85 results on '"Venter, Estelle"'
Search Results
2. Lumpy skin disease is expanding its geographic range: A challenge for Asian livestock management and food security
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Azeem, Shahan, Sharma, Banshi, Shabir, Shafqat, Akbar, Haroon, and Venter, Estelle
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- 2022
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3. Importance of the lumpy skin disease virus (LSDV) LSDV126 gene in differential diagnosis and epidemiology and its possible involvement in attenuation
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Erster, Oran, Rubinstein, Marisol Guini, Menasherow, Sophia, Ivanova, Emilia, Venter, Estelle, Šekler, Milanko, Kolarevic, Mišo, and Stram, Yehuda
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- 2019
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4. Lumpy skin disease: history, current understanding and research gaps in the context of recent geographic expansion.
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Mazloum, Ali, Van Schalkwyk, Antoinette, Babiuk, Shawn, Venter, Estelle, Wallace, David B., and Sprygin, Alexander
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LUMPY skin disease ,EVIDENCE gaps ,CATTLE diseases ,MOLECULAR evolution ,CELL culture ,RUMINANTS - Abstract
Lumpy skin disease is recognized as a transboundary and emerging disease of cattle, buffaloes and other wild ruminants. Being initially restricted to Africa, and since 1989 the Middle East, the unprecedented recent spread across Eurasia demonstrates how underestimated and neglected this disease is. The initial identification of the causative agent of LSD as a poxvirus called LSD virus, was well as findings on LSDV transmission and epidemiology were pioneered at Onderstepoort, South Africa, from as early as the 1940s by researchers such as Weiss, Haig and Alexander. As more data emerges from an ever-increasing number of epidemiological studies, previously emphasized research gaps are being revisited and discussed. The currently available knowledge is in agreement with the previously described South African research experience that LSDV transmission can occur by multiple routes, including indirect contact, shared water sources and arthropods. The virus population is prone to molecular evolution, generating novel phylogenetically distinct variants resulting from a diverse range of selective pressures, including recombination between field and homologous vaccine strains in cell culture that produce virulent recombinants which pose diagnostic challenges. Host restriction is not limited to livestock, with certain wild ruminants being susceptible, with unknown consequences for the epidemiology of the disease. [ABSTRACT FROM AUTHOR]
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- 2023
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5. A review of experimental infections with bluetongue virus in the mammalian host
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Coetzee, Peter, van Vuuren, Moritz, Venter, Estelle. H., and Stokstad, Maria
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- 2014
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6. Demonstration of lumpy skin disease virus infection in Amblyomma hebraeum and Rhipicephalus appendiculatus ticks using immunohistochemistry
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Lubinga, Jimmy C., Clift, Sarah J., Tuppurainen, Eeva S.M., Stoltsz, Wilhem H., Babiuk, Shawn, Coetzer, Jacobus A.W., and Venter, Estelle H.
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- 2014
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7. Widespread Reassortment Contributes to Antigenic Shift in Bluetongue Viruses from South Africa.
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Van Schalkwyk, Antoinette, Coetzee, Peter, Ebersohn, Karen, Von Teichman, Beate, and Venter, Estelle
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BLUETONGUE virus ,VIRUS diseases ,GENETIC variation ,MOLECULAR evolution ,HERD immunity ,BLUETONGUE - Abstract
Bluetongue (BT), a viral disease of ruminants, is endemic throughout South Africa, where outbreaks of different serotypes occur. The predominant serotypes can differ annually due to herd immunity provided by annual vaccinations using a live attenuated vaccine (LAV). This has led to both wild-type and vaccine strains co-circulating in the field, potentially leading to novel viral strains due to reassortment and recombination. Little is known about the molecular evolution of the virus in the field in South Africa. The purpose of this study was to investigate the genetic diversity of field strains of BTV in South Africa and to provide an initial assessment of the evolutionary processes shaping BTV genetic diversity in the field. Complete genomes of 35 field viruses belonging to 11 serotypes, collected from different regions of the country between 2011 and 2017, were sequenced. The sequences were phylogenetically analysed in relation to all the BTV sequences available from GenBank, including the LAVs and reference strains, resulting in the analyses and reassortment detection of 305 BTVs. Phylogenomic analysis indicated a geographical selection of the genome segments, irrespective of the serotype. Based on the initial assessment of the current genomic clades that circulate in South Africa, the selection for specific clades is prevalent in directing genome segment reassortment, which seems to exclude the vaccine strains and in multiple cases involves Segment-2 resulting in antigenic shift. [ABSTRACT FROM AUTHOR]
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- 2023
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8. African horse sickness caused by genome reassortment and reversion to virulence of live, attenuated vaccine viruses, South Africa, 2004-2014
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Weyer, Camilla T., Grewar, John D., Burger, Phillippa, Rossouw, Esthea, Lourens, Carina, Joone, Christopher, le Grange, Misha, Coetzee, Peter, Venter, Estelle, Martin, Darren P., MacLachlan, N. James, and Guthrie, Alan J.
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Vaccination -- Analysis ,Virulence (Microbiology) -- Analysis ,Genomics -- Analysis ,Genomes -- Analysis ,Vaccines -- Analysis ,Health ,World Organization for Animal Health - Abstract
African horse sickness (AHS) is a severe, often fatal disease of equids that is caused by AHS virus (AHSV), a member of the genus Orbivirus, family Reoviridae (1). The virus [...]
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- 2016
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9. Sequence analysis and evaluation of the NS3/A gene region of bluetongue virus isolates from South Africa
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Steyn, Jumari and Venter, Estelle Hildegard
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- 2016
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10. Transplacental infection in goats experimentally infected with a European strain of bluetongue virus serotype 8
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Coetzee, Peter, Stokstad, Maria, Myrmel, Mette, Mutowembwa, Paidamwoyo, Loken, Torleiv, Venter, Estelle H., and Van Vuuren, Moritz
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- 2013
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11. Evidence of vertical transmission of lumpy skin disease virus in Rhipicephalus decoloratus ticks
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Tuppurainen, Eeva S.M., Lubinga, Jimmy C., Stoltsz, Wilhelm H., Troskie, Milana, Carpenter, Simon T., Coetzer, Jacobus A.W., Venter, Estelle H., and Oura, Chris A.L.
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- 2013
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12. Transovarial passage and transmission of LSDV by Amblyomma hebraeum, Rhipicephalus appendiculatus and Rhipicephalus decoloratus
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Lubinga, Jimmy C., Tuppurainen, Eeva S. M., Coetzer, Jacobus A. W., Stoltsz, Wilhelm H., and Venter, Estelle H.
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- 2014
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13. A Molecular Epidemiologic Investigation of Salmonella from a Meat Source to the Feces of Captive Cheetah (Acinonyx jubatus)
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Venter, Estelle H., van Vuuren, Moritz, Carstens, Johann, van der Walt, Martha L., Nieuwoudt, Badenhorst, Steyn, Helena, and Kriek, Nick P. J.
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- 2003
14. Rift Valley fever outbreak in livestock, Mozambique, 2014
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Fafetine, Jose M., Coetzee, Peter, Mubemba, Benjamin, Nhambirre, Ofelia, Neves, Luis, Coetzer, J.A.W., and Venter, Estelle H.
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Livestock -- Health aspects ,Epidemics -- Health aspects ,Rift valley fever -- Health aspects ,Abortion -- Health aspects ,Genomics -- Health aspects ,Health - Abstract
Rift Valley fever (RVF) virus (family Bunyaviridae, genus PhleboviruS) is a mosquito-borne virus that affects ruminants and humans. The virion contains 3 single-stranded RNA genome segments, large, medium, and small. [...]
