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3. Differential somatic cell count as an additional indicator for intramammary infections in dairy cows

Author

Kirkeby, Carsten Thure, Toft, Nils, Schwarz, D., Farre, M., Nielsen, S S, Zervens, Lisa Marie-Louise, Hechinger, S., Halasa, Tariq Hisham Beshara, Kirkeby, Carsten Thure, Toft, Nils, Schwarz, D., Farre, M., Nielsen, S S, Zervens, Lisa Marie-Louise, Hechinger, S., and Halasa, Tariq Hisham Beshara

Abstract

Mastitis, often caused by intramammary infection (IMI), is a significant problem in dairy farming globally. Somatic cell count (SCC) is widely used as a parameter for screening IMI in cows that are then treated or culled. We investigated the potential of a new parameter, differential SCC (DSCC), to detect IMI at cow level when SCC is already known. We achieved this using bacterial culture (BC) and PCR to detect 4 categories of pathogens (major, minor, other, and any) in 2 Danish dairy herds. Quarter milk samples were collected from monthly dairy herd improvement samplings over 1 yr and analyzed with BC, whereas cow-level dairy herd improvement samples were analyzed using PCR. Days in milk, parity, and IMI status had a significant effect on DSCC. Using DSCC in addition to SCC significantly improved the indication of IMI compared with using only SCC in the any pathogen category in both herds as well as the minor pathogens category in herd 2 when BC was used for detection. When PCR was used to detect IMI, the use of DSCC in addition to SCC was significant for the other pathogens category in herd 1 and the minor pathogens category in herd 2. Thus, our data revealed that DSCC can add significant information describing IMI status even when SCC is already known; however, this depends on the causative pathogen. Future studies may address how to use DSCC in practice as well as consider the availability of temporal data to potentially gain insight into the course of infection.

Published
2020

5. Transmission dynamics of Staphylococcus aureus within two Danish dairy cattle herds

Author

Kirkeby, C., Zervens, L., Toft, N., Schwarz, D., Farre, Michael, Hechinger, S., Halasa, T., Kirkeby, C., Zervens, L., Toft, N., Schwarz, D., Farre, Michael, Hechinger, S., and Halasa, T.

Abstract

Staphylococcus aureus is a major pathogen causing intramammary infections (IMI) in dairy cattle herds worldwide. Simulation models can be used to investigate the epidemiologic and economic outcomes of different control strategies against IMI. The transmission rate parameter is one of the most influential parameters on the outcomes of these simulation models. Very few studies have estimated the transmission rate parameter and investigated the transmission dynamics of Staph. aureus IMI in dairy cattle herds. The objective of our study was therefore to analyze the transmission dynamics of Staph. aureus in 2 Danish dairy herds participating in a longitudinal study. The 2 herds had 180 and 360 milking cows, and animals were tested at quarter level once per month over a period of 1 yr. We estimated the quarter-level prevalence to be 34% for herd 1 and 2.57% for herd 2. The daily quarter-level transmission rate was estimated to be 0.0132 and 0.0077 cases/quarter-day for herds 1 and 2, respectively, and the median duration of infection was estimated to be 91 and 64 d for herds 1 and 2, respectively. We also estimated the reproductive ratio at 1.21 for herd 1 and 0.52 for herd 2. The results can provide valuable information for simulation models to aid decision-making in terms of the prevention and control of Staph. aureus IMI in dairy cattle herds.

Published
2019

6. Composite or aseptic quarter milk samples:Sensitivity and specificity of PCR and bacterial culture of Staphylococcus aureus based on Bayesian latent class evaluation

Author

Toft, N., Halasa, T., Nielsen, S. S., Hechinger, S., Zervens, L. M., Schwarz, D., Kirkeby, C., Toft, N., Halasa, T., Nielsen, S. S., Hechinger, S., Zervens, L. M., Schwarz, D., and Kirkeby, C.

