse sickness, camel, antibodies, carriers, arboviruses, vector-borne infections, Rift Valley fever virus, West Nile virus, African horse sickness, camel, Medicine, Infectious and parasitic diseases, RC109-216

Published

2011

161. Diagnostic applications of molecular and serological assays for bluetongue and African horse sickness

Author

C E, Mayo, C T, Weyer, M J, Carpenter, K J, Reed, C P, Rodgers, K M, Lovett, A J, Guthrie, B A, Mullens, C M, Barker, W K, Reisen, and N J, MacLachlan

Subjects

South Africa, Sheep, African Horse Sickness, African Horse Sickness Virus, Animals, Sheep Diseases, Horse Diseases, Horses, Bluetongue, Bluetongue virus

Abstract

The availability of rapid, highly sensitive and specific molecular and serologic diagnostic assays, such as competitive enzyme-linked immunosorbent assay (cELISA), has expedited the diagnosis of emerging transboundary animal diseases, including bluetongue (BT) and African horse sickness (AHS), and facilitated more thorough characterisation of their epidemiology. The development of assays based on real-time, reverse-transcription polymerase chain reaction (RT-PCR) to detect and identify the numerous serotypes of BT virus (BTV) and AHS virus (AHSV) has aided in-depth studies of the epidemiology of BTV infection in California and AHSV infection in South Africa. The subsequent evaluation of pan-serotype, real-time, RT-PCR-positive samples through the use of serotype-specific RT-PCR assays allows the rapid identification of virus serotypes, reducing the need for expensive and time-consuming conventional methods, such as virus isolation and serotype-specific virus neutralisation assays. These molecular assays and cELISA platforms provide tools that have enhanced epidemiologic surveillance strategies and improved our understanding of potentially altered Culicoides midge behaviour when infected with BTV. They have also supported the detection of subclinical AHSV infection of vaccinated horses in South Africa. Moreover, in conjunction with whole genome sequence analysis, these tests have clarified that the mechanism behind recent outbreaks of AHS in the AHS-controlled area of South Africa was the result of the reversion to virulence and/or genome reassortment of live attenuated vaccine viruses. This review focuses on the use of contemporary molecular diagnostic assays in the context of recent epidemiologic studies and explores their advantages over historic virus isolation and serologic techniques.La disponibilité d’essais diagnostiques moléculaires et sérologiques rapides, hautement sensibles et spécifiques tels que l’épreuve immuno-enzymatique de compétition (ELISAc), a accéléré le diagnostic des maladies animales transfrontalières émergentes, dont la fièvre catarrhale ovine (FCO) et la peste équine, et contribué à dresser un tableau épidémiologique plus complet de ces maladies. Grâce à la mise au point d’essais basés sur l’amplification en chaîne par polymérase en temps réel couplée à une transcription inverse (RT–PCR) qui permettent de détecter et d’identifier les nombreux sérotypes du virus de la fièvre catarrhale du mouton et du virus de la peste équine, des études approfondies ont pu être conduites sur l’épidémiologie de l’infection par le virus de la fièvre catarrhale du mouton en Californie et de l’infection par le virus de la peste équine en Afrique du Sud. L’évaluation postérieure des échantillons positifs à une RT–PCR en temps réel de groupe (détectant le virus quel que soit le sérotype) au moyen de RT–PCR spécifiques de chaque sérotype permet d’identifier rapidement le sérotype causal et de limiter le recours à des méthodes classiques onéreuses et chronophages comme l’isolement viral ou les essais de neutralisation virale spécifiques de chaque sérotype. Les outils fournis par ces essais moléculaires et par les plateformes ELISAc ont renforcé les stratégies de surveillance épidémiologique et permis de mieux connaître les altérations potentielles de comportement chez les tiques Culicoides infectées par le virus de la fièvre catarrhale du mouton. Ils ont également contribué à détecter les cas d’infection asymptomatique par le virus de la peste équine chez des chevaux vaccinés en Afrique du Sud. En outre, associés avec l’analyse de séquences du génome entier, ces tests ont révélé que le mécanisme sous-jacent aux récents foyers de peste équine dans la zone de contrôle en Afrique du Sud correspondait à une réversion vers la virulence et/ou à un réassortiment du génome des souches de vaccin à virus vivant atténué. Les auteurs passent en revue l’utilisation des essais de diagnostic moléculaire de nouvelle génération dans le contexte de récentes études épidémiologiques et cherchent à établir leurs avantages par rapport aux techniques classiques d’isolement viral et de recherche sérologique.La existencia de ensayos moleculares y serológicos de diagnóstico rápidos y de gran sensibilidad y especificidad, como el ensayo inmunoenzimático de competición (ELISAc), ha acelerado el diagnóstico de enfermedades animales transfronterizas emergentes, como la lengua azul o la peste equina, y facilitado una caracterización más exhaustiva de su epidemiología. La creación de ensayos basados en la reacción en cadena de la polimerasa acoplada a transcripción inversa (RT?PCR) en tiempo real para detectar y caracterizar los numerosos serotipos de los virus de la lengua azul y la peste equina ha ayudado a estudiar a fondo la epidemiología de sendos episodios infecciosos causados por el virus de la lengua azul en California y por el virus de la peste equina en Sudáfrica. El subsiguiente análisis de las muestras positivas a la prueba de RT?PC en tiempo real de cualquier serotipo con empleo de ensayos RT?PCR dirigidos específicamente contra uno u otro serotipo permite identificar rápidamente los serotipos víricos, lo que hace menos necesario el uso de métodos convencionales más caros y largos, como el aislamiento del virus o técnicas de neutralización vírica adaptadas específicamente a un serotipo. Estos dispositivos de ensayo molecular o de ELISAc ponen a nuestra disposición herramientas que potencian las estrategias de vigilancia epidemiológica y ayudan a conocer mejor las eventuales alteraciones del comportamiento de los jejenes Culicoides al ser infectados por el virus de la lengua azul. Estas técnicas han ayudado también a detectar en Sudáfrica casos de infección asintomática por el virus de la peste equina en caballos vacunados. Estas pruebas, además, empleadas en combinación con el análisis de secuencias genómicas completas, han servido para aclarar que el mecanismo subyacente a los recientes brotes de peste equina surgidos en la zona de Sudáfrica donde la enfermedad estaba bajo control fue fruto de la reversión a la virulencia y/o el reordenamiento genómico de virus vacunales atenuados. Los autores, centrándose en el uso de modernos ensayos moleculares de diagnóstico como parte de recientes estudios epidemiológicos, examinan las ventajas que ofrecen en comparación con las tradicionales técnicas serológicas y de aislamiento vírico.

Published

2021

162. Pathogen detection and disease diagnosis in wildlife: challenges and opportunities

Author

A L, Michel, H, Van Heerden, B M, Crossley, S, Al Dahouk, D, Prasse, and V, Rutten

Subjects

South Africa, African Horse Sickness, African Horse Sickness Virus, Animals, Animals, Wild, Horse Diseases, Horses, Bluetongue virus