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- 2016
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15. Detection of bovine papillomavirus DNA in sarcoid-affected and healthy free-roaming zebra ( Equus zebra) populations in South Africa
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van Dyk, Enette, Oosthuizen, Marinda C., Bosman, Anna-Marie, Nel, Pierre J., Zimmerman, David, and Venter, Estelle H.
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- 2009
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16. Molecular Epidemiology of Serotype O Foot-and-Mouth Disease Virus with Emphasis on West and South Africa
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Sangare, Oumou, Bastos, Armanda D.S., Marquardt, Otfried, Venter, Estelle H., Vosloo, Wilna, and Thomson, Gavin R.
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- 2001
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17. Bluetongue: a historical and epidemiological perspective with the emphasis on South Africa
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Coetzee Peter, Stokstad Maria, Venter Estelle H, Myrmel Mette, and Van Vuuren Moritz
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Bluetongue virus ,Culicoides ,Serotype ,Survey ,African carnivores ,African herbivores ,Sheep ,Cattle ,Onderstepoort ,South Africa ,Control ,Vaccine ,Infectious and parasitic diseases ,RC109-216 - Abstract
Abstract Bluetongue (BT) is a non-contagious, infectious, arthropod transmitted viral disease of domestic and wild ruminants that is caused by the bluetongue virus (BTV), the prototype member of the Orbivirus genus in the family Reoviridae. Bluetongue was first described in South Africa, where it has probably been endemic in wild ruminants since antiquity. Since its discovery BT has had a major impact on sheep breeders in the country and has therefore been a key focus of research at the Onderstepoort Veterinary Research Institute in Pretoria, South Africa. Several key discoveries were made at this Institute, including the demonstration that the aetiological agent of BT was a dsRNA virus that is transmitted by Culicoides midges and that multiple BTV serotypes circulate in nature. It is currently recognized that BT is endemic throughout most of South Africa and 22 of the 26 known serotypes have been detected in the region. Multiple serotypes circulate each vector season with the occurrence of different serotypes depending largely on herd-immunity. Indigenous sheep breeds, cattle and wild ruminants are frequently infected but rarely demonstrate clinical signs, whereas improved European sheep breeds are most susceptible. The immunization of susceptible sheep remains the most effective and practical control measure against BT. In order to protect sheep against multiple circulating serotypes, three pentavalent attenuated vaccines have been developed. Despite the proven efficacy of these vaccines in protecting sheep against the disease, several disadvantages are associated with their use in the field.
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- 2012
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18. Refined experimental design may increase the value of murine models for estimation of bluetongue virus virulence.
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Stokstad, Maria, Coetzee, Peter, Myrmel, Mette, Mutowembwa, Paidamwoyo, Venter, Estelle H, and Larsen, Stig
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VIRUS virulence ,BLUETONGUE virus ,EXPERIMENTAL design ,CULICOIDES ,ANIMAL welfare ,VIRUS diseases ,RUMINANTS - Abstract
Copyright of Laboratory Animals is the property of Sage Publications, Ltd. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2021
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19. Potential link of single nucleotide polymorphisms to virulence of vaccine‐associated field strains of lumpy skin disease virus in South Africa.
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Schalkwyk, Antoinette, Kara, Pravesh, Ebersohn, Karen, Mather, Arshad, Annandale, Cornelius Henry, Venter, Estelle Hildegard, and Wallace, David Brian
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VIRUS diseases ,SKIN diseases ,VACCINES ,VIRAL vaccines - Abstract
South Africa is endemic for lumpy skin disease and is therefore reliant on various live attenuated vaccines for the control and prevention of the disease. In recent years, widespread outbreaks of vaccine‐like strains of lumpy skin disease virus (LSDV) were reported internationally, leading to an increase in the generation of full genome sequences from field isolates. In this study, the complete genomes of six LSDVs submitted during active outbreaks in the 1990s in South Africa were generated. Based on phylogenetic analysis, the six viruses clustered with vaccine strains in LSDV Subgroup 1.1 and are subsequently referred to as vaccine‐associated. The genetic differences between the phenotypically distinct vaccine and vaccine‐associated strains were 67 single nucleotide polymorphisms (SNPs). This study characterized the location and possible importance of each of these SNPs in their role during virulence and host specificity. [ABSTRACT FROM AUTHOR]
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- 2020
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20. Neutralizing antibodies against Rift Valley fever virus in wild antelope in far northern KwaZulu‐Natal, South Africa, indicate recent virus circulation.
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Van den Bergh, Carien, Venter, Estelle H., Swanepoel, Robert, Hanekom, Cathariné C., and Thompson, Peter N.
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RIFT Valley fever , *CULICOIDES , *AEDES aegypti , *ANTELOPES , *VIRUS diseases , *ZOONOSES , *IMMUNOGLOBULINS - Abstract
Rift Valley fever (RVF) is a zoonotic viral disease of domestic ruminants in Africa and the Arabian Peninsula caused by a mosquito‐borne Phlebovirus. Outbreaks in livestock and humans occur after heavy rains favour breeding of vectors, and the virus is thought to survive dry seasons in the eggs of floodwater‐breeding aedine mosquitoes. We recently found high seroconversion rates to RVF virus (RVFV) in cattle and goats, in the absence of outbreaks, in far northern KwaZulu‐Natal (KZN), South Africa. Here, we report the prevalence of, and factors associated with, neutralizing antibodies to RVFV in 326 sera collected opportunistically from nyala (Tragelaphus angasii) and impala (Aepyceros melampus) culled during 2016–2018 in two nature reserves in the same area. The overall seroprevalence of RVFV, determined using the serum neutralization test, was 35.0% (114/326; 95%CI: 29.8%–40.4%) and tended to be higher in Ndumo Game Reserve (11/20; 55.0%; 95%CI: 31.5%–76.9%) than in Tembe Elephant Park (103/306; 33.6%; 95%CI: 28.4%–39.3%) (p =.087). The presence of antibodies in juveniles (6/21; 28.6%; 95%CI: 11.3%–52.2%) and sub‐adults (13/65; 20.0%; 95%CI: 11.1%–37.8%) confirmed that infections had occurred at least until 2016, well after the 2008–2011 RVF outbreaks in South Africa. Odds of seropositivity was higher in adults than in sub‐adults (OR = 3.98; 95%CI: 1.83–8.67; p =.001), in males than in females (OR = 2.66; 95%CI: 1.51–4.68; p =.001) and in animals collected ≤2 km from a swamp or floodplain compared with those collected further away (OR = 3.30; 95%CI: 1.70–6.38; p <.001). Under similar ecological conditions, domestic and wild ruminants may play a similar role in maintenance of RVFV circulation and either or both may serve as the mammalian host in a vector–host reservoir system. The study confirms the recent circulation of RVFV in the tropical coastal plain of northern KZN, providing the basis for investigation of factors affecting virus circulation and the role of wildlife in RVF epidemiology. [ABSTRACT FROM AUTHOR]
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- 2020
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21. Effect of using frozen–thawed bovine semen contaminated with lumpy skin disease virus on in vitro embryo production.
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Annandale, Cornelius Henry, Smuts, Mario P., Ebersohn, Karen, du Plessis, Lizette, Thompson, Peter N., Venter, Estelle H., and Stout, Tom A. E.