Abstract

Bacterial culture (BC) and quantitative polymerase chain reaction (qPCR) are widely used as diagnostic tests for pathogens causing intra-mammary infections (IMI) and it is therefore important to evaluate their performance to optimize pathogen detection. However, with no reference standard, their sensitivity (Se) and specificity (Sp) are unknown. Furthermore, the Se and Sp can differ between quarter samples and composite samples, both of which can be used to test for IMI. Latent class analysis (LCA) offers a method for estimating the Se and Sp of two tests on the same population, but to our knowledge this has not yet been applied to qPCR and BC for the detection of Staph. aureus in both composite and aseptically collected quarter milk samples. This allows for a performance evaluation of not only the two diagnostic methods, but also the two different samples –both cow and quarter level. In this study, we used Bayesian LCA on a dataset from one sampling day at a Danish dairy herd to estimate the Se and Sp for detecting Staph. aureus at cow and quarter level. We used Ct cut-offs of 32 and 37 cycles for the qPCR. When using a cut-off of 37 cycles, the estimated Se and Sp for BC were 62.2% and 90.5% at cow level, and 90.7% and 93.5% at quarter level, respectively. Similarly, the estimated Se and Sp for qPCR at cow level were 82.7% and 84.1%, respectively, and 80.0% and 96.8% at quarter level. Sp was therefore higher for both BC and qPCR at quarter level. Se was also highest for BC at quarter level, but the opposite was true for qPCR. The same pattern was found using a Ct cut-off at 32 cycles, but with different estimates. The results show that qPCR with a Ct cut-off at 37 had a higher Se than BC for composite DHI samples and it is therefore more suitable as a routine screening test for Staph. aureus. However, BC on quarter samples gave the highest Se and Sp and should therefore be used for confirmatory testing.

Published
2019

7. Transmission dynamics of Staphylococcus aureus within two Danish dairy cattle herds

Author

Kirkeby, Carsten Thure, Zervens, Lisa Marie-Louise, Toft, N., Schwarz, D, Farre, M, Hechinger, S, Halasa, Tariq Hisham Beshara, Kirkeby, Carsten Thure, Zervens, Lisa Marie-Louise, Toft, N., Schwarz, D, Farre, M, Hechinger, S, and Halasa, Tariq Hisham Beshara

Abstract

Staphylococcus aureus is a major pathogen causing intramammary infections (IMI) in dairy cattle herds worldwide. Simulation models can be used to investigate the epidemiologic and economic outcomes of different control strategies against IMI. The transmission rate parameter is one of the most influential parameters on the outcomes of these simulation models. Very few studies have estimated the transmission rate parameter and investigated the transmission dynamics of Staph. aureus IMI in dairy cattle herds. The objective of our study was therefore to analyze the transmission dynamics of Staph. aureus in 2 Danish dairy herds participating in a longitudinal study. The 2 herds had 180 and 360 milking cows, and animals were tested at quarter level once per month over a period of 1 yr. We estimated the quarter-level prevalence to be 34% for herd 1 and 2.57% for herd 2. The daily quarter-level transmission rate was estimated to be 0.0132 and 0.0077 cases/quarter-day for herds 1 and 2, respectively, and the median duration of infection was estimated to be 91 and 64 d for herds 1 and 2, respectively. We also estimated the reproductive ratio at 1.21 for herd 1 and 0.52 for herd 2. The results can provide valuable information for simulation models to aid decision-making in terms of the prevention and control of Staph. aureus IMI in dairy cattle herds.

Published
2019

11. Cornea Donation in Organ Donors

Author

Rennesson, C., primary, Moretti, D., additional, Arnaud, E., additional, Brousoz, S., additional, Flatres, S., additional, Freitas, C., additional, Hechinger, S., additional, Simon, J., additional, and Gasche, Y., additional

Published
2017
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14. Serological screening in wild ruminants in Germany, 2021/2022: No evidence of SARS-CoV-2, bluetongue virus or pestivirus spread but high seroprevalences against Schmallenberg virus.