Abstract

The availability of rapid, highly sensitive and specific molecular and serologic diagnostic assays, such as competitive enzyme-linked immunosorbent assay (cELISA), has expedited the diagnosis of emerging transboundary animal diseases, including bluetongue (BT) and African horse sickness (AHS), and facilitated more thorough characterisation of their epidemiology. The development of assays based on real-time, reverse-transcription polymerase chain reaction (RT-PCR) to detect and identify the numerous serotypes of BT virus (BTV) and AHS virus (AHSV) has aided in-depth studies of the epidemiology of BTV infection in California and AHSV infection in South Africa. The subsequent evaluation of pan-serotype, real-time, RT-PCR-positive samples through the use of serotype-specific RT-PCR assays allows the rapid identification of virus serotypes, reducing the need for expensive and time-consuming conventional methods, such as virus isolation and serotype-specific virus neutralisation assays. These molecular assays and cELISA platforms provide tools that have enhanced epidemiologic surveillance strategies and improved our understanding of potentially altered Culicoides midge behaviour when infected with BTV. They have also supported the detection of subclinical AHSV infection of vaccinated horses in South Africa. Moreover, in conjunction with whole genome sequence analysis, these tests have clarified that the mechanism behind recent outbreaks of AHS in the AHS-controlled area of South Africa was the result of the reversion to virulence and/or genome reassortment of live attenuated vaccine viruses. This review focuses on the use of contemporary molecular diagnostic assays in the context of recent epidemiologic studies and explores their advantages over historic virus isolation and serologic techniques.La disponibilité d’essais diagnostiques moléculaires et sérologiques rapides, hautement sensibles et spécifiques tels que l’épreuve immuno-enzymatique de compétition (ELISAc), a accéléré le diagnostic des maladies animales transfrontalières émergentes, dont la fièvre catarrhale ovine (FCO) et la peste équine, et contribué à dresser un tableau épidémiologique plus complet de ces maladies. Grâce à la mise au point d’essais basés sur l’amplification en chaîne par polymérase en temps réel couplée à une transcription inverse (RT–PCR) qui permettent de détecter et d’identifier les nombreux sérotypes du virus de la fièvre catarrhale du mouton et du virus de la peste équine, des études approfondies ont pu être conduites sur l’épidémiologie de l’infection par le virus de la fièvre catarrhale du mouton en Californie et de l’infection par le virus de la peste équine en Afrique du Sud. L’évaluation postérieure des échantillons positifs à une RT–PCR en temps réel de groupe (détectant le virus quel que soit le sérotype) au moyen de RT–PCR spécifiques de chaque sérotype permet d’identifier rapidement le sérotype causal et de limiter le recours à des méthodes classiques onéreuses et chronophages comme l’isolement viral ou les essais de neutralisation virale spécifiques de chaque sérotype. Les outils fournis par ces essais moléculaires et par les plateformes ELISAc ont renforcé les stratégies de surveillance épidémiologique et permis de mieux connaître les altérations potentielles de comportement chez les tiques Culicoides infectées par le virus de la fièvre catarrhale du mouton. Ils ont également contribué à détecter les cas d’infection asymptomatique par le virus de la peste équine chez des chevaux vaccinés en Afrique du Sud. En outre, associés avec l’analyse de séquences du génome entier, ces tests ont révélé que le mécanisme sous-jacent aux récents foyers de peste équine dans la zone de contrôle en Afrique du Sud correspondait à une réversion vers la virulence et/ou à un réassortiment du génome des souches de vaccin à virus vivant atténué. Les auteurs passent en revue l’utilisation des essais de diagnostic moléculaire de nouvelle génération dans le contexte de récentes études épidémiologiques et cherchent à établir leurs avantages par rapport aux techniques classiques d’isolement viral et de recherche sérologique.La existencia de ensayos moleculares y serológicos de diagnóstico rápidos y de gran sensibilidad y especificidad, como el ensayo inmunoenzimático de competición (ELISAc), ha acelerado el diagnóstico de enfermedades animales transfronterizas emergentes, como la lengua azul o la peste equina, y facilitado una caracterización más exhaustiva de su epidemiología. La creación de ensayos basados en la reacción en cadena de la polimerasa acoplada a transcripción inversa (RT?PCR) en tiempo real para detectar y caracterizar los numerosos serotipos de los virus de la lengua azul y la peste equina ha ayudado a estudiar a fondo la epidemiología de sendos episodios infecciosos causados por el virus de la lengua azul en California y por el virus de la peste equina en Sudáfrica. El subsiguiente análisis de las muestras positivas a la prueba de RT?PC en tiempo real de cualquier serotipo con empleo de ensayos RT?PCR dirigidos específicamente contra uno u otro serotipo permite identificar rápidamente los serotipos víricos, lo que hace menos necesario el uso de métodos convencionales más caros y largos, como el aislamiento del virus o técnicas de neutralización vírica adaptadas específicamente a un serotipo. Estos dispositivos de ensayo molecular o de ELISAc ponen a nuestra disposición herramientas que potencian las estrategias de vigilancia epidemiológica y ayudan a conocer mejor las eventuales alteraciones del comportamiento de los jejenes Culicoides al ser infectados por el virus de la lengua azul. Estas técnicas han ayudado también a detectar en Sudáfrica casos de infección asintomática por el virus de la peste equina en caballos vacunados. Estas pruebas, además, empleadas en combinación con el análisis de secuencias genómicas completas, han servido para aclarar que el mecanismo subyacente a los recientes brotes de peste equina surgidos en la zona de Sudáfrica donde la enfermedad estaba bajo control fue fruto de la reversión a la virulencia y/o el reordenamiento genómico de virus vacunales atenuados. Los autores, centrándose en el uso de modernos ensayos moleculares de diagnóstico como parte de recientes estudios epidemiológicos, examinan las ventajas que ofrecen en comparación con las tradicionales técnicas serológicas y de aislamiento vírico.

Published

2021

163. African horse sickness control: Movement report 2020

Author

Grewar, John Duncan and Weyer, Camilla Theresa

Subjects

Disease control, Movement, African horse sickness

Abstract

This is the third detailed report on equine movements in South Africa with respect to controls implemented to mitigate the risk of African horse sickness virus (AHSV) entering the AHS controlled area of the country.

Published

2021

164. Addressing the recent outbreak of African horse sickness in Lagos, Nigeria.

Author

Adesola RO, Bakre AA, and Gulumbe BH

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

165. Immune response of horses to inactivated African horse sickness vaccines

Author

Rodríguez, Marina, Joseph, Sunitha, Pfeffer, Martin, Raghavan, Rekha, and Wernery, Ulrich

Published

2020

166. Host preferences and circadian rhythm of Culicoides (Diptera: Ceratopogonidae), vectors of African horse sickness and bluetongue viruses in Senegal.

Author

Fall, Moussa, Fall, Assane G., Seck, Momar T., Bouyer, Jérémy, Diarra, Maryam, Lancelot, Renaud, Gimonneau, Geoffrey, Garros, Claire, Bakhoum, Mame T., Faye, Ousmane, Baldet, Thierry, and Balenghien, Thomas

Subjects

*AFRICAN horse sickness, *BLUETONGUE virus, *VIRUS disease transmission, *HOSTS (Biology), *CIRCADIAN rhythms, *CULICOIDES, *INSECTS as carriers of disease

Abstract

African horse sickness- and bluetongue virus are orbiviruses transmitted by Culicoides biting midges (Diptera: Ceratopogonidae) to horses and to ruminants, respectively. Since the last epizootic outbreak of African horse sickness in 2007 in Senegal, extensive investigations have been undertaken to improve our knowledge on Culicoides species involved locally in the transmission of the virus. The purpose of this study was to compare and quantify the host preferences of potential vectors of these orbiviruses on horse and sheep and to study their circadian rhythm. We found that Culicoides oxystoma and species of the sub-genus Avaritia ( Culicoides imicola , Culicoides bolitinos and Culicoides pseudopallidipennis ) had a preference for horse when compared to sheep (the predicted ratio between horse and sheep was 80 for C. oxystoma and 26 for C. imicola ), and were mostly crepuscular: C. oxystoma had continuous activity throughout the diel with peaks in numbers collected after sunrise and sunset, while C. imicola was mostly nocturnal with peak after sunset. Unexpectedly, species of the subgenus Lasiohelea was also collected during this study. This diurnal biting species was a nuisance pest for both animal species used as bait. [ABSTRACT FROM AUTHOR]

Published

2015

167. VP2 Exchange and NS3/NS3a Deletion in African Horse Sickness Virus (AHSV) in Development of Disabled Infectious Single Animal Vaccine Candidates for AHSV.

Author

van de Water, Sandra G. P., van Gennip, René G. P., Potgieter, Christiaan A., Wright, Isabel M., and van Rijn, Piet A.

Subjects

*AFRICAN horse sickness, *VETERINARY vaccines, *DELETION mutation, *REOVIRUSES, *PROTEINS, *SEROTYPES, *ANIMAL mortality, *DISEASE vectors

Abstract

African horse sickness virus (AHSV) is a virus species in the genus Orbivirus of the family Reoviridae. There are nine serotypes of AHSV showing different levels of cross neutralization. AHSV is transmitted by species of Culicoides biting midges and causes African horse sickness (AHS) in equids, with a mortality rate of up to 95% in naive horses. AHS has become a serious threat for countries outside Africa, since endemic Culicoides species in moderate climates appear to be competent vectors for the related bluetongue virus (BTV). To control AHS, live-attenuated vaccines (LAVs) are used in Africa. We used reverse genetics to generate "synthetic" reassortants of AHSV for all nine serotypes by exchange of genome segment 2 (Seg-2). This segment encodes VP2, which is the serotype-determining protein and the dominant target for neutralizing antibodies. Single Seg-2 AHSV reassortants showed similar cytopathogenic effects in mammalian cells but displayed different growth kinetics. Reverse genetics for AHSV was also used to study Seg-10 expressing NS3/NS3a proteins. We demonstrated that NS3/NS3a proteins are not essential for AHSV replication in vitro. NS3/NS3a of AHSV is, however, involved in the cytopathogenic effect in mammalian cells and is very important for virus release from cultured insect cells in particular. Similar to the concept of the bluetongue disabled infectious single animal (BT DISA) vaccine platform, an AHS DISA vaccine platform lacking NS3/NS3a expression was developed. Using exchange of genome segment 2 encoding VP2 protein (Seg-2[VP2]), we will be able to develop AHS DISA vaccine candidates for all current AHSV serotypes. IMPORTANCE African horse sickness virus is transmitted by species of Culicoides biting midges and causes African horse sickness in equids, with a mortality rate of up to 95% in naive horses. African horse sickness has become a serious threat for countries outside Africa, since endemic Culicoides species in moderate climates are supposed to be competent vectors. By using reverse genetics, viruses of all nine serotypes were constructed by the exchange of Seg-2 expressing the serotype-determining VP2 protein. Furthermore, we demonstrated that the nonstructural protein NS3/NS3a is not essential for virus replication in vitro. However, the potential spread of the virus by biting midges is supposed to be blocked, since the in vitro release of the virus was strongly reduced due to this deletion. VP2 exchange and NS3/NS3a deletion in African horse sickness virus were combined in the concept of a disabled infectious single animal vaccine for all nine serotypes. [ABSTRACT FROM AUTHOR]

Published

2015

168. Circadian activity of Culicoides oxystoma (Diptera: Ceratopogonidae), potential vector of bluetongue and African horse sickness viruses in the Niayes area, Senegal.