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ARTIFICIAL insemination ,FROZEN human embryos ,VIRUS diseases ,SKIN diseases ,SEMEN ,EMBRYOS ,VIRUS isolation - Abstract
Summary: Lumpy skin disease (LSD) is an important transboundary animal disease of cattle with significant economic impact because of the implications for international trade in live animals and animal products. LSD is caused by a Capripoxvirus, LSD virus (LSDV), and results in extensive hide and udder damage, fever and pneumonia. LSDV can be shed in semen of infected bulls for prolonged periods and transmitted venereally to cows at high doses. This study examined the effects of LSDV in frozen‐thawed semen on in vitro embryo production parameters, including viral status of media and resulting embryos. Bovine oocytes were harvested from abattoir‐collected ovaries and split into three experimental groups. After maturation, the oocytes were fertilized in vitro with frozen‐thawed semen spiked with a high (HD) or a lower (LD) dose of LSDV, or with LSDV‐free semen (control). Following day 7 and day 8 blastocyst evaluation, PCR and virus isolation were performed on all embryonic structures. After completing sufficient replicates to reach 1,000 inseminated oocytes, further in vitro fertilization (IVF) runs were performed to provide material for electron microscopy (EM) and embryo washing procedures. Overall, in vitro embryo yield was significantly reduced by the presence of LSDV in frozen‐thawed semen, irrespective of viral dose. When semen with a lower viral dose was used, significantly lower oocyte cleavage rates were observed. LSDV could be detected in fertilization media and all embryo structures, when higher doses of LSDV were present in the frozen‐thawed semen used for IVF. Electron microscopy demonstrated LSDV virions inside blastocysts. Following the International Embryo Transfer Society washing procedure resulted in embryos free of viral DNA; however, this may be attributable to a sampling dilution effect and should be interpreted with caution. Further research is required to better quantify the risk of LSDV transmission via assisted reproductive procedures. [ABSTRACT FROM AUTHOR]
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- 2019
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22. High seroconversion rate to Rift Valley fever virus in cattle and goats in far northern KwaZulu-Natal, South Africa, in the absence of reported outbreaks.
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van den Bergh, Carien, Venter, Estelle H., Swanepoel, Robert, and Thompson, Peter N.
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RIFT Valley fever , *HIV seroconversion , *SEROCONVERSION , *GOATS , *CATTLE , *PESTE des petits ruminants , *ZOONOSES - Abstract
Background: Rift Valley fever (RVF) is a mosquito-borne zoonotic disease characterized in South Africa by large epidemics amongst ruminant livestock at very long, irregular intervals, mainly in the central interior. However, the presence and patterns of occurrence of the virus in the eastern parts of the country are poorly known. This study aimed to detect the presence of RVF virus (RVFV) in cattle and goats in far northern KwaZulu-Natal province and to estimate the prevalence of antibodies to the virus and the incidence rate of seroconversion. Methodology: Cross-sectional studies were performed in communally farmed cattle (n = 423) and goats (n = 104), followed by longitudinal follow-up of seronegative livestock (n = 253) 14 times over 24 months, representing 160.3 animal-years at risk. Exposure to RVFV was assessed using an IgG sandwich ELISA and a serum neutralization test (SNT) and seroconversion was assessed using SNT. Incidence density was estimated and compared using multivariable Poisson models and hazard of seroconversion was estimated over time. Principal findings: Initial overall seroprevalence was 34.0% (95%CI: 29.5–38.8%) in cattle and 31.7% (95%CI: 22.9–41.6%) in goats, varying by locality from 18–54%. Seroconversions to RVFV based on SNT were detected throughout the year, with the incidence rate peaking during the high rainfall months of January to March, and differed considerably between years. Overall seroconversion rate in cattle was 0.59 per animal-year (95% CI: 0.46–0.75) and in goats it was 0.41 per animal-year (95% CI: 0.25–0.64), varying significantly over short distances. Conclusions/Significance: The high seroprevalence in all age groups and evidence of year-round viral circulation provide evidence for a hyperendemic situation in the study area. This is the first study to directly estimate infection rate of RVFV in livestock in an endemic area in the absence of reported outbreaks and provides the basis for further investigation of factors affecting viral circulation and mechanisms for virus survival during interepidemic periods. [ABSTRACT FROM AUTHOR]
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- 2019
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23. Evaluating African horse sickness virus in horses and field-caught Culicoides biting midges on the East Rand, Gauteng Province, South Africa.
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Craig, Anthony F., Packer, Glenn C., Guthrie, Alan J., and Venter, Estelle H.
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- 2019
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24. Phylogenetic analysis of canine distemper virus in South African wildlife.
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Loots, Angelika K., Mokgokong, Prudent S., Mitchell, Emily, Venter, Estelle H., Kotze, Antoinette, and Dalton, Desiré Lee
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CANINE distemper virus ,DOG diseases ,ANIMALS ,NECTINS ,GENOTYPES - Abstract
Canine distemper virus (CDV) causes a severe contagious disease in a broad range of hosts. This is the first study to genetically characterise CDV strains from four different wildlife species in South Africa. The phylogenetic diversity of CDV is examined, using the haemagglutinin gene. The South African wildlife CDV isolates showed a high degree of similarity to CDV in South African domestic dogs. Phylogenetic analyses confirmed the presence of 12 geographical lineages with CDV strains from South African wildlife falling within the Southern African lineage. The study reveals two possible co-circulating sub-genotypes corresponding to the northern and southern regions of South Africa respectively. CDV strains from the non-canid species were distinct, but similar to CDV isolates from domestic dog and wild canids. Residues at amino acid sites of the SLAM binding region support the notion that CDV strains encoding 519I / 549H are better adapted to non-canid species than canid species. The amino acids present at site 530 are conserved regardless of host species. Strains from South African wild carnivores showed no difference between host species with all strains presenting 530N. All non-canid strains in this study presented the combination 519I/549H. No evidence of host adaptation or lineage grouping was observed for the Nectin-4 binding region. Further studies should include CDV strains isolated from various hosts from a wider geographical range in South Africa. [ABSTRACT FROM AUTHOR]
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- 2018
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25. The role of toll-like receptor polymorphisms in susceptibility to canine distemper virus.
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Loots, Angelika K., Cardoso-Vermaak, Elaine, Venter, Estelle H., Mitchell, Emily, Kotzé, Antoinette, and Dalton, Desiré L.
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- 2018
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26. The prevalence of Culicoides spp. in 3 geographic areas of South Africa.
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Venter, Estelle H., Steyn, Jumari, Coetzee, Peter, van Vuuren, Moritz, Crafford, Jan, Schütte, Christine, and Venter, Gert
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- 2016
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27. Recent advances in knowledge of BTV-host-vector interaction.
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Coetzee, Peter and Venter, Estelle H.
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- 2015
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28. The effect of Rift Valley fever virus Clone 13 vaccine on semen quality in rams.