Author

Wernike K, Fischer L, Holsteg M, Aebischer A, Petrov A, Marquart K, Schotte U, Schön J, Hoffmann D, Hechinger S, Neubauer-Juric A, Blicke J, Mettenleiter TC, and Beer M

Subjects
Animals, Animals, Wild, Antibodies, Viral, Humans, Ruminants, SARS-CoV-2, Seroepidemiologic Studies, Sheep, Sheep, Domestic, Bison, Bluetongue, Bluetongue virus, COVID-19 epidemiology, COVID-19 veterinary, Deer, Pestivirus, Sheep Diseases
Abstract

Wildlife animals may be susceptible to multiple infectious agents of public health or veterinary relevance, thereby potentially forming a reservoir that bears the constant risk of re-introduction into the human or livestock population. Here, we serologically investigated 493 wild ruminant samples collected in the 2021/2022 hunting season in Germany for the presence of antibodies against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and four viruses pathogenic to domestic ruminants, namely, the orthobunyavirus Schmallenberg virus (SBV), the reovirus bluetongue virus (BTV) and ruminant pestiviruses like bovine viral diarrhoea virus or border disease virus. The animal species comprised fallow deer, red deer, roe deer, mouflon and wisent. For coronavirus serology, additional 307 fallow, roe and red deer samples collected between 2017 and 2020 at three military training areas were included. While antibodies against SBV could be detected in about 13.6% of the samples collected in 2021/2022, only one fallow deer of unknown age tested positive for anti-BTV antibodies, and all samples reacted negative for antibodies against ruminant pestiviruses. In an ELISA based on the receptor-binding domain (RBD) of SARS-CoV-2, 25 out of 493 (5.1%) samples collected in autumn and winter 2021/2022 scored positive. This sero-reactivity could not be confirmed by the highly specific virus neutralisation test, occurred also in 2017, 2018 and 2019, that is, prior to the human SARS-CoV-2 pandemic, and was likewise observed against the RBD of the related SARS-CoV-1. Therefore, the SARS-CoV-2 sero-reactivity was most likely induced by another hitherto unknown deer virus belonging to the subgenus Sarbecovirus of betacoronaviruses., (© 2022 The Authors. Transboundary and Emerging Diseases published by Wiley-VCH GmbH.)

Published
2022
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15. High genetic variability of Schmallenberg virus M-segment leads to efficient immune escape from neutralizing antibodies.

Author

Wernike K, Reimann I, Banyard AC, Kraatz F, La Rocca SA, Hoffmann B, McGowan S, Hechinger S, Choudhury B, Aebischer A, Steinbach F, and Beer M

Subjects
Animals, Antibodies, Neutralizing immunology, Bunyaviridae Infections virology, Cattle, Female, Fetus, Glycoproteins genetics, Glycoproteins immunology, Mutation, Orthobunyavirus immunology, Orthobunyavirus physiology, RNA, Viral genetics, Sequence Deletion, Sheep, Viral Envelope Proteins immunology, Virus Replication, Antibodies, Viral immunology, Bunyaviridae Infections veterinary, Cattle Diseases virology, Genetic Variation, Orthobunyavirus genetics, Sheep Diseases virology, Viral Envelope Proteins genetics
Abstract

Schmallenberg virus (SBV) is the cause of severe fetal malformations when immunologically naïve pregnant ruminants are infected. In those malformed fetuses, a "hot-spot"-region of high genetic variability within the N-terminal region of the viral envelope protein Gc has been observed previously, and this region co-localizes with a known key immunogenic domain. We studied a series of M-segments of those SBV variants from malformed fetuses with point mutations, insertions or large in-frame deletions of up to 612 nucleotides. Furthermore, a unique cell-culture isolate from a malformed fetus with large in-frame deletions within the M-segment was analyzed. Each Gc-protein with amino acid deletions within the "hot spot" of mutations failed to react with any neutralizing anti-SBV monoclonal antibodies or a domain specific antiserum. In addition, in vitro virus replication of the natural deletion variant could not be markedly reduced by neutralizing monoclonal antibodies or antisera from the field. The large-deletion variant of SBV that could be isolated in cell culture was highly attenuated with an impaired in vivo replication following the inoculation of sheep. In conclusion, the observed amino acid sequence mutations within the N-terminal main immunogenic domain of glycoprotein Gc result in an efficient immune evasion from neutralizing antibodies in the special environment of a developing fetus. These SBV-variants were never detected as circulating viruses, and therefore should be considered to be dead-end virus variants, which are not able to spread further. The observations described here may be transferred to other orthobunyaviruses, particularly those of the Simbu serogroup that have been shown to infect fetuses. Importantly, such mutant strains should not be included in attempts to trace the spatial-temporal evolution of orthobunyaviruses in molecular-epidemiolocal approaches during outbreak investigations., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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16. Chronic wasting associated with Chlamydia pneumoniae in three ex situ breeding facilities for tropical frogs.