Author

Fall, Moussa, Fall, Assane, Seck, Momar, Bouyer, Jérémy, Diarra, Maryam, Balenghien, Thomas, Garros, Claire, Bakhoum, Mame, Faye, Ousmane, Baldet, Thierry, and Gimonneau, Geoffrey

Subjects

*CULICOIDES, *CIRCADIAN rhythms, *FLIES as carriers of disease, *BLUETONGUE virus, *AFRICAN horse sickness virus, *INSECTS

Abstract

Culicoides biting midges (Diptera: Ceratopogonidae) are important vectors of arboviruses in Africa. Culicoides oxystoma has been recently recorded in the Niayes region of Senegal (West Africa) and its high abundance on horses suggests a potential implication in the transmission of the African horse sickness virus in this region. This species is also suspected to transmit bluetongue virus to imported breeds of sheep. Little information is available on the biology and ecology of Culicoides in Africa. Therefore, understanding the circadian host-seeking activity of this putative vector is of primary importance to assess the risk of the transmission of Culicoides-borne pathogens. To achieve this objective, midges were collected using a sheep-baited trap over two consecutive 24-h periods during four seasons in 2012. A total of 441 Culicoides, belonging to nine species including 418 (94.8 %) specimens of C. oxystoma, were collected. C. oxystoma presented a bimodal circadian host-seeking activity at sunrise and sunset in July and was active 3 h after sunrise in April. Daily activity appeared mainly related to time periods. Morning activity increased with the increasing temperature up to about 27 °C and then decreased with the decreasing humidity, suggesting thermal limits for C. oxystoma activity. Evening activity increased with the increasing humidity and the decreasing temperature, comprised between 20 and 27 °C according to seasons. Interestingly, males were more abundant in our sampling sessions, with similar activity periods than females, suggesting potential animal host implication in the facilitation of reproduction. Finally, the low number of C. oxystoma collected render practical vector-control recommendations difficult to provide and highlight the lack of knowledge on the bio-ecology of this species of veterinary interest. [ABSTRACT FROM AUTHOR]

Published

2015

169. Directed genetic modification of African horse sickness virus by reverse genetics.

Author

Vermaak, Elaine, Paterson, Duncan J., Conradie, Andele, and Theron, Jacques

Subjects

*AFRICAN horse sickness, *ORBIVIRUS infections in animals, *AFRICAN horse sickness virus, *CHROMOSOMES, *REVERSE genetics

Abstract

African horse sickness virus (AHSV), a member of the Orbivirus genus in the family Reoviridae, is an arthropod-transmitted pathogen that causes a devastating disease in horses with a mortality rate greater than 90%. Fundamental research on AHSV and the development of safe, efficacious vaccines could benefit greatly from an uncomplicated genetic modification method to generate recombinant AHSV. We demonstrate that infectious AHSV can be recovered by transfection of permissive mammalian cells with transcripts derived in vitro from purified AHSV core particles. These findings were expanded to establish a genetic modification system for AHSV that is based on transfection of the cells with a mixture of purified core transcripts and a synthetic T7 transcript. This approach was applied successfully to recover a directed cross-serotype reassortant AHSV and to introduce a marker sequence into the viral genome. The ability to manipulate the AHSV genome and engineer specific mutants will increase understanding of AHSV replication and pathogenicity, as well as provide a tool for generating designer vaccine strains. [ABSTRACT FROM AUTHOR]

Published

2015

170. Protection of horses against Culicoides biting midges in different housing systems in Switzerland.

Author

Lincoln, V.J., Page, P.C., Kopp, C., Mathis, A., von Niederhäusern, R., Burger, D., and Herholz, C.

Subjects

*BITES & stings, *HORSE diseases, *CULICOIDES, *HOUSING, *DISEASE vectors

Abstract

Species belonging to the Culicoides complexes (Diptera, Ceratopogonidae), obsoletus and pulicaris, in Switzerland, are potential vectors of both bluetongue virus (BTV) and African horse sickness virus (AHSV). The epidemic of BTV in 2006 and 2007 in Europe has highlighted the risk of introduction and spread of vector-borne diseases in previously non-endemic areas. As a measure of prevention, as part of an integrated control programme in the event of an outbreak of African horse sickness (AHS), it is of utmost importance to prevent, or substantially reduce, contact between horses and Culicoides. The aim of the present study was to compare the effect of three protection systems, net, fan, repellent, or combinations thereof, with regard to their potential to reduce contact between horses and Culicoides. Three different equine housing systems, including individual boxes (BX), group housing systems (GR), and individual boxes with permanently accessible paddock (BP) were used. The efficacy of the protection systems were evaluated by comparing the total number counts of collected female Culicoides, of non-blood-fed and blood-fed Culicoides, respectively, with UV black light traps. The study was conducted over 3 summer months during 2012 and 2013 each and focused on the efficacy and practicality of the protection systems. The repellent was tested in 2012 only and not further investigated in 2013, as it showed no significant effect in reducing Culicoides collected in the light traps. Net protection system provided the best overall protection for the total number of female Culicoides, non-blood-fed and blood-fed Culicoides in all tested housing systems. The net, with a pore size of 0.1825 mm 2 , reduced the total number of Culicoides collected in the housing systems BP, GR and BX by 98%, 85% and 67%, respectively. However, in the GR housing system, no significant difference between the effectiveness of the fan and the net were determined for any of the three Culicoides categories. The results of the present study demonstrated that horse owners can substantially reduce their horses’ exposure to Culicoides, by using net protection in the housing systems BX, BP and GR. In GR housing systems, protection against Culicoides using a fan is also recommended. [ABSTRACT FROM AUTHOR]

Published

2015

171. A spatiotemporal model to assess the introduction risk of African horse sickness by import of animals and vectors in France.

Author

Faverjon, C., Leblond, A., Hendrikx, P., Balenghien, T., de Vos, C. J., Fischer, E. A. J., and de Koeijer, A. A.

Subjects

*AFRICAN horse sickness, *HORSE viral diseases, *VIRUS diseases, *CULICOIDES, *RISK assessment

Abstract

Background: African horse sickness (AHS) is a major, Culicoides-borne viral disease in equines whose introduction into Europe could have dramatic consequences. The disease is considered to be endemic in sub-Saharan Africa. Recent introductions of other Culicoides-borne viruses (bluetongue and Schmallenberg) into northern Europe have highlighted the risk that AHS may arrive in Europe as well. The aim of our study was to provide a spatiotemporal quantitative risk model of AHS introduction into France. The study focused on two pathways of introduction: the arrival of an infectious host (PW-host) and the arrival of an infectious Culicoides midge via the livestock trade (PW-vector). The risk of introduction was calculated by determining the probability of an infectious animal or vector entering the country and the probability of the virus then becoming established: i.e., the virus's arrival in France resulting in at least one local equine host being infected by one local vector. This risk was assessed using data from three consecutive years (2010 to 2012) for 22 regions in France. Results: The results of the model indicate that the annual risk of AHS being introduced to France is very low but that major spatiotemporal differences exist. For both introduction pathways, risk is higher from July to October and peaks in July. In general, regions with warmer climates are more at risk, as are colder regions with larger equine populations; however, regional variation in animal importation patterns (number and species) also play a major role in determining risk. Despite the low probability that AHSV is present in the EU, intra-EU trade of equines contributes most to the risk of AHSV introduction to France because it involves a large number of horse movements. Conclusion: It is important to address spatiotemporal differences when assessing the risk of ASH introduction and thus also when implementing efficient surveillance efforts. The methods and results of this study may help develop surveillance techniques and other risk reduction measures that will prevent the introduction of AHS or minimize AHS' potential impact once introduced, both in France and the rest of Europe. [ABSTRACT FROM AUTHOR]

Published

2015

172. Efficacy of alphacypermethrin-treated high density polyethylene mesh applied to jet stalls housing horses against Culicoides biting midges in South Africa.

Author

Page, P.C., Labuschagne, K., Venter, G.J., Schoeman, J.P., and Guthrie, A.J.

Subjects

*CYPERMETHRIN, *HIGH density polyethylene, *DRUG efficacy, *CERATOPOGONIDAE, *AFRICAN horse sickness, *MEDICAL suction, *HORSES -- Housing

Abstract

The efficacy of alphacypermethrin-treated high density polyethylene (HDPE) mesh applied to jet stalls against Culicoides biting midges (Diptera: Ceratopogonidae) was determined by mechanical aspiration of midges from horses and using Onderstepoort 220 V downdraught black light traps in four blocks of a 3 × 2 randomised design under South African field conditions. The alphacypermethrin-treated HDPE mesh applied to the stall significantly ( P = 0.008) reduced the number of Culicoides midges, predominantly Culicoides ( Avaritia ) imicola Kieffer, mechanically aspirated from horses housed in the stall. The mesh reduced the Culicoides midge attack rate in the treated stall compared to the untreated stall and a sentinel horse by 6 times and 14 times, respectively. The number of Culicoides midges and C. imicola collected in light traps from the untreated and alphacypermethrin HDPE mesh-treated stalls did not differ significantly ( P = 0.82). Alphacypermethrin-treated HDPE mesh could be used to reduce exposure of horses in jet stalls to Culicoides midges, specifically C. imicola , and the risk of midge-borne Orbivirus transmission. [ABSTRACT FROM AUTHOR]

Published

2015

173. PCR- RFLP for Identification of Bluetongue Virus Serotypes.

Author

Bernal-Silva, Sofía, Villanueva-Segura, Olga Karina, Lugo-Trampe, Ángel, del Carmen Trujillo-Murillo, Karina, Ponce-García, Gustavo, Favela-Lara, Susana, Delgado-Encizo, Ivan, Martínez-de-Villarreal, Laura E., Garza-Guajardo, Raquel, Barboza-Quintana, Oralia, González-Alvarez, Rafael, Flores-Suarez, Adriana E., and Rodríguez-Sánchez, Irám Pablo

Subjects

*BLUETONGUE virus, *SEROTYPES, *CULICOIDES, *VIRAL transmission, *AFRICAN horse sickness, *OLIGONUCLEOTIDES, *DNA restriction enzymes

Abstract

Bluetongue virus is the etiological agent of a disease characterized by bleeding in domestic and wild ruminants. Different viral strains can infect a ruminant species and severity of infection is variable. Transmission of the virus under natural conditions is through the bite of a mosquito of the genus Culicoides (Ceratopogonidae), but also can be transmitted by infected semen or embryos. The genus Culicoides is a vector of other diseases such as African horse sickness. Specimens are about 0.5 to 5 mm in size. There are about 1,400 species of Culicoides, only 32 of which can act as biological vectors. This is because of the receiver with the intestinal cells where amplification occurs in viral load. A segment 10 of the viral genome from 16 viral serotypes (of approximately 26 serotypes reported) was used. The sequences were aligned, and the consensus sequence was obtained. Subsequently, a pair of oligonucleotides was designed on a highly conserved region that theoretically allows co-amplification of the strains. Sites for restriction enzymes were identified to create a specific electrophoretic pattern for each serotype. It was possible to theoretically amplify a gene segment of 16 bluetongue virus serotypes with one set of oligonucleotides and the serotypes can be differentiated with two restriction enzymes. The proposed method could become a simple, inexpensive, and practical routine tool for type-specific identification of bluetongue virus. [ABSTRACT FROM AUTHOR]