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Brown, Geoff, Venter, Estelle H., Morley, Paul, and Annandale, Henry
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Rift Valley fever (RVF) is an arthropod-borne viral disease of importance in livestock and humans. Epidemics occur periodically in domestic ruminants. People in contact with infected livestock may develop disease that varies from mild flu-like symptoms to fatal viraemia. Livestock vaccination may assist in disease control. Rift Valley fever virus (RVFV) Clone 13 is a relatively new vaccine against RVF, derived from an avirulent natural mutant strain of RVFV, and has been shown to confer protective immunity against experimental infection with RVFV. The hypothesis tested in the current trial was that rams vaccinated with RVFV Clone 13 vaccine would not experience a reduction in semen quality (measured by evaluating the percentage progressively motile and percentage morphologically normal spermatozoa in successive ejaculates) relative to unvaccinated control animals. Ram lambs were screened for antibodies to RVFV using a serum neutralisation test. Animals without detectable antibodies (n = 23) were randomly allocated to either a test group (n = 12) or a control group (n = 11). Animals in the test group were vaccinated with RVFV Clone 13 vaccine. Daily rectal temperature measurements and weekly semen and blood samples were taken from all animals. Seven animals were eliminated from the statistical analysis because of potential confounding factors. Logistic regression analysis was performed on data gathered from the remaining animals to determine whether an association existed between animal group, rectal temperature and semen quality parameters. No correlation existed between the treatment group and values obtained for the semen quality parameters measured. There was no statistically significant post-vaccination decline in the percentage of live morphologically normal spermatozoa, or the percentage of progressively motile spermatozoa, either when assessed amongst all animals or when assessed within individual groups. A repeat study with a larger sample size and a more comprehensive pre-screening process may be indicated to avoid the inclusion of unsuitable animals. [ABSTRACT FROM AUTHOR]
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- 2015
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29. Transovarial passage and transmission of LSDV by Amblyomma hebraeum, Rhipicephalus appendiculatus and Rhipicephalus decoloratus.
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Lubinga, Jimmy C., Tuppurainen, Eeva S. M., Coetzer, Jacobus A. W., Stoltsz, Wilhelm H., and Venter, Estelle H.
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AMBLYOMMA ,RHIPICEPHALUS appendiculatus ,LUMPY skin disease virus ,LUMPY skin disease ,POXVIRUSES ,SKIN injuries ,DIGESTIVE system diseases ,CATTLE - Abstract
Lumpy skin disease (LSD), an acute, sub-acute or inapparent disease of cattle, is caused by lumpy skin disease virus (LSDV), a member of the genus Capripoxvirus in the family Poxviridae. LSD is characterised by high fever, formation of circumscribed skin lesions and ulcerative lesions on the mucous membranes of the mouth, respiratory and digestive tracts. It is an economically important disease due to the permanent damage to hides, the reduction in productivity and trade restrictions imposed on affected areas. Transmission has been associated with blood-feeding insects such as stable flies ( Stomoxysis calcitrans) and mosquitoes ( Aedes aegypti). Mechanical (intrastadial) and transstadial transmission by Amblyomma hebraeum and Rhipicephalus appendiculatus as well as transovarial transmission by R. decoloratus have been reported. In this study transovarial passage of LSDV to larvae and subsequent transmission to recipient animals were demonstrated. The finding of transovarial passage of LSDV in female ticks shows the potential for A. hebraeum, R. appendiculatus and R. decoloratus to be reservoir hosts for LSDV. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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30. Babesia lengau associated with cerebral and haemolytic babesiosis in two domestic cats.
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Bosman, Anna-Mari, Oosthuizen, Marinda C., Venter, Estelle H., Steyl, Johan C. A., Gous, Tertius A., and Penzhorn, Barend L.
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CAT diseases ,BABESIA ,CHEETAH ,POLYMERASE chain reaction ,SPECIES hybridization - Abstract
Background: Although reported sporadically from various countries, feline babesiosis appears to be a significant clinical entity only in South Africa, where Babesia felis is usually incriminated as the causative agent. Babesia lengau, recently described from asymptomatic cheetahs, has now possibly been incriminated as the causative agent in two severe clinical cases in domestic cats. Findings: Both cats were euthanised in extremis. While typical feline babesiosis in South Africa is an afebrile disease with a chronic manifestation, there was acute onset of severe clinical signs in both cats and their body temperatures were above the normal range when they were presented for treatment. Haemolytic anaemia was confirmed in one case. To our knowledge, this is the first report of cerebral babesiosis in cats. On reverse line blot 18S rDNA PCR products obtained from both cats showed positive hybridization profiles with the B. lengau species-specific probe. The two partial parasite 18S rRNA gene sequences obtained, showed high sequence similarity (99.9%) to B. lengau. In a representative tree constructed by the neighbor-joining method using the two-parameter model of Kimura the two obtained partial 18S rDNA sequences and that of B. lengau formed a monophyletic group with B. conradae and sequences previously isolated from humans and wildlife in the western USA. Conclusion: All clinical cases of feline babesiosis in South Africa are not necessarily caused by B. felis. Other piroplasms, e.g. B. lengau, may be incriminated in clinical cases, especially those occurring outside the known endemic area. [ABSTRACT FROM AUTHOR]
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- 2013
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31. Determination of the minimum protective dose for bluetongue virus serotype 2 and 8 vaccines in sheep.
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Modumo, Jacob and Venter, Estelle H.
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BLUETONGUE virus , *SHEEP diseases , *SEROTYPES , *BLOOD collection , *VIREMIA - Abstract
Recent outbreaks of bluetongue virus (BTV) serotypes 2 and 8 in many European countries provided an opportunity to investigate the possibility of improving the safety of the modified live vaccines administered mainly in South Africa. Modified live vaccines (MLV) released at a titre of 5 x 104 PFU/mL, raised concerns and prompted the need to determine the minimum titre which will still be protective and also safe. The BTV serotypes 2 and 8 vaccines were produced at the following titres: 10² PFU/mL, 10³ PFU/mL and 104 PFU/mL, and were injected into 24 sheep which were then monitored. Blood was collected on days 0, 3, 6, 9, 12, 15, 18, 21, 25, 28 and 4 months post vaccination, for seroconversion and viraemia studies. These sheep were later challenged at 4 months post vaccination using BTV infected cell culture material, they were then observed and bled and again tested for viraemia. There was no viraemia post vaccination, however, a febrile reaction did occur and seroconversion was demonstrated at low titres for both BTV 2 and 8. Although viraemia was demonstrated post challenge, sheep vaccinated with the low titre BTV 2 vaccine showed more than a 90% protection index at a lower titre of 10³ PFU/mL, compared with BTV 8 that showed a protection index above 90% at all the titres used. It is recommended that for BTV 2 vaccine, sheep should be vaccinated at a titre of 10³ PFU/mL and at a titre of 10² PFU/mL with BTV 8 vaccine. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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32. Molecular characterisation of Newcastle disease virus isolates from different geographical regions in Mozambique in 2005.
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Fringe, Raul, Bosman, Anna-Mari, Ebersohn, Karen, Bisschop, Shahn, Abolnik, Celia, and Venter, Estelle
- Abstract
Newcastle disease (ND) is regarded as a highly contagious and economically important disease in poultry and has a worldwide distribution. Viral determinants for Newcastle disease virus (NDV) virulence are not completely understood and viruses of different pathotypes can be found at live-bird markets in different geographical areas. The prevalence of Newcastle disease in village poultry in Mozambique is not well documented and strains of NDV involved in yearly outbreaks are unknown. The fusion (F) protein is an important determinant of pathogenicity of the virus and is used commonly for phylogenetic analysis. Newcastle disease viruses from various geographical regions of Mozambique were sequenced and compared genetically to published sequences obtained from GenBank. Samples were collected in three different areas of Mozambique and NDV was isolated by infection of embryonated chicken eggs. Sequence analysis of the F-protein encoding gene was used to classify 28 isolates from Mozambique into genotypes and compare these genotypes phylogenetically with existing genotypes found in GenBank. The isolates obtained from Mozambique grouped mainly into two clades. In the first clade, 12 isolates grouped together with sequences of isolates representing genotypes from Mozambique that were previously described. In the second clade, 16 isolates group together with sequences obtained from GenBank originating from Australia, China, South Africa and the USA. Eleven of these isolates showed a high similarity with sequences from South Africa. The number of samples sequenced (n = 28), as well as the relatively small geographical collection area used in this study, are too small to be a representation of the circulating viruses in Mozambique in 2005. Viruses characterised in this study belonged to lineage 5b, a similar finding of a previous study 10 years ago. From this data, it merely can be concluded that no new introduction of the virus occurred from 1995 to 2005 in Mozambique. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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33. Molecular characterisation of Mycobacterium bovis isolated from African buffaloes (Syncerus coffer) in Hluhluwe-iMfolozi Park in KwaZulu-Natal, South Africa.