Author

Eisenberg T, Fawzy A, Kaim U, Nesseler A, Riße K, Völker I, Hechinger S, Schauerte N, Geiger C, Knauf-Witzens T, Schwabe I, Schnee C, Liebler-Tenorio E, Imirzalioglu C, and Sting R

Subjects
Humans, Chlamydia, Chlamydia Infections, Chlamydophila pneumoniae
Abstract

A number of different Chlamydia spp. have been detected in the class Amphibia with C. pneumoniae being the predominant species involved. Chlamydiae have been linked to mass mortality events, thereby representing significant pathogens that deserve attention with respect to worldwide amphibian decline. We here present six cases of chlamydiosis and asymptomatic chlamydial infections in different frog species from three ex situ amphibian conservation facilities. Clinical signs predominantly characterised by regurgitation, chronic wasting, lethargy and suspended breeding were associated with C. pneumoniae infection. Despite various treatment regimens, it was not possible to clear infections. However, intra vitam diagnostics succeeded from skin, faeces and urine for the first time.

Published
2020
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17. Expanding the host range: infection of a reptilian host (Furcifer pardalis) by an atypical Brucella strain.

Author

Eisenberg T, Schlez K, Fawzy A, Völker I, Hechinger S, Curić M, Schauerte N, Geiger C, Blom J, and Scholz HC

Subjects
Animals, Female, Genome, Bacterial, Genomics methods, Molecular Typing, Phylogeny, Brucella classification, Brucella physiology, Host Specificity, Lizards microbiology
Abstract

Atypical brucellae show deviant phenotypes and/or genotypes. Besides Brucella inopinata, B. microti and B. vulpis, atypical strains have been described infecting humans, rodents, amphibians and fish. They represent potential zoonotic agents. Here, we provide evidence that reptiles as the remaining poikilothermic vertebrate class also represent susceptible hosts for atypical Brucella.

Published
2020
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18. Fetal infection with Schmallenberg virus - An experimental pathogenesis study in pregnant cows.

Author

König P, Wernike K, Hechinger S, Tauscher K, Breithaupt A, and Beer M

Subjects
Aborted Fetus virology, Abortion, Veterinary virology, Animals, Bunyaviridae Infections transmission, Bunyaviridae Infections virology, Cattle, Cattle Diseases virology, Disease Outbreaks, Female, Fetus virology, Pregnancy, Pregnancy Complications, Infectious virology, Pregnancy, Animal, Ruminants, Bunyaviridae Infections veterinary, Cattle Diseases transmission, Infectious Disease Transmission, Vertical veterinary, Orthobunyavirus pathogenicity, Pregnancy Complications, Infectious veterinary
Abstract