Published

2015

174. Did disease constrain the spread of domestic dogs ( Canis familiaris ) into Sub-Saharan Africa?

Author

Mitchell, Peter

Subjects

*DOG diseases, *VISCERAL leishmaniasis, *DOGS as carriers of disease, *AFRICAN horse sickness virus, *BLACK-backed jackal, *INFECTIOUS disease transmission

Abstract

Dogs are not native to the African continent and appear to have been introduced there from the Middle East. While they spread relatively swiftly across North Africa — perhaps in association with a pastoralist economy — their expansion south of the Sahara appears to have been much slower and more staggered. Although their rarity in many Sub-Saharan faunal assemblages has sometimes been explained on taphonomic grounds, this paper argues that when they entered Sub-Saharan Africa dogs must have encountered a series of endemic diseases for which native mammalian species (including wild canids) acted as reservoirs. Having reviewed the archaeological evidence for their presence in Africa, it then discusses the challenges posed to dogs by five such diseases: canine tryopanosomiasis, canine babesiosis, African horse sickness, canine monocytic ehrlichiosis and visceral leishmaniasis. The paper concludes by considering possible ways in which the disease constraint model advanced here might be evaluated further and asks whether dogs may themselves have posed health risks to people or livestock and whether disease may also have constrained their expansion into other tropical parts of the world. [ABSTRACT FROM PUBLISHER]

Published

2015

175. Safety and efficacy of inactivated African horse sickness (AHS) vaccine formulated with different adjuvants

Author

24551287 - Van Rijn, Petrus Antonius, 10085637 - Potgieter, Abraham Christiaan, Van Rijn, Piet A., Potgieter, Christiaan A., Maris-Veldhuis, Mieke A., Grobler, Miemie, Wright, Isabel M., 24551287 - Van Rijn, Petrus Antonius, 10085637 - Potgieter, Abraham Christiaan, Van Rijn, Piet A., Potgieter, Christiaan A., Maris-Veldhuis, Mieke A., Grobler, Miemie, and Wright, Isabel M.

Abstract

African horse sickness virus (AHSV) is a virus species in the genus Orbivirus of the family Reoviridae causing African Horse Sickness (AHS) in equids with a mortality of about 95% in naïve horses. AHS causes serious losses in developing countries where horses play a central role in draft power and transportation. There are nine AHSV serotypes inducing no or low cross-neutralizing antibodies. AHSV is spread by biting Culicoides midges. AHS is endemic in sub-Saharan Africa, and a serious threat outside Africa, since Culicoides species in moderate climate conditions are spreading the closely related bluetongue virus. AHS outbreaks will be devastating for the equestrian industry in developed countries. Live-attenuated vaccines (LAVs) are licensed, marketed and in use in Africa. Their application is controversial with regard to safety issues. LAVs are not allowed in AHS-free countries. We here studied inactivated AHSV with different adjuvants in guinea pigs and horses. Subcutaneous and intramuscular vaccination were studied in horses. Local reactions were observed after prime and boost vaccination. In general, neutralizing antibodies (nAbs) titres were very low after prime vaccination, whereas boost vaccination resulted in high nAb titres for some adjuvants. Vaccinated horses were selected based on local reactions and nAb titres to study efficacy. Unfortunately, not all vaccinated horses survived virulent AHSV infection. Further, most survivors temporarily developed clinical signs and viremia. Further, the current prototype inactivated AHS vaccine is not suitable as emergency vaccine, because onset of protection is slow and requires boost vaccinations. On the other hand, inactivated AHS vaccine is completely safe with respect to virus spread, and incorporation of the DIVA principle based on NS3/NS3a serology and exploring a vaccine production platform for other serotypes is feasible. A superior adjuvant increasing the protective response without causing local reactions w

Published

2020

176. Cross-protective immune responses against African horse sickness virus after vaccination with protein NS1 delivered by avian reovirus muNS microspheres and modified vaccinia virus Ankara

Author

Ministerio de Ciencia, Innovación y Universidades (España), Xunta de Galicia, Agencia Estatal de Investigación (España), European Commission, Marín-López, A. [0000-0003-2840-1722], Barreiro-Piñeiro, Natalia [0000-0001-8822-7709], Utrilla-Trigo, S. [0000-0002-7672-7658], Barriales, Diego [0000-0002-6433-3379], Benavente, J. [0000-0003-4857-0312], Nogales, Aitor [0000-0002-2424-7900], Martínez-Costas, José Manuel [0000-0002-8877-7775], Ortego, Javier [0000-0002-4275-7277], Calvo Pinilla, Eva María [0000-0002-4667-4081], Marín-López, A., Barreiro-Piñeiro, Natalia, Utrilla-Trigo, S., Barriales, Diego, Benavente, J., Nogales, Aitor, Martínez-Costas, José Manuel, Ortego, Javier, Calvo Pinilla, Eva María, Ministerio de Ciencia, Innovación y Universidades (España), Xunta de Galicia, Agencia Estatal de Investigación (España), European Commission, Marín-López, A. [0000-0003-2840-1722], Barreiro-Piñeiro, Natalia [0000-0001-8822-7709], Utrilla-Trigo, S. [0000-0002-7672-7658], Barriales, Diego [0000-0002-6433-3379], Benavente, J. [0000-0003-4857-0312], Nogales, Aitor [0000-0002-2424-7900], Martínez-Costas, José Manuel [0000-0002-8877-7775], Ortego, Javier [0000-0002-4275-7277], Calvo Pinilla, Eva María [0000-0002-4667-4081], Marín-López, A., Barreiro-Piñeiro, Natalia, Utrilla-Trigo, S., Barriales, Diego, Benavente, J., Nogales, Aitor, Martínez-Costas, José Manuel, Ortego, Javier, and Calvo Pinilla, Eva María

Abstract

African horse sickness virus (AHSV) is an insect-borne pathogen that causes acute disease in horses and other equids. In an effort to improve the safety of currently available vaccines and to acquire new knowledge about the determinants of AHSV immunogenicity, new generation vaccines are being developed. In this work we have generated and tested a novel immunization approach comprised of nonstructural protein 1 (NS1) of AHSV serotype 4 (AHSV-4) incorporated into avian reovirus muNS protein microspheres (MS-NS1) and/or expressed using recombinant modified vaccinia virus Ankara vector (MVA-NS1). The protection conferred against AHSV by a homologous MS-NS1 or heterologous MS-NS1 and MVA-NS1 prime/boost was evaluated in IFNAR (-/-) mice. Our results indicate that immunization based on MS-NS1 and MVA-NS1 afforded complete protection against the infection with homologous AHSV-4. Moreover, priming with MS-NS1 and boost vaccination with MVA-NS1 (MS-MVA-NS1) triggered NS1 specific cytotoxic CD8 + T cells and prevented AHSV disease in IFNAR (-/-) mice after challenge with heterologous serotype AHSV-9. Cross-protective immune responses are highly important since AHS can be caused by nine different serotypes, which means that a universal polyvalent vaccination would need to induce protective immunity against all serotypes.

Published

2020

177. Immunization of horses with a polyvalent live-attenuated African horse sickness vaccine: Serological response and disease occurrence under field conditions.

Author

Molini, Umberto, Marucchella, Giuseppe, Maseke, Adrianatus, Ronchi, Gaetano Federico, Di Ventura, Mauro, Salini, Romolo, Scacchia, Massimo, and Pini, Attilio

Abstract

African horse sickness (AHS) is a non-contagious, insect-borne disease of equids caused by a RNA virus (AHSV), which belongs to the genus Orbivirus , family Reoviridae . The disease is endemic in sub-Saharan and western Africa, where prevention strictly depends upon vaccination. The present paper aims at evaluating the serological response and the occurrence of AHS in horses bred under field condition and regularly immunized using the commercially available live attenuated vaccine (LAV) produced by Onderstepoort Biological Products. The study was carried out in a farm located in the district of Windhoek (Namibia), where the disease is endemic. A total of 72 cross-breed horses, out of the 150 housed on the farm, were subdivided in six age groups, from 2 to 7 years-old. Each group consisted of 12 heads which were born during the same breeding season and had undergone from four to nine vaccination courses. AHSV specific immune response was evaluated by serum-virus neutralization test. Data about the clinical occurrence of the AHS from 2006 to 2011 were made available. The immune response, in terms of number of seropositive horses and serum neutralizing titers, was quite variable among horses and against different serotypes. Neutralizing antibodies against all serotypes were recorded in all the horses only after eight vaccination courses at 6 years of age onwards. Immune response to AHSV-5 and 9, which are not included in the LAV formulation, were also established. A severe AHS epidemic occurred in Namibia in 2011. On the farm under study, a total of 32 animals were clinically affected, 12 died, 11 of them were 2 year-old or younger. Our data confirm that vaccination with LAV is a useful tool to reduce the severity of the disease in endemic areas. However, clinical and sometimes fatal AHS can still affect young vaccinated horses, thus highlighting the necessity to better understand the immune response to AHSV and to dispose of more effective vaccines. [ABSTRACT FROM AUTHOR]

Published

2015

178. Evaluación del riesgo de introducción de peste equina africana a países del cono sur sudamericano por importación de animales vivos.

Author

Marcos, A., Roco, M., Picasso, C., Ávila, L., and Pérez, A. M.