- Author
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Hlokwe, Tiny M., Jenkins, Akinbowale O., Streicher, Elizabeth M., Venter, Estelle H., Cooper, Dave, Godfroid, Jacques, and Michel, Anita L.
- Abstract
Bovine tuberculosis (BTB), a chronic disease of mammals caused by Mycobacterium bovis, is a threat to South African wildlife. It has been reported that African buffaloes (Syncerus caffer) are reservoir hosts of BTB in South African wildlife populations. This study reports on the molecular identification and typing of 31 M. bovis isolates collected between 1993 and 2008, mainly from buffaloes but also from two lions and a bush pig, in the Hluhluwe-iMfolozi Park (HiP) in KwaZulu-Natal. To study the dynamics of BTB in the buffalo populations, 28 M. bovis isolates from the HiP and epidemiologically related parks were characterised using regions of difference deletion analysis for species identification and spoligotyping, variable number of tandem repeats (VNTR), polymorphic G-C-rich sequences and IS6110 restriction fragment length polymorphism (RFLP) genotyping methods. At least three distinct M. bovis genotypes were found amongst HiP samples. The combination of VNTR typing (using a 16-loci panel) and IS6110 RFLP revealed the presence of three additional genetic profiles in individual buffaloes, demonstrating that the highest level of discrimination was achieved by these typing methods. One of the observed spoligotypes (SB0130) was dominant and represented 75% of isolates from buffaloes. A novel M. bovis spoligotype (SB1474), which is reported for the first time in this study, was observed in 14.3% of isolates from buffaloes. Based on the observed genetic relationships, the findings suggest independent introductions from at least three unrelated sources. These findings improve the knowledge regarding the diversity of circulating M. bovis strains in the HiP. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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34. An investigation into the possibility of bluetongue virus transmission by transfer of infected ovine embryos.
- Author
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Venter, Estelle H., Gerdes, Truuske, Wright, Isabel, and Terblanche, Johan
- Abstract
Bluetongue (BT), a disease that affects mainly sheep, causes economic losses owing to not only its deleterious effects on animals but also its associated impact on the restriction of movement of livestock and livestock germplasm. The causative agent, bluetongue virus (BTV), can occur in the semen of rams and bulls at the time of peak viraemia and be transferred to a developing foetus. The risk of the transmission of BTV by bovine embryos is negligible if the embryos are washed according to the International Embryo Transfer Society (IETS) protocol. Two experiments were undertaken to determine whether this holds for ovine embryos that had been exposed to BTV. Firstly, the oestrus cycles of 12 ewes were synchronised and the 59 embryos that were obtained were exposed in vitro to BTV-2 and BTV-4 at a dilution of 1 x 10
2.88 and 1 x 103.5 respectively. In the second experiment, embryos were recovered from sheep at the peak of viraemia. A total of 96 embryos were collected from BTV-infected sheep 21 days after infection. In both experiments half the embryos were washed and treated with trypsin according to the IETS protocol while the remaining embryos were neither washed nor treated. All were tested for the presence of BTV using cell culture techniques. The virus was detected after three passages in BHK-21 cells only in one wash bath in the first experiment and two unwashed embryos exposed to BTV-4 at a titre of 1 x 103.5 . No embryos or uterine flush fluids obtained from viraemic donors used in the second experiment were positive for BTV after the standard washing procedure had been followed. The washing procedure of the IETS protocol can thus clear sheep embryos infected with BTV either in vitro or in vivo. [ABSTRACT FROM AUTHOR]- Published
- 2011
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35. Detection of Rift Valley Fever Virus in Aedes (Aedimorphus) durbanensis, South Africa.
- Author
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van den Bergh, Carien, Thompson, Peter N., Swanepoel, Robert, Almeida, Antonio P. G., Paweska, Janusz T., Jansen van Vuren, Petrus, Wilson, William C., Kemp, Alan, and Venter, Estelle H.
- Subjects
RIFT Valley fever ,AEDES ,ANIMAL young ,MOSQUITO vectors ,ZOONOSES ,AEDES aegypti ,VIRUSES ,BATS - Abstract
Rift Valley fever virus (RVFV) is a mosquito-borne, zoonotic phlebovirus-causing disease in domestic ruminants and humans in Africa, the Arabian Peninsula and some Indian Ocean islands. Outbreaks, characterized by abortion storms and a high morbidity rate in newborn animals, occur after heavy and prolonged rainfalls favouring the breeding of mosquitoes. However, the identity of the important mosquito vectors of RVFV is poorly known in most areas. Mosquitoes collected in the Ndumo area of tropical north-eastern KwaZulu-Natal (KZN), South Africa, were tested for RVFV nucleic acid using RT-PCR. The virus was detected in a single pool of unfed Aedes (Aedimorphus) durbanensis, indicating that this seasonally abundant mosquito species could serve as a vector in this area of endemic RVFV circulation. Phylogenetic analysis indicated the identified virus is closely related to two isolates from the earliest outbreaks, which occurred in central South Africa more than 60 years ago, indicating long-term endemicity in the region. Further research is required to understand the eco-epidemiology of RVFV and the vectors responsible for its circulation in the eastern tropical coastal region of southern Africa. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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36. Comparative Evaluation of Lumpy Skin Disease Virus-Based Live Attenuated Vaccines.
- Author
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Haegeman, Andy, De Leeuw, Ilse, Mostin, Laurent, Campe, Willem Van, Aerts, Laetitia, Venter, Estelle, Tuppurainen, Eeva, Saegerman, Claude, De Clercq, Kris, and Klement, Eyal
- Subjects
SKIN diseases ,VACCINES ,VIRUS diseases ,VACCINATION - Abstract
Vaccines form the cornerstone of any control, eradication and preventative strategy and this is no different for lumpy skin disease. However, the usefulness of a vaccine is determined by a multiplicity of factors which include stability, efficiency, safety and ease of use, to name a few. Although the vaccination campaign in the Balkans against lumpy skin disease virus (LSDV) was successful and has been implemented with success in the past in other countries, data of vaccine failure have also been reported. It was therefore the purpose of this study to compare five homologous live attenuated LSDV vaccines (LSDV LAV) in a standardized setting. All five LSDV LAVs studied were able to protect against a challenge with virulent LSDV. Aside from small differences in serological responses, important differences were seen in side effects such as a local reaction and a Neethling response upon vaccination between the analyzed vaccines. These observations can have important implications in the applicability in the field for some of these LSDV LAVs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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37. Insights into the Pathogenesis of Viral Haemorrhagic Fever Based on Virus Tropism and Tissue Lesions of Natural Rift Valley Fever.