Since its first appearance in 2011, Schmallenberg virus (SBV) has been repeatedly detected in aborted ruminant foetuses or severely malformed newborns whose mothers were naturally infected during pregnancy. However, especially the knowledge about dynamics of foetal infection in cattle is still scarce. Therefore, a total of 36 pregnant heifers were experimentally infected during two animal trials with SBV between days 60 and 150 of gestation. The foetuses were collected between 10 and 35 days after infection and virologically and pathologically investigated. Overall, 33 heifers yielded normally developed, macroscopically inconspicuous foetuses, but abundant virus replication was evident at the maternal/foetal interface and viral genome was detectable in at least one organ system of 18 out of 35 foetuses. One heifer was found to be not pregnant at autopsy. One of the animals aborted at day 4 after infection, viral RNA was detectable in the lymphatic tissue of the dam, in the maternal and foetal placenta, and in organs and lymphatic tissue of the foetus. In another foetus, SBV typical malformations like torticollis and arthrogryposis were observed. The corresponding dam was infected at day 90 of pregnancy and viral genome was detectable in the cerebellum of the unborn. Interestingly, no common patterns of infected foetal organs or maternal/foetal placentas could be identified, and both, sites of virus replication and genome loads, varied to a high degree in the individual foetuses. It is therefore concluded, that SBV infects in many cases also the bovine foetus of naïve pregnant cattle, however, the experimentally observed low abortion/malformation rate is in concordance to the reported low rates in the field during the first outbreak wave following the introduction of SBV. This observation speaks for a natural resistance of most bovine foetuses even during the vulnerable phase of early pregnancy, which has to be further studied in the future., (© 2018 Blackwell Verlag GmbH.)

Published
2019
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19. Detection of canine adenovirus 1 in red foxes ( Vulpes vulpes) and raccoons ( Procyon lotor) in Germany with a TaqMan real-time PCR assay.

Author

Hechinger S, Scheffold S, Hamann HP, and Zschöck M

Subjects
Adenoviruses, Canine genetics, Animals, Animals, Wild, Germany, Adenoviruses, Canine isolation & purification, Foxes virology, Raccoons virology, Real-Time Polymerase Chain Reaction veterinary
Abstract

We developed a real-time (rt)PCR assay based on TaqMan probe technology for the specific detection of canine adenovirus 1 (CAdV-1). The assay is able to detect three 50% tissue culture infectious dose/mL in CAdV-1-containing cell culture supernatant. Viral genomes were not amplified of canine adenovirus 2 or of several bovine, porcine, and avian adenoviruses. In silico analysis provided no indication of amplification of other heterologous genomes. The sensitivity of the real-time assay exceeded that of a conventional gel-based CAdV-1 PCR by a factor of 100. Following the integration of the novel PCR into the Hessian wildlife-monitoring program, CAdV-1 DNA was detected in none of the tested raccoons ( n = 48) but in 11 of 97 foxes.

Published
2017
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20. Sheep and goats as indicator animals for the circulation of CCHFV in the environment.

Author

Schuster I, Mertens M, Mrenoshki S, Staubach C, Mertens C, Brüning F, Wernike K, Hechinger S, Berxholi K, Mitrov D, and Groschup MH

Subjects
Animals, Antibodies, Viral analysis, Environment, Enzyme-Linked Immunosorbent Assay methods, Enzyme-Linked Immunosorbent Assay veterinary, Epidemiological Monitoring, Fluorescent Antibody Technique veterinary, Hemorrhagic Fever, Crimean epidemiology, Hemorrhagic Fever, Crimean veterinary, Seroepidemiologic Studies, Cattle virology, Goats virology, Hemorrhagic Fever Virus, Crimean-Congo isolation & purification, Sheep virology
Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV) is a tick-borne virus, which causes a serious illness with case-fatality rates of up to 80% in humans. CCHFV is endemic in many countries of Africa, Asia and Southeastern Europe. Next to the countries with endemic areas, the distribution of CCHFV is unknown in Southeastern Europe. As the antibody prevalence in animals is a good indicator for the presence or absence of the virus in a region, seroepidemiological studies can be used for the definition of risk areas for CCHFV. The aim of the present study was to reveal which ruminant species is best suited as indicator for the detection of a CCHFV circulation in an area. Therefore, the prevalence rates in sheep, goats and cattle in different regions of Albania and Former Yugoslav Republic of Macedonia were investigated. As there are no commercial tests available for the detection of CCHFV-specific antibodies in animals, two commercial tests for testing human sera were adapted for the investigation of sera from sheep and goats, and new in-house ELISAs were developed. The investigation of serum samples with these highly sensitive and specific assays (94-100%) resulted in an overall prevalence rate of 23% for Albania and of 49% for Former Yugoslav Republic of Macedonia. Significant lower seroprevalence rates for CCHFV were found in cattle than in small ruminants in given areas. These results indicate that small ruminants are more suitable indicator animals for CCHFV infections and should therefore be tested preferentially, when risk areas are to be identified.