Abstract

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Published

2015

179. Use of nanopore sequencing to characterize african horse sickness virus (AHSV) from the African horse sickness outbreak in thailand in 2020

Author

Attapon Kamlangdee, Nutthakarn Suwankitwat, Menaka Priyadharsani Rajapakse, Taoqi Huangfu, Xinyu Toh, Tapanut Songkasupa, Bernett Lee, Charlene Judith Fernandez, and Yifan Wang

Subjects

040301 veterinary sciences, African Horse Sickness Virus, Genome, Virus, Disease Outbreaks, 0403 veterinary science, 03 medical and health sciences, African Horse Sickness, Animals, Horses, Phylogeny, 030304 developmental biology, 0303 health sciences, General Veterinary, General Immunology and Microbiology, biology, Phylogenetic tree, Nucleic acid sequence, Outbreak, Viral Vaccines, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Thailand, Virology, Nanopore Sequencing, African horse sickness, Horse Diseases, Nanopore sequencing

Abstract

African horse sickness (AHS) is a highly infectious and deadly disease despite availability of vaccines. Molecular characterization of African horse sickness virus (AHSV) detected from the March 2020 Thailand outbreak was carried out by whole-genome sequencing using Nanopore with a Sequence-Independent Single Primer Amplification (SISPA) approach. Nucleotide sequence of the whole genome was compared with closest matching AHSV strains using phylogenetic analyses and the AHSV-1 virus shared high sequence identity with isolates from the same outbreak. Substitution analysis revealed non-synonymous and synonymous substitutions in the VP2 gene as compared to circulating South African strains. The use of sequencing technologies, such as Nanopore with SISPA, has enabled rapid detection, identification and detailed genetic characterization of the AHS virus for informed decision-making and implementation of disease control measures. Active genetic information sharing has also allowed emergence of AHSV to be better monitored on a global basis.

Published

2021

180. An entry risk assessment of African horse sickness virus into the controlled area of South Africa through the legal movement of equids

Author

Johann L. Kotze, Beverly J. Parker, Camilla Theresa Weyer, John Duncan Grewar, and Lesley S. van Helden

Subjects

0301 basic medicine, Epidemiology, African Horse Sickness Virus, Polymerase Chain Reaction, Geographical locations, 0403 veterinary science, South Africa, Medical Conditions, Medicine and Health Sciences, Movement control, Mammals, Multidisciplinary, biology, Eukaryota, 04 agricultural and veterinary sciences, Census, Professions, Geography, Infectious Diseases, Veterinary Diseases, Vertebrates, Medicine, African horse sickness, Risk assessment, Zebras, Research Article, 040301 veterinary sciences, Science, Equines, Veterinarians, 03 medical and health sciences, Animals, Horses, Spatial Analysis, Organisms, Outbreak, Biology and Life Sciences, Models, Theoretical, biology.organism_classification, Vector-Borne Diseases, 030104 developmental biology, Medical Risk Factors, Amniotes, Africa, Western cape, Population Groupings, Veterinary Science, People and places, Zoology, Demography

Abstract

South Africa is endemic for African horse sickness (AHS), an important health and trade-sensitive disease of equids. The country is zoned with movement control measures facilitating an AHS-free controlled area in the south-west. Our objective was to quantitatively establish the risk of entry of AHS virus into the AHS controlled area through the legal movement of horses. Outcomes were subcategorised to evaluate movement pathway, temporal, and spatial differences in risk. A ‘no-control’ scenario allowed for evaluation of the impact of control measures. Using 2019 movement and AHS case data, and country-wide census data, a stochastic model was developed establishing local municipality level entry risk of AHSV at monthly intervals. These were aggregated to annual probability of entry. Sensitivity analysis evaluated model variables on their impact on the conditional means of the probability of entry. The median monthly probability of entry of AHSV into the controlled area of South Africa ranged from 0.75% (June) to 5.73% (February), with the annual median probability of entry estimated at 20.21% (95% CI: 15.89%-28.89%). The annual risk of AHSV entry compared well with the annual probability of introduction of AHS into the controlled area, which is ~10% based on the last 20 years of outbreak data. Direct non-quarantine movements made up most movements and accounted for most of the risk of entry. Spatial analysis showed that, even though reported case totals were zero throughout 2019 in the Western Cape, horses originating from this province still pose a risk that should not be ignored. Control measures decrease risk by a factor of 2.8 on an annual basis. Not only do the outcomes of this study inform domestic control, they can also be used for scientifically justified trade decision making, since in-country movement control forms a key component of export protocols.

Published

2021

181. A study of the composition of the Obsoletus complex and genetic diversity of Culicoides obsoletus populations in Spain

Author

Belén Rivera, Cecilia Aguilar-Vega, Javier Lucientes, José Manuel Sánchez-Vizcaíno, and Isabel Gutiérrez-Boada

Subjects

0301 basic medicine, Culicoides obsoletus, Species complex, Entomology, 030231 tropical medicine, Zoology, Infectious and parasitic diseases, RC109-216, Ceratopogonidae, 03 medical and health sciences, 0302 clinical medicine, Cytochrome c oxidase I gene, Animals, Epizootic hemorrhagic disease, Culicoides scoticus, Phylogeny, 2. Zero hunger, Genetic diversity, Culicoides montanus, biology, Phylogenetic tree, Research, Genetic Variation, biology.organism_classification, Culicoides, 3. Good health, Insect Vectors, Single-tube multiplex polymerase chain reaction, 030104 developmental biology, Infectious Diseases, Spain, Obsoletus complex, African horse sickness, Parasitology, Female, Bluetongue virus

Abstract

Background The Culicoides obsoletus species complex (henceforth ‘Obsoletus complex’) is implicated in the transmission of several arboviruses that can cause severe disease in livestock, such as bluetongue, African horse sickness, epizootic hemorrhagic disease and Schmallenberg disease. Thus, this study aimed to increase our knowledge of the composition and genetic diversity of the Obsoletus complex by partial sequencing of the cytochrome c oxidase I (cox1) gene in poorly studied areas of Spain. Methods A study of C. obsoletus populations was carried out using a single-tube multiplex polymerase chain reaction (PCR) assay that was designed to differentiate the Obsoletus complex sibling species Culicoides obsoletus and Culicoides scoticus, based on the partial amplification of the cox1 gene, as well as cox1 georeferenced sequences from Spain available at GenBank. We sampled 117 insects of the Obsoletus complex from six locations and used a total of 238 sequences of C. obsoletus (ss) individuals (sampled here, and from GenBank) from 14 sites in mainland Spain, the Balearic Islands and the Canary Islands for genetic diversity and phylogenetic analyses. Results We identified 90 C. obsoletus (ss), 19 Culicoides scoticus and five Culicoides montanus midges from the six collection sites sampled, and found that the genetic diversity of C. obsoletus (ss) were higher in mainland Spain than in the Canary Islands. The multiplex PCR had limitations in terms of specificity, and no cryptic species within the Obsoletus complex were identified. Conclusions Within the Obsoletus complex, C. obsoletus (ss) was the predominant species in the analyzed sites of mainland Spain. Information about the species composition of the Obsoletus complex could be of relevance for future epidemiological studies when specific aspects of the vector competence and capacity of each species have been identified. Our results indicate that the intraspecific divergence is higher in C. obsoletus (ss) northern populations, and demonstrate the isolation of C. obsoletus (ss) populations of the Canary Islands. Graphical abstract

Published

2021

182. Author response for 'Economic assessment of african horse sickness vaccine impact'

Author

Elizabeth F. Redmond, Jonathan Rushton, and Derrick Jones

Subjects

biology, Economic assessment, business.industry, Medicine, African horse sickness, Socioeconomics, business, biology.organism_classification

Published

2021

183. Diagnostic applications of molecular and serological assays for bluetongue and African horse sickness

Author

K M Lovett, C P Rodgers, Christopher M. Barker, A J Guthrie, Christie E. Mayo, Bradley A. Mullens, Nigel J Maclachlan, C T Weyer, M J Carpenter, William K. Reisen, and K J Reed

Subjects

Serotype, Attenuated vaccine, biology, Reassortment, African horse sickness, Animal Science and Zoology, Context (language use), General Medicine, biology.organism_classification, Culicoides, Virology, Virus, Subclinical infection

Abstract

The availability of rapid, highly sensitive and specific molecular and serologic diagnostic assays, such as competitive enzyme-linked immunosorbent assay (cELISA), has expedited the diagnosis of emerging transboundary animal diseases, including bluetongue (BT) and African horse sickness (AHS), and facilitated more thorough characterisation of their epidemiology. The development of assays based on real-time, reverse-transcription polymerase chain reaction (RT-PCR) to detect and identify the numerous serotypes of BT virus (BTV) and AHS virus (AHSV) has aided in-depth studies of the epidemiology of BTV infection in California and AHSV infection in South Africa. The subsequent evaluation of pan-serotype, real-time, RT-PCR-positive samples through the use of serotype-specific RT-PCR assays allows the rapid identification of virus serotypes, reducing the need for expensive and time-consuming conventional methods, such as virus isolation and serotype-specific virus neutralisation assays. These molecular assays and cELISA platforms provide tools that have enhanced epidemiologic surveillance strategies and improved our understanding of potentially altered Culicoides midge behaviour when infected with BTV. They have also supported the detection of subclinical AHSV infection of vaccinated horses in South Africa. Moreover, in conjunction with whole genome sequence analysis, these tests have clarified that the mechanism behind recent outbreaks of AHS in the AHS-controlled area of South Africa was the result of the reversion to virulence and/or genome reassortment of live attenuated vaccine viruses. This review focuses on the use of contemporary molecular diagnostic assays in the context of recent epidemiologic studies and explores their advantages over historic virus isolation and serologic techniques.