- Author
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Odendaal, Lieza, Davis, A Sally, Venter, Estelle H, Schnettler, Esther, and Brennan, Benjamin
- Subjects
RIFT Valley fever ,VIRAL tropism ,HEMORRHAGIC fever ,CARDIOGENIC shock ,PULMONARY edema ,SHEEP diseases ,GLYCOCALYX - Abstract
Rift Valley fever phlebovirus (RVFV) infects humans and a wide range of ungulates and historically has caused devastating epidemics in Africa and the Arabian Peninsula. Lesions of naturally infected cases of Rift Valley fever (RVF) have only been described in detail in sheep with a few reports concerning cattle and humans. The most frequently observed lesion in both ruminants and humans is randomly distributed necrosis, particularly in the liver. Lesions supportive of vascular endothelial injury are also present and include mild hydropericardium, hydrothorax and ascites; marked pulmonary congestion and oedema; lymph node congestion and oedema; and haemorrhages in many tissues. Although a complete understanding of RVF pathogenesis is still lacking, antigen-presenting cells in the skin are likely the early targets of the virus. Following suppression of type I IFN production and necrosis of dermal cells, RVFV spreads systemically, resulting in infection and necrosis of other cells in a variety of organs. Failure of both the innate and adaptive immune responses to control infection is exacerbated by apoptosis of lymphocytes. An excessive pro-inflammatory cytokine and chemokine response leads to microcirculatory dysfunction. Additionally, impairment of the coagulation system results in widespread haemorrhages. Fatal outcomes result from multiorgan failure, oedema in many organs (including the lungs and brain), hypotension, and circulatory shock. Here, we summarize current understanding of RVF cellular tropism as informed by lesions caused by natural infections. We specifically examine how extant knowledge informs current understanding regarding pathogenesis of the haemorrhagic fever form of RVF, identifying opportunities for future research. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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38. Idea 95.
- Author
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Venter, Estelle
- Subjects
CONFERENCES & conventions ,THEATER ,PERFORMING arts ,DRAMA in education ,ASSOCIATIONS, institutions, etc. ,SOCIETIES - Abstract
This article focuses on the second world congress of Drama/Theatre and Education which was held in Brisbane, Australia from July 1-6, 1995. The congress was hosted by NADIE and QUADIE, the National and Queensland Associations for Drama in Education. The very broad theme and subthemes attracted an overwhelming interest from all corners of the globe. The large number of delegates who descended on Brisbane confirmed the great need for dialogue, support and interaction in the field of drama/theatre in education. The organisers had the mammoth task of organising a programme and making provision for about 1300 people from nearly 60 countries.
- Published
- 1996
39. Phylogenetic Characterization of the Palyam Serogroup Orbiviruses.
- Author
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Ebersohn, Karen, Coetzee, Peter, Snyman, Louwrens P., Swanepoel, Robert, and Venter, Estelle H.
- Subjects
ORBIVIRUSES ,TERATOGENESIS ,SEROTYPES ,AFRICAN horse sickness ,EQUINE encephalomyelitis - Abstract
The Palyam serogroup orbiviruses are associated with abortion and teratogenesis in cattle and other ruminants. Of the 13 different serotypes that have been identified, the full genome sequence of only one, Kasba, has been published. We undertook to perform Next Generation Sequencing (NGS) and phylogenetic analysis on 12 Palyam serotypes plus field isolates of the African serotypes in our possession. The Palyam serogroup was found to be most closely related to the African horse sickness virus group and showed the most distant evolutionary relationship to the equine encephalosis viruses (EEV). Amino acid sequence analysis revealed that the gene encoding VP7 was the most conserved within serotypes and VP2 and VP5 showed the highest degree of variation. A high degree of sequence identity was found for isolates from the same geographical region. The phylogenetic analysis revealed two clades where the African serotypes were all very closely related in one clade and the other clade contained the Australian and Asian serotypes and one African serotype, Petevo. It was evident from the sequence data that the geographical origin of Palyam serogroup viruses played an important role in the development of the different serotypes. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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40. Evaluation of cross-protection of bluetongue virus serotype 4 with other serotypes in sheep.
- Author
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Zulu, Gcwalisile B. and Venter, Estelle H.
- Abstract
Bluetongue (BT) is a non-contagious disease of sheep and other domestic and wild ruminants caused by the bluetongue virus (BTV). Currently 26 serotypes of the virus have been identified. In South Africa, 22 serotypes have been identified and BT is controlled mainly by annual vaccinations using a freeze-dried live attenuated polyvalent BTV vaccine. The vaccine is constituted of 15 BTV serotypes divided into three separate bottles and the aim is to develop a vaccine using fewer serotypes without compromising the immunity against the disease. This study is based on previously reported cross-neutralisation of specific BTV serotypes in in vitro studies. Bluetongue virus serotype 4 was selected for this trial and was tested for cross-protection against serotype 4 (control), 1 (unrelated serotype), 9, 10 and 11 in sheep using the serum neutralisation test. The purpose of the study was to determine possible cross-protection of different serotypes in sheep. Of those vaccinated with BTV-4 and challenged with BTV-1, which is not directly related to BTV-4, 20% were completely protected and 80% showed clinical signs, but the reaction was not as severe as amongst the unvaccinated animals. In the group challenged with BTV-10, some showed good protection and some became very sick. Those challenged with BTV-9 and BTV-11 had good protection. The results showed that BTV-4 does not only elicit a specific immune response but can also protect against other serotypes. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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- View/download PDF
41. Reassortment of bluetongue virus vaccine serotypes in cattle.
- Author
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van den Bergh, Carien, Coetzee, Peter, and Venter, Estelle H.
- Subjects
- *
BLUETONGUE virus , *SHEEP diseases , *ANIMAL vaccination , *VIREMIA , *SEROTYPES - Abstract
Bluetongue is primarily a disease of sheep in South Africa, while cattle and goats are mostly subclinically infected. The viraemia of bluetongue virus in cattle lasts much longer than in sheep and the role of cattle in the epidemiology of bluetongue in South Africa is poorly understood. Bluetongue virus has a segmented double-stranded ribonucleic acid genome and reassortment of genomes is a common feature. The aim of the study was to investigate whether reassortment occurs between vaccine and field strains when simultaneously administered to cattle. Six cattle between the ages of 6 and 12 months were infected with five strains of modified live vaccine bluetongue virus and a virulent field isolate of bluetongue virus 4. Blood samples were subsequently collected daily from these animals from day 1 to day 39 post-inoculation. Viruses were directly isolated during viraemia from the buffy coat on Vero cells using the plaque forming unit method. Analysis of plaques indicated that no reassortants between virulent field and vaccine strains occurred and the virulent bluetongue virus 4 was identified as the predominant virus strain. However, a reassortant virus between two bluetongue virus vaccine strains was isolated from the buffy coat. Whole genome sequences from the vaccine viruses were compared to the suspected reassortant and it was found that segment 8 exchanged between the bluetongue virus 8 and bluetongue virus 9 vaccine strains. The use of the live-attenuated bluetongue virus multivalent vaccine in South Africa causes circulation of different vaccine serotypes in Culicoides spp. and susceptible hosts and cattle might provide the ideal host for reassortment to occur. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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- View/download PDF
42. Expression of the histone H3 gene in benign, semi-malignant and malignant lesions of the head and neck: a reliable proliferation marker
- Author
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Bosch, Franz X., Udvarhelyi, Nora, Venter, Estelle, Herold-Mende, Christel, Schuhmann, Antje, Maier, Heinz, Weidauer, Hagen, and Born, Antonio I.
- Published
- 1993
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43. Seroprevalence of Rift Valley fever and lumpy skin disease in African buffalo (Syncerus caffer) in the Kruger National Park and Hluhluwe-iMfolozi Park, South Africa
- Author
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Fagbo, Shamsudeen, Coetzer, Jacobus A.W., and Venter, Estelle H.