Published

2021

184. African Horse Sickness Virus (Reoviridae)

Author

P.A. van Rijn

Subjects

Serotype, biology, business.industry, African Horse Sickness Virus, Outbreak, Disease, Culicoides, biology.organism_classification, Virology, biology.animal, African horse sickness, Medicine, Donkey, Equidae, business

Abstract

African Horse Sickness is an infectious, non-contagious, arthropod-borne disease of Equidae caused by African horse sickness virus transmitted by biting culicoides midges. African Horse Sickness is endemic in Africa but outbreaks outside the African continent have been reported. The disease is characterized by changes in respiratory and circulatory functions and exhibits different forms. The mortality is >90% for naive domestic horses. In contrast, infected zebra and African donkey display mild or no clinical signs and a mortality of 5%–10%. Nine serotypes of African horse sickness virus have been recognized showing no or poor cross-protection with each other.

Published

2021

185. A Scoping Review of Viral Diseases in African Ungulates

Author

Jan Ernst Crafford, Melvyn Quan, and Hendrik Swanepoel

Subjects

040301 veterinary sciences, Wildlife, foot and mouth disease, Review, Wildlife disease, 0403 veterinary science, 03 medical and health sciences, Lumpy skin disease, Environmental health, medicine, Rift Valley fever, 030304 developmental biology, bluetongue, 0303 health sciences, lcsh:Veterinary medicine, General Veterinary, biology, Foot-and-mouth disease, business.industry, small ruminant morbillivirus, 04 agricultural and veterinary sciences, biology.organism_classification, medicine.disease, peste des petits ruminants, One Health, Systematic review, African horse sickness, lcsh:SF600-1100, African swine fever, business, lumpy skin disease, rift valley fever

Abstract

(1) Background: Viral diseases are important as they can cause significant clinical disease in both wild and domestic animals, as well as in humans. They also make up a large proportion of emerging infectious diseases. (2) Methods: A scoping review of peer-reviewed publications was performed and based on the guidelines set out in the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) extension for scoping reviews. (3) Results: The final set of publications consisted of 145 publications. Thirty-two viruses were identified in the publications and 50 African ungulates were reported/diagnosed with viral infections. Eighteen countries had viruses diagnosed in wild ungulates reported in the literature. (4) Conclusions: A comprehensive review identified several areas where little information was available and recommendations were made. It is recommended that governments and research institutions offer more funding to investigate and report viral diseases of greater clinical and zoonotic significance. A further recommendation is for appropriate One Health approaches to be adopted for investigating, controlling, managing and preventing diseases. Diseases which may threaten the conservation of certain wildlife species also require focused attention. In order to keep track of these diseases, it may be necessary to consider adding a “Wildlife disease and infection” category to the World Organisation for Animal Health-listed diseases.

Published

2021

186. Assessing the introduction risk of vector-borne animal diseases for the Netherlands using MINTRISK : A Model for INTegrated RISK assessment

Author

Sofie Dhollander, Herman J W van Roermund, Clazien J. de Vos, Aline de Koeijer, Egil A.J. Fischer, and W.H.G.J. Hennen

Subjects

Rift Valley Fever, Economics, Epidemiology, Social Sciences, Disease Vectors, Geographical locations, Medical Conditions, Zoonoses, Medicine and Health Sciences, Rift Valley fever, Neglected tropical diseases, Green Economy and Landuse, Netherlands, Multidisciplinary, biology, Transmission (medicine), Europe, Infectious Diseases, Groene Economie en Ruimte, Veterinary Diseases, Preparedness, African horse sickness, Medicine, Risk assessment, Research Article, Bioinformatica & Diermodellen, Science, Viral diseases, Mosquito Vectors, Hemorrhagic Disorders, Infectious Disease Epidemiology, Environmental health, Bio-informatics & Animal models, medicine, Life Science, Epidemiology, Bio-informatics & Animal models, European Union, Epizootic, Epidemiologie, Health economics, business.industry, Tropical diseases, Biology and Life Sciences, medicine.disease, biology.organism_classification, Economic Analysis, Vector-Borne Diseases, Species Interactions, Risk Estimate, Economic Impact Analysis, Medical Risk Factors, Epidemiologie, Bioinformatica & Diermodellen, Veterinary Science, People and places, business

Abstract

To evaluate and compare the risk of emerging vector-borne diseases (VBDs), a Model for INTegrated RISK assessment, MINTRISK, was developed to assess the introduction risk of VBDs for new regions in an objective, transparent and repeatable manner. MINTRISK is a web-based calculation tool, that provides semi-quantitative risk scores that can be used for prioritization purposes. Input into MINTRISK is entered by answering questions regarding entry, transmission, establishment, spread, persistence and impact of a selected VBD. Answers can be chosen from qualitative answer categories with accompanying quantitative explanation to ensure consistent answering. The quantitative information is subsequently used as input for the model calculations to estimate the risk for each individual step in the model and for the summarizing output values (rate of introduction; epidemic size; overall risk). The risk assessor can indicate his uncertainty on each answer, and this is accounted for by Monte Carlo simulation. MINTRISK was used to assess the risk of four VBDs (African horse sickness, epizootic haemorrhagic disease, Rift Valley fever, and West Nile fever) for the Netherlands with the aim to prioritise these diseases for preparedness. Results indicated that the overall risk estimate was very high for all evaluated diseases but epizootic haemorrhagic disease. Uncertainty intervals were, however, wide limiting the options for ranking of the diseases. Risk profiles of the VBDs differed. Whereas all diseases were estimated to have a very high economic impact once introduced, the estimated introduction rates differed from low for Rift Valley fever and epizootic haemorrhagic disease to moderate for African horse sickness and very high for West Nile fever. Entry of infected mosquitoes on board of aircraft was deemed the most likely route of introduction for West Nile fever into the Netherlands, followed by entry of infected migratory birds.

Published

2021

187. Pathogen detection and disease diagnosis in wildlife: challenges and opportunities

Author

V Rutten, A L Michel, D Prasse, S. Al Dahouk, B M Crossley, and H Van Heerden

Subjects

Serotype, 0303 health sciences, Attenuated vaccine, biology, 040301 veterinary sciences, Reassortment, Context (language use), 04 agricultural and veterinary sciences, General Medicine, Culicoides, biology.organism_classification, Virology, Virus, 0403 veterinary science, 03 medical and health sciences, Infectious disease (medical specialty), African horse sickness, Animal Science and Zoology, 030304 developmental biology

Abstract

The availability of rapid, highly sensitive and specific molecular and serologic diagnostic assays, such as competitive enzyme-linked immunosorbent assay (cELISA), has expedited the diagnosis of emerging transboundary animal diseases, including bluetongue (BT) and African horse sickness (AHS), and facilitated more thorough characterisation of their epidemiology. The development of assays based on real-time, reverse-transcription polymerase chain reaction (RT-PCR) to detect and identify the numerous serotypes of BT virus (BTV) and AHS virus (AHSV) has aided in-depth studies of the epidemiology of BTV infection in California and AHSV infection in South Africa. The subsequent evaluation of pan-serotype, real-time, RT-PCR-positive samples through the use of serotype-specific RT-PCR assays allows the rapid identification of virus serotypes, reducing the need for expensive and time-consuming conventional methods, such as virus isolation and serotype-specific virus neutralisation assays. These molecular assays and cELISA platforms provide tools that have enhanced epidemiologic surveillance strategies and improved our understanding of potentially altered Culicoides midge behaviour when infected with BTV. They have also supported the detection of subclinical AHSV infection of vaccinated horses in South Africa. Moreover, in conjunction with whole genome sequence analysis, these tests have clarified that the mechanism behind recent outbreaks of AHS in the AHS-controlled area of South Africa was the result of the reversion to virulence and/or genome reassortment of live attenuated vaccine viruses. This review focuses on the use of contemporary molecular diagnostic assays in the context of recent epidemiologic studies and explores their advantages over historic virus isolation and serologic techniques.

Published

2021

188. Inference for a spatio-temporal model with partial spatial data: African horse sickness virus in Morocco

Author

Emma L. Fairbanks, Matthew Baylis, Janet M. Daly, and Michael J. Tildesley

Subjects

QL, Epidemiology, Public Health, Environmental and Occupational Health, Ceratopogonidae, Microbiology, Disease Outbreaks, Morocco, Infectious Diseases, African Horse Sickness, Virology, Vector-borne disease, Bayesian inference 23, African Horse Sickness Virus, Animals, SF, Parasitology, Horses, RA, spatio-temporal model

Abstract

African horse sickness virus (AHSV) is a vector-borne virus spread by midges (Culicoides spp.). The virus causes African horse sickness (AHS) disease in some species of equid. AHS is endemic in parts of Africa, previously emerged in Europe and in 2020 caused outbreaks for the first time in parts of Eastern Asia. Here we analyse a unique historic dataset from the 1989-1991 emergence of AHS in Morocco in a naïve population of equids. Sequential Monte Carlo and Markov chain Monte Carlo techniques are used to estimate parameters for a spatial-temporal model using a transmission kernel. These parameters allow us to observe how the transmissibility of AHSV changes according to the distance between premises. We observe how the spatial specificity of the dataset giving the locations of premises on which any infected equids were reported affects parameter estimates. Estimations of transmissibility were similar at the scales of village (location to the nearest 1.3 km) and region (median area 99 km ), but not province (median area 3000 km ). This data-driven result could help inform decisions by policy makers on collecting data during future equine disease outbreaks, as well as policies for AHS control. [Abstract copyright: Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.]

Published

2022

189. Descriptive epidemiology of African horse sickness in Zimbabwe

Author

Stuart Gordon, Charlotte Bolwell, Chris Rogers, Alan Guthrie, Forgivemore Magunda, and Petronella Hove

Subjects

African horse sickness, prevalence, odds ratio, fatality, vaccination, Veterinary medicine, SF600-1100

Abstract

A study of the prevalence of African horse sickness in horses was conducted, using records from two private equine practices in Harare for the period 1998–2004. Results indicated a higher prevalence of the disease in horses in Zimbabwe in the late rainy season (March – May). Age of the horse was found to be a significant risk factor, with foals or yearlings appearing to be 1.80 times more likely to contract the disease compared with horses older than two years. The case fatality rate in foals or yearlings was also higher than in older age groups, but this difference was not significant. The vaccination status was an important risk factor, with vaccinated horses 0.12 times less likely to die from the disease compared with unvaccinated horses. Young, unvaccinated horses therefore seem to be the most susceptible to the disease and have greater chances of fatality. This study highlights the importance of adequately protecting horses against African horse sickness by providing immunisation through vaccination and discusses the need to review current vaccination strategies being practiced in Zimbabwe.

Published

2013

190. Virulent African horse sickness virus serotype 4 interferes with the innate immune response in horse peripheral blood mononuclear cells in vitro

Author

Alri Pretorius, Erika Faber, Selaelo Ivy Tshilwane, and Mirinda Van Kleef

Subjects

0301 basic medicine, Microbiology (medical), Chemokine, medicine.medical_treatment, 030106 microbiology, Biology, Serogroup, Microbiology, Virus, 03 medical and health sciences, Immune system, Immunopathology, African Horse Sickness, Genetics, medicine, African Horse Sickness Virus, Animals, Horses, Viral Interference, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Innate immune system, Pattern recognition receptor, Immunity, Innate, 030104 developmental biology, Infectious Diseases, Cytokine, Immunology, biology.protein, Leukocytes, Mononuclear

Abstract

African horse sickness (AHS) is caused by African horse sickness virus (AHSV), a double stranded RNA (dsRNA) virus of the genus Orbivirus, family Reoviridae. For the development of new generation AHS vaccines or antiviral treatments, it is crucial to understand the host immune response against the virus and the immune evasion strategies the virus employs. To achieve this, the current study used transcriptome analysis of RNA sequences to characterize and compare the innate immune responses activated during the attenuated AHSV serotype 4 (attAHSV4) (in vivo) and the virulent AHSV4 (virAHSV4) (in vitro) primary and secondary immune responses in horse peripheral blood mononuclear cells (PBMC) after 24 h. The pro-inflammatory cytokine and chemokine responses were negatively regulated by anti-inflammatory cytokines, whereas the parallel type I and type III IFN responses were maintained downstream of nucleic acid sensing pattern recognition receptor (PRR) signalling pathways during the attAHSV4 primary and secondary immune responses. It appeared that after translation, virAHSV4 proteins were able to interfere with the C-terminal IRF association domain (IAD)-type 1 (IAD1) containing IRFs, which inhibited the expression of type I and type III IFNs downstream of PRR signalling during the virAHSV4 primary and secondary immune responses. Viral interference resulted in an impaired innate immune response that was not able to eliminate virAHSV4-infected PBMC and gave rise to prolonged expression of pro-inflammatory cytokines and chemokines during the virAHSV4 induced primary immune response. Indicating that virAHSV4 interference with the innate immune response may give rise to an excessive inflammatory response that causes immunopathology, which could be a major contributing factor to the pathogenesis of AHS in a naive horse. Viral interference was overcome by the fast kinetics and increased effector responses of innate immune cells due to trained innate immunity and memory T cells and B cells during the virAHSV4 secondary immune response.

Published

2020

191. Species composition and relative abundance of the genus Culicoides (Diptera: Ceratopogonidae) in Romania

Author

Florica Barbuceanu, Cristina Nițescu, Santilli A, Lenuța Dascălu, Maria Goffredo, Thomas Balenghien, Gabriel Predoi, Michela Quaglia, Doru Hristescu, Institute for Diagnosis and Animal Health, Faculty of Veterinary Medicine, Istituto Zooprofilattico Sperimentale dell'Abruzzo e del Molise Guiseppe Caporale (IZSAM), Partenaires INRAE, Animal, Santé, Territoires, Risques et Ecosystèmes (UMR ASTRE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut Agronomique et Vétérinaire Hassan II - IAV (MOROCCO) (IAV), Département Systèmes Biologiques (Cirad-BIOS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), and The activities of this study were carried out as part of the VectorNet project of the European Food Safety Authority (EFSA) and the European Centre for Disease Prevention and Control (ECDC) through Framework Service Contract OC/EFSA/AHAW/2013/02-FWC1

Subjects

0301 basic medicine, Entomology, Species complex, Ceratopogonidae, [SDV]Life Sciences [q-bio], 030231 tropical medicine, Culicoides obsoletus, Zoology, Bluetongue, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, African Horse Sickness, Animals, lcsh:RC109-216, Population animale, Relative species abundance, [SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, biology, Enquête, Romania, Research, Culicoides, Entomological surveillance, 030108 mycology & parasitology, biology.organism_classification, H10 - Ravageurs des plantes, Insect Vectors, Infectious Diseases, Vecteur de maladie, Vector (epidemiology), African horse sickness, Parasitology, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie

Abstract

Background Culicoides biting midges are vectors involved in the biological transmission cycle of important animal diseases such as bluetongue and African horse sickness. In Romania, the first outbreaks of bluetongue were reported in 2014, leading to increased activities within the existing entomological surveillance network. The main goals of the surveillance activities were the establishment of the vector free period in relation to animal trade and the identification of Culicoides species involved in the transmission of the pathogen. This study was conducted on the composition and relative abundance of the species belonging to the genus Culicoides (Diptera: Ceratopogonidae) in certain regions of Romania and provided the opportunity to update the existing checklist of Culicoides species of this country. Methods The study was conducted in 33 of the 42 administrative units (counties), including a total of 659 catches, in 102 locations. The collections were carried out with UV blacklight suction traps (OVI type). The collected insects were preserved in 70% ethanol. Morphological insect identification was carried out using a stereomicroscope, according to established identification keys. In ten localities the relative abundance of the cryptic species of the Obsoletus complex was determined by multiplex PCR assay based on the ITS2 segment. The identification of the Culicoides chiopterus (Meigen) species by morphological examination was confirmed by PCR assay based on the ITS1 segment. Results Eleven species were identified using morphological and PCR tools. The rest of the individuals were separated into five taxa. The species of the Obsoletus complex (grouping Culicoides obsoletus (Meigen) and Culicoides scoticus Downes & Kettle) were the most abundant, accounting for 59% of the total number of captured Culicoides spp. Three of the identified species are mentioned, according to our knowledge, for the first time in Romania: Culicoides newsteadi Austen, Culicoides flavipulicaris Dzhafarov and Culicoides bysta Sarvašová, Kočisová, Candolfi & Mathieu. Conclusions Our study demonstrates that the Culicoides species most commonly cited as being involved in the transmission of arboviruses in Europe (i.e. bluetongue and Schmallenberg viruses) make up a high proportion of adult Culicoides trapped in Romania.

Published

2020

192. Immunogenicity of recombinant VP2 proteins of all nine serotypes of African horse sickness virus.

Author

Kanai, Yuta, van Rijn, Piet A., Maris-Veldhuis, Mieke, Kaname, Yuki, Athmaram, T.N., and Roy, Polly

Subjects

*RECOMBINANT proteins, *SEROTYPES, *AFRICAN horse sickness virus, *CULICOIDES, *GUINEA pigs as laboratory animals, *CYTOSKELETAL proteins, *VIRAL antibodies

Abstract

African horse sickness (AHS) is an equine disease with a mortality of up to 90% for susceptible horses. The causative agent AHS virus (AHSV) is transmitted by species of Culicoides . AHSV serogroup within the genus Orbivirus of the Reoviridae family consists of nine serotypes that show no or very limited cross-neutralization. Of the seven structural proteins (VP1-VP7) of AHSV, VP2 is the serotype specific protein, and the major target for neutralizing antibodies. In this report, recombinant VP2 proteins of all nine serotypes were expressed individually by the baculovirus expression system and the immunogenicity of each was studied by immunization of guinea pigs with single VP2 as well as with cocktails of VP2 proteins. Homologous neutralizing antibodies measured by 50% plaque reduction assay showed varying degrees (from 37 to 1365) of titers for different VP2 proteins. A low cross-neutralizing antibody titer was found for genetically related AHSV serotypes. Immunization with VP2 cocktails containing equal amounts of each of the VP2 proteins also triggered neutralizing antibodies albeit to lower titers (4-117) to each of the serotypes in the cocktail. This study is a first step to develop a VP2 subunit vaccine for AHS and our results indicate that VP2 subunit vaccines are feasible individually or in a multi-serotype cocktail. [ABSTRACT FROM AUTHOR]

Published

2014

193. Thermal limits of two biting midges, Culicoides imicola Kieffer and C. bolitinos Meiswinkel (Diptera: Ceratopogonidae).

Author

Verhoef, F. Arné, Venter, Gert J., and Weldon, Christopher W.