- Abstract
Rift Valley fever and lumpy skin disease are transboundary viral diseases endemic in Africa and some parts of the Middle East, but with increasing potential for global emergence. Wild ruminants, such as the African buffalo (Syncerus caffer), are thought to play a role in the epidemiology of these diseases. This study sought to expand the understanding of the role of buffalo in the maintenance of Rift Valley fever virus (RVFV) and lumpy skin disease virus (LSDV) by determining seroprevalence to these viruses during an inter-epidemic period. Buffaloes from the Kruger National Park (n = 138) and Hluhluwe-iMfolozi Park (n = 110) in South Africa were sampled and tested for immunoglobulin G (IgG) and neutralising antibodies against LSDV and RVFV using an indirect enzyme-linked immunosorbent assay (I-ELISA) and the serum neutralisation test (SNT). The I-ELISA for LSDV and RVFV detected IgG antibodies in 70 of 248 (28.2%) and 15 of 248 (6.1%) buffaloes, respectively. Using the SNT, LSDV and RVFV neutralising antibodies were found in 5 of 66 (7.6%) and 12 of 57 (21.1%), respectively, of samples tested. The RVFV I-ELISA and SNT results correlated well with previously reported results. Of the 12 SNT RVFV-positive sera, three (25.0%) had very high SNT titres of 1:640. Neutralising antibody titres of more than 1:80 were found in 80.0% of the positive sera tested. The LSDV SNT results did not correlate with results obtained by the I-ELISA and neutralising antibody titres detected were low, with the highest (1:20) recorded in only two buffaloes, whilst 11 buffaloes (4.4%) had evidence of co-infection with both viruses. Results obtained in this study complement other reports suggesting a role for buffaloes in the epidemiology of these diseases during inter-epidemic periods. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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- View/download PDF
44. Retrospective genetic analysis of SAT-1 type foot-and-mouth disease outbreaks in West Africa (1975–1981)
- Author
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Sangare, Oumou, Bastos, Armanda D.S., Venter, Estelle H., and Vosloo, Wilna
- Subjects
- *
FOOT & mouth disease , *MOLECULAR epidemiology - Abstract
The complete 1D genome region encoding the immunogenic and phylogenetically informative VP1 gene was genetically characterized for 23 South African Territories (SAT)-1 viruses causing foot-and-mouth (FMD) disease outbreaks in the West African region between 1975 and 1981. The results indicate that two independent outbreaks occurred, the first involved two West African countries, namely Niger and Nigeria, whilst the second affected Nigeria alone. In the former epizootic, virus circulation spanned a period of 2 years, whilst in the latter virus was recovered from the field over a 3 year period. Comparison of the West African viruses with SAT-1 viruses from other regions on the continent revealed that the two West African lineages identified in this study are regionally distinct. Furthermore, variation in VP1 gene length was identified in SAT-1 viruses for the first time, further emphasizing the uniqueness of these pathogens in West Africa. This first retrospective analysis in which the molecular epidemiology of SAT-1 viruses in West Africa is reported, provides a useful measure of the regional variation of these viruses and is an essential first step in the establishment of a West African sequence database that will be a useful reference for future outbreak eventualities. [Copyright &y& Elsevier]
- Published
- 2003
- Full Text
- View/download PDF
45. Effect of semen processing methods on lumpy skin disease virus status in cryopreserved bull semen.
- Author
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Annandale, C. Henry, Smuts, Mario P., Ebersohn, Karen, Du Plessis, Lizette, Venter, Estelle H., and Stout, Tom A.e.
- Subjects
- *
LUMPY skin disease , *ARTIFICIAL insemination , *CRYOPRESERVATION of biological cultures , *BULLS , *ELECTRON microscopy , *REPRODUCTION , *CATTLE - Abstract
Lumpy skin disease is an economically important disease of cattle, caused by the lumpy skin disease virus (LSDV; Capripoxvirus ). It has a variable clinical appearance but, in severely affected animals, is associated with extensive skin damage, pneumonia and death. The LSDV can be found in the semen of infected bulls for prolonged periods of time, from where it can be transmitted by mating or artificial insemination and cause clinical disease in heifers and cows. In this study, an ejaculate was collected from a LSDV seronegative bull and confirmed free from LSDV DNA by PCR. The ejaculate was split into a control sample (C), a sample spiked with a 4 log TCID 50 dose of an LSDV isolate (HD) and a 10 3 dilution of the virus suspension (ND) and frozen routinely. Two straws from each of the different semen treatment groups (HD, ND and C) were subsequently thawed and subjected to swim-up, single layer centrifugation, Percoll ® density gradient and a Percoll ® density gradient with added trypsin. For one set of straws, semen quality variables were recorded, and viral DNA status determined using PCR; the other set was used for positive staining electron microscopy. Samples determined to be positive for LSDV DNA by PCR were then subjected to virus isolation (VI). Complete elimination of LSDV from semen did not occur with use of any of the processing methods. Trypsin did reduce the viral load, and eliminated LSDV from the ND sample, but severely negatively influenced semen quality. The LSDV virions, as assessed by electron microscopy, were associated with the sperm plasma membrane. Further investigation is needed to establish the efficacy of immuno-extenders for rendering semen free from LSDV. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
46. Possible over-wintering of bluetongue virus in Culicoides populations in the Onderstepoort area, Gauteng, South Africa.
- Author
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Steyn, Jumari, Venter, Gert J., Labuschagne, Karien, Majatladi, Daphney, Boikanyo, Solomon N.B., Lourens, Carina, Ebersohn, Karen, and Venter, Estelle H.
- Abstract
Several studies have demonstrated the ability of certain viruses to overwinter in arthropod vectors. The over-wintering mechanism of bluetongue virus (BTV) is unknown. One hypothesis is over-wintering within adult Culicoides midges (Diptera; Ceratopogonidae) that survive mild winters where temperatures seldom drop below 10 °C. The reduced activity of midges and the absence of outbreaks during winter may create the impression that the virus has disappeared from an area. Light traps were used in close association with horses to collect Culicoides midges from July 2010 to September 2011 in the Onderstepoort area, in Gauteng Province, South Africa. More than 500 000 Culicoides midges were collected from 88 collections and sorted to species level, revealing 26 different Culicoides species. Culicoides midges were present throughout the 15 month study. Nine Culicoides species potentially capable of transmitting BTV were present during the winter months. Midges were screened for the presence of BTV ribonucleic acid (RNA) with the aid of a real-time quantitative reverse transcription polymerase chain reaction (RT-qPCR) assay. In total 91.2% of midge pools tested positive for BTV RNA. PCR results were compared with previous virus isolation results (VI) that demonstrated the presence of viruses in summer and autumn months. The results indicate that BTV-infected Culicoides vectors are present throughout the year in the study area. Viral RNA-positive midges were also found throughout the year with VI positive midge pools only in summer and early autumn. Midges that survive mild winter temperatures could therefore harbour BTV but with a decreased vector capacity. When the population size, biting rate and viral replication decrease, it could stop BTV transmission. Over-wintering of BTV in the Onderstepoort region could therefore result in re-emergence because of increased vector activity rather than reintroduction from outside the region. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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- View/download PDF
47. Viral replication kinetics and in vitro cytopathogenicity of parental and reassortant strains of bluetongue virus serotype 1, 6 and 8.
- Author
-
Coetzee, Peter, Van Vuuren, Moritz, Stokstad, Maria, Myrmel, Mette, van Gennip, René G.P., van Rijn, Piet A., and Venter, Estelle. H.