Abstract

Background: Culicoides imicola Kieffer and Culicoides bolitinos Meiswinkel (Diptera: Ceratopogonidae) are both of veterinary importance, being vectors of Schmallenberg, bluetongue and African horse sickness (AHS) viruses. Within South Africa, these Culicoides species show a marked difference in their abundances according to altitude, with C. imicola highly abundant in lower altitudes, but being replaced as the dominant species by C. bolitinos in cooler, high-altitude regions. Methods: The thermal physiology of field collected adults of each species was determined to evaluate whether it could account for differences in their distribution and abundance. Critical thermal maxima (CTmax) and minima (CTmin), as well as upper and lower lethal temperatures (ULT and LLT) were assessed after acclimation temperatures of 19°C, 24°C and 29°C. Critical thermal limits were determined using an ecologically relevant rate of temperature change of 0.06°C.min−1. Results: Significant differences in CTmin and CTmax were found between acclimation temperatures for C. imicola and C. bolitinos. In C. bolitinos, the LLT of individuals acclimated at 24°C was significantly improved (LLT50 = −6.01°C) compared with those acclimated at the other temperatures (LLT50 = −4°C). Acclimation had a weak (difference in LLT50 of only 1°C) but significant effect on the LLT of C. imicola. When CTmin, CTmax, LLT and ULT were superimposed on daily maximum and minimum temperature records from locations where each tested Culicoides species is dominant, it was found that temperatures frequently declined below the CTmin and LLT of C. imicola at the location where C. bolitinos was dominant. Conclusions: The distribution and abundance of C. imicola is likely directly constrained by their relatively poor tolerance of lower temperatures. Results for C. bolitinos suggest that the adult phase is hardy, and it is hypothesised that the thermal biology of other life stages could determine their range. [ABSTRACT FROM AUTHOR]

Published

2014

194. Modelling High-Risk Areas for African Horse Sickness Occurrence in Mainland China Along Southeast Asia

Author

Jianhua Xiao, Jia Bie, Hongyan Gao, Hongbin Wang, Xiang Gao, Jiahao Zheng, and Haoran Wang

Subjects

Mainland China, Culicoides imicola, Geography, biology, African Horse Sickness Virus, Outbreak, African horse sickness, Land cover, Southeast asian, biology.organism_classification, Socioeconomics, Southeast asia

Abstract

African horse sickness (AHS) is a transboundary and non-contagious arboviral infectious disease of equids. Infected Culicoides biting midges can spread the African horse sickness virus, and Culicoides imicola (C.imicola) is one of the important transmission vectors. The disease has spread without any warning from the sub-Saharan Africa towards the Southeast Asian countries. Therefore, it is imperative to predict the distribution of the AHS infection risk along the Sino–Southeast Asian borders. The reported AHS outbreaks were extracted from the archive of the Food and Agriculture Organization from December 22, 2005 to September 1, 2020. The occurrence records of C.imicola were mainly obtained from published literature. Subsequently, the maximum entropy algorithm was used to model AHS and C.imicola separately and to research the relationship among bioclimate variables, land cover characterization, horse distribution density, and the prevalence of AHS infection. Finally, we combined the AHS risk prediction with the suitability map of C.imicola to model the risk areas for AHS occurrence in Mainland China. The models showed the mean area under the curve (AUC) as 0.935 and 0.910 for AHS and C.imicola, respectively. Using jackknife analysis, we determined the important factors affecting the AHS outbreak as horse distribution density, mean temperature of the wettest quarter, and precipitation of the coldest quarter. The mean temperature of coldest quarter contributed most to the occurrence of C.imicola, followed by precipitation of coldest quarter and global land cover characterization. The overlay of the AHS and C.imicola prediction map shows that the areas southwest of Hainan and southeast of Fujian are at high risk of AHS occurrence under current conditions. Furthermore, the border sectors of Yunnan and Guangxi also presented relatively high risk.

Published

2020

195. Vaccination of horses with a recombinant modified vaccinia Ankara virus (MVA) expressing African horse sickness (AHS) virus major capsid protein VP2 provides complete clinical protection against challenge.

Author

Alberca, Berta, Bachanek-Bankowska, Katarzyna, Cabana, Marta, Calvo-Pinilla, Eva, Viaplana, Elisenda, Frost, Lorraine, Gubbins, Simon, Urniza, Alicia, Mertens, Peter, and Castillo-Olivares, Javier

Subjects

*ANIMAL vaccination, *RECOMBINANT viruses, *VIRAL vaccines, *AFRICAN horse sickness virus, *HORSE viral diseases, *CAPSIDS, *VIRAL proteins

Abstract

Highlights: [•] A recombinant modified Vaccinia Ankara virus expressing VP2 of African horse sickness virus serotype 9 was generated. [•] Four horses were vaccinated on days 0 and 20. Three unvaccinated controls were used. [•] Vaccinated and control horses were challenged intravenously with 107.4TCID50 of AHSV-9 on day 34 of the study. [•] At challenge, vaccinates had virus neutralising antibodies but were negative for antibodies to AHSV-VP7. [•] All vaccinates were completely protected against clinical signs of African horse sickness. [ABSTRACT FROM AUTHOR]

Published

2014

196. Field and in vitro insecticidal efficacy of alphacypermethrin-treated high density polyethylene mesh against Culicoides biting midges in South Africa.

Author

Page, P.C., Labuschagne, K., Venter, G.J., Schoeman, J.P., and Guthrie, A.J.

Subjects

*INSECTICIDES, *CYPERMETHRIN, *HIGH density polyethylene, *CULICOIDES, *BIOLOGICAL assay

Abstract

Abstract: The efficacy of untreated and alphacypermethrin-treated high density polyethylene (HDPE) mesh against Culicoides biting midges (Diptera: Ceratopogonidae) was determined using Onderstepoort downdraught black light traps and a contact bioassay. Three traps were operated overnight in four replicates of a 3×3 randomised Latin square design near horses under South African field conditions. Both the untreated and alphacypermethrin-treated HDPE mesh significantly (P <0.05) reduced the numbers of Culicoides midges, predominantly Culicoides (Avaritia) imicola Kieffer, collected in the light traps by 4.2 and 7.2 times, respectively. A repellent effect of the alphacypermethrin-treated mesh was not confirmed because the number of midges collected in the light traps with untreated and alphacypermethrin-treated HDPE mesh was not significantly different (P =0.656). Bioassay of the insecticidal contact efficacy indicated median C. imicola mortality of 100% from 30 and 10min following exposure to the alphacypermethrin-treated HDPE mesh for 1 or 3min, respectively. In the bioassay, mortality was significantly higher (P =0.016) at 5min post exposure in the midges exposed to the alphacypermethrin-treated mesh for 3min (74.8%) compared to the 1min exposure group (59.5%). The HDPE mesh could be used to reduce exposure of housed animals to Culicoides midges, specifically C. imicola, and viruses transmitted by these midges. Mesh treated with alphacypermethrin had the additional benefit of a rapid insecticidal effect on C. imicola. [Copyright &y& Elsevier]

Published

2014

197. African Horse Sickness Outbreaks Caused by Multiple Virus Types in Ethiopia.

Author

Aklilu, N., Batten, C., Gelaye, E., Jenberie, S., Ayelet, G., Wilson, A., Belay, A., Asfaw, Y., Oura, C., Maan, S., Bachanek ‐ Bankowska, K., and Mertens, P. P. C.

Subjects

*AFRICAN horse sickness, *DISEASE outbreaks, *ANIMAL mortality, *DISEASE prevalence, *MOLECULAR epidemiology

Abstract

African horse sickness ( AHS) is associated with high morbidity and mortality in equids, especially horses. A retrospective analysis was carried out concerning 737 AHS outbreaks that occurred during 2007-2010 in Ethiopia. A total of ten outbreaks were investigated in the study period. All four forms of the disease (pulmonary, cardiac, horse sickness fever and the combined form) were observed, with the cardiac form being the most prevalent. Multiple African horse sickness virus serotypes ( AHSV-2, AHSV-4, AHSV-6, AHSV-8 and AHSV-9) were detected by molecular methods (type-specific real-time RT- PCR assays), and fourteen isolates were derived from blood and tissue samples collected during 2009-2010. This is the first report of AHSV-4, AHSV-6 or AHSV-8 in Ethiopia. [ABSTRACT FROM AUTHOR]

Published

2014

198. The threat of midge-borne equine disease: investigation of Culicoides species on UK equine premises.

Author

Robin, M., Archer, D., Garros, C., Gardès, L., and Baylis, M.

Subjects

*CULICOIDES, *AFRICAN horse sickness, *HORSE diseases, *EPIDEMICS, *DISEASE risk factors

Abstract

There are concerns that outbreaks of exotic or novel vector-borne viral diseases will increasingly occur within northern Europe and the UK in the future. African horse sickness (AHS) is a viral disease of equids that is transmitted by Culicoides and is associated with up to 95 percent mortality. AHS has never occurred in the UK; however, it has been suggested that appropriate Culicoides species and climatic conditions are present in northern Europe to support an outbreak. No data are currently available regarding the Culicoides species present on UK equine properties. This study demonstrates the presence of potential AHS virus vector Culicoides species on both urban and rural equine properties within the south-east UK. PCR analysis revealed that engorged members of these species contained equine DNA, proving a direct vector-host interaction. It is therefore possible that an AHS outbreak could occur in the UK if the virus were to be imported and, given the severe welfare and economic consequences of AHS, this would have devastating consequences to the naïve UK equine population. [ABSTRACT FROM AUTHOR]

Published

2014

199. Vaccination of mice with a modified Vaccinia Ankara (MVA) virus expressing the African horse sickness virus (AHSV) capsid protein VP2 induces virus neutralising antibodies that confer protection against AHSV upon passive immunisation.

Author

Calvo-Pinilla, Eva, de la Poza, Francisco, Gubbins, Simon, Mertens, Peter Paul Clement, Ortego, Javier, and Castillo-Olivares, Javier

Subjects

*AFRICAN horse sickness virus, *GENE expression in viruses, *CAPSIDS, *VIRAL proteins, *LABORATORY mice, *IMMUNOGLOBULINS, *IMMUNIZATION

Abstract

Highlights: [•] A passive immunisation of IFNAR−/− mice with antisera from MVA-VP2 vaccinated mice was performed. [•] Passively immunised mice were challenged with AHSV. [•] Passively immunised were completely protected against death and clinical signs of AHSV although relatively low levels of viraemia were detected. [•] Anti-AHSV immunity induced by MVA-VP2 vaccination is mediated mainly by antibody responses. [ABSTRACT FROM AUTHOR]

Published

2014

200. Review for 'Economic assessment of african horse sickness vaccine impact'

Author

Matthew Robin

Subjects

biology, Economic assessment, business.industry, Environmental health, Medicine, African horse sickness, business, biology.organism_classification

Published

2020