- Subjects
- *
BLUETONGUE virus , *VIRAL replication , *CELLULAR pathology , *SEROTYPES , *IN vitro studies , *DOUBLE-stranded RNA , *RNA viruses - Abstract
Abstract: Bluetongue virus (BTV), a segmented dsRNA virus, is the causative agent of bluetongue (BT), an economically important viral haemorrhagic disease of ruminants. Bluetongue virus can exchange its genome segments in mammalian or insect cells that have been co-infected with more than one strain of the virus. This process, may potentially give rise to the generation of novel reassortant strains that may differ from parental strains in regards to their phenotypic characteristics. To investigate the potential effects of reassortment on the virus’ phenotype, parental as well as reassortant strains of BTV serotype 1, 6, 8, that were derived from attenuated and wild type strains by reverse genetics, were studied in vitro for their virus replication kinetics and cytopathogenicity in mammalian (Vero) cell cultures. The results indicate that genetic reassortment can affect viral replication kinetics, the cytopathogenicity and extent/mechanism of cell death in infected cell cultures. In particular, some reassortants of non-virulent vaccine (BTV-1 and BTV-6) and virulent field origin (BTV-8) demonstrate more pronounced cytopathic effects compared to their parental strains. Some reassortant strains in addition replicated to high titres in vitro despite being composed of genome segments from slow and fast replicating parental strains. The latter result may have implications for the level of viraemia in the mammalian host and subsequent uptake and transmission of reassortant strains (and their genome segments) by Culicoides vectors. Increased rates of CPE induction could further suggest a higher virulence for reassortant strains in vivo. Overall, these findings raise questions in regards to the use of modified-live virus (MLV) vaccines and risk of reassortment in the field. To further address these questions, additional experimental infection studies using insects and/or animal models should be conducted, to determine whether these results have significant implications in vivo. [Copyright &y& Elsevier]
- Published
- 2014
- Full Text
- View/download PDF
48. Inclusion body hepatitis associated with an outbreak of fowl adenovirus type 2 and type 8b in broiler flocks in South Africa.
- Author
-
Maartens, Louis H., Joubert, Hilda W., Aitchison, Henry, and Venter, Estelle H.
- Abstract
Inclusion body hepatitis is an acute disease of chickens ascribed to viruses of the genus Aviadenovirus and referred to as fowl adenovirus (FAdV). There are 12 FAdV types (FAdV1 to FAdV8a and FAdV8b to FAdV11), classified into five species based on their genotype (designated FAdVA to FAdVE). A total of 218 000 chickens, 2–29 days of age, were affected over a 1-year period, all testing positive by microscopy, virus isolation and confirmation with polymerase chain reaction (PCR). Affected birds were depressed, lost body weight, were weak and had watery droppings. Pathological changes observed during necropsy indicated consistent changes in the liver, characterised by hepatomegaly, cholestasis and hepatitis. Lesions were also discernible in the spleen, kidney and gizzard wall and were characterised by splenomegaly, pinpoint haemorrhages, nephritis with haemorrhage, visceral gout and serosal ecchymosis of the gizzard wall. Histopathological lesions were most consistently observed in the liver but could also be seen in renal and splenic tissue. Virus isolation was achieved in embryonated eggs and most embryos revealed multifocal to diffuse hepatic necrosis, with a mixed cellular infiltrate of macrophages and heterophils (necro-granulomas), even in the absence of macroscopic pathology. Virus isolation results were verified by histopathology and PCR on embryonic material and further characterised by nucleotide sequence analysis. Two infectious bursal disease virus isolates were also made from the Klerksdorp flock. Nucleotide sequence analysis of the L1 hexon loop of all the FAdV isolates indicated homology (99%) with prototype strains P7-A for FAdV-2, as well as for FAdV-8b. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
49. Culicoides species abundance and potential overwintering of African horse sickness virus in the Onderstepoort area, Gauteng, South Africa
- Author
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Venter, Gert J., Labuschagne, Karien, Majatladi, Daphney, Boikanyo, Solomon N.B., Lourens, Carina, Ebersohn, Karen, and Venter, Estelle H.
- Abstract
In South Africa, outbreaks of African horse sickness (AHS) occur in summer; no cases are reported in winter, from July to September. The AHS virus (AHSV) is transmitted almost exclusively by Culicoides midges (Diptera: Ceratopogonidae), of which Culicoides imicola is considered to be the most important vector. The over-wintering mechanism of AHSV is unknown. In this study, more than 500 000 Culicoides midges belonging to at least 26 species were collected in 88 light traps at weekly intervals between July 2010 and September 2011 near horses in the Onderstepoort area of South Africa. The dominant species was C. imicola. Despite relatively low temperatures and frost, at least 17 species, including C. imicola, were collected throughout winter (June–August). Although the mean number of midges per night fell from > 50 000 (March) to < 100 (July and August), no midge-free periods were found. This study, using virus isolation on cell cultures and a reverse transcriptase polymerase chain reaction (RT-PCR) assay, confirmed low infection prevalence in field midges and that the detection of virus correlated to high numbers. Although no virus was detected during this winter period, continuous adult activity indicated that transmission can potentially occur. The absence of AHSV in the midges during winter can be ascribed to the relatively low numbers collected coupled to low infection prevalence, low virus replication rates and low virus titres in the potentially infected midges. Cases of AHS in susceptible animals are likely to start as soon as Culicoides populations reach a critical level. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
50. Molecular differentiation and pathogenicity of Aviadenoviruses isolated during an outbreak of inclusion body hepatitis in South Africa.
- Author
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Joubert, Hilda W., Aitchison, Henry, Maartens, Louis H., and Venter, Estelle H.
- Abstract
Fowl adenovirus (FAdV) is a member of the genus Aviadenovirus and causes a number of economically important poultry diseases. One of these diseases, inclusion body hepatitis (IBH), has a worldwide distribution and is characterised by acute mortality (5% – 20%) in production chickens. The disease was first described in the United States of America in 1963 and has also been reported in Canada, the United Kingdom, Australia, France and Ireland, but until now, not in South Africa. Adenoviruses isolated from the first outbreak of IBH in South Africa were able to reproduce the disease in chicken embryo livers. The aim of the present study was to characterise the viruses and determine the pathogenicity of the FAdV strains responsible for the first reported case of IBH in South Africa. Polymerase chain reaction (PCR) amplification of the L1 loop region of the fowl adenovirus hexon gene using degenerate primer pair hexon A/B was used to identify the viruses that were isolated. Restriction fragment length polymorphism (RFLP) of the amplification products was used for the differentiation of 14 isolates of fowl adenovirus. Sequencing of the PCR products followed by amino acid comparison and phylogenetic analysis using the L1 loop region of the hexon protein was done to determine the identity of the isolates. Amino acid sequences of the hexon genes of all the South African isolates were compared with those of reference strains representing FAdV species. Amino acid comparison of 12 South Africa field isolates to FAdV reference strains revealed a high sequence identity (> 93.33%) with reference strains T8-A and 764. Two of the isolates had high sequence identity (93.40%) with reference strains P7-A, C2B and SR48. Phylogenetic analysis of the L1 loop region of the hexon protein of all 14 South African isolates was consistent with their RFLP clusters. The mortality rates of embryos challenged with 106 egg infective doses (EID50) FAdV 2 were 80% – 87% and mortality rates for embryos challenged with 105.95 (EID50) FAdV 8b were 65% – 80%. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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