Published
2016
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21. Deletion mutants of Schmallenberg virus are avirulent and protect from virus challenge.

Author

Kraatz F, Wernike K, Hechinger S, König P, Granzow H, Reimann I, and Beer M

Subjects
Animals, Bunyaviridae Infections immunology, Bunyaviridae Infections prevention & control, Cattle, Cattle Diseases immunology, Female, Male, Mice, Inbred C57BL, Mice, Knockout, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated genetics, Vaccines, Attenuated immunology, Vaccines, Attenuated isolation & purification, Viral Vaccines administration & dosage, Viral Vaccines genetics, Viral Vaccines isolation & purification, Bunyaviridae Infections veterinary, Cattle Diseases prevention & control, Orthobunyavirus genetics, Orthobunyavirus immunology, Sequence Deletion, Viral Nonstructural Proteins genetics, Viral Vaccines immunology
Abstract

Unlabelled: Since its emergence, Schmallenberg virus (SBV), a novel insect-transmitted orthobunyavirus which predominantly infects ruminants, has caused a large epidemic in European livestock. Newly developed inactivated vaccines are available, but highly efficacious and safe live vaccines are still not available. Here, the properties of novel recombinant SBV mutants lacking the nonstructural protein NSs (rSBVΔNSs) or NSm (rSBVΔNSm) or both of these proteins (rSBVΔNSs/ΔNSm) were tested in vitro and in vivo in type I interferon receptor knockout mice (IFNAR(-/-)) and in a vaccination/challenge trial in cattle. As for other bunyaviruses, both nonstructural proteins of SBV are not essential for viral growth in vitro. In interferon-defective BHK-21 cells, rSBVΔNSs and rSBVΔNSm replicated to levels comparable to that of the parental rSBV; the double mutant virus, however, showed a mild growth defect, resulting in lower final virus titers. Additionally, both mutants with an NSs deletion induced high levels of interferon and showed a marked growth defect in interferon-competent sheep SFT-R cells. Nevertheless, in IFNAR(-/-) mice, all mutants were virulent, with the highest mortality rate for rSBVΔNSs and a reduced virulence for the NSm-deleted virus. In cattle, SBV lacking NSm caused viremia and seroconversion comparable to those caused by the wild-type virus, while the NSs and the combined NSs/NSm deletion mutant induced no detectable virus replication or clinical disease after immunization. Furthermore, three out of four cattle immunized once with the NSs deletion mutant and all animals vaccinated with the virus lacking both nonstructural proteins were fully protected against a challenge infection. Therefore, the double deletion mutant will provide the basis for further developments of safe and efficacious modified live SBV vaccines which could be also a model for other viruses of the Simbu serogroup and related orthobunyaviruses., Importance: SBV induces only mild clinical signs in adult ruminants but causes severe fetal malformation and, thereby, can have an important impact on animal welfare and production. As SBV is an insect-transmitted pathogen, vaccination will be one of the most important aspects of disease control. Here, mutant viruses lacking one or two proteins that essentially contribute to viral pathogenicity were tested as modified live vaccines in cattle. It could be demonstrated that a novel recombinant double deletion mutant is a safe and efficacious vaccine candidate. This is the first description of a putative modified live vaccine for the complete genus Orthobunyavirus, and in addition, such a vaccine type has never been tested in cattle for any virus of the entire family Bunyaviridae. Therefore, the described vaccine also represents the first model for a broad range of related viruses and is of high importance to the field., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published
2015
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22. Single immunization with an inactivated vaccine protects sheep from Schmallenberg virus infection.

Author

Hechinger S, Wernike K, and Beer M

Subjects
Animals, Bunyaviridae Infections prevention & control, Bunyaviridae Infections virology, Enzyme-Linked Immunosorbent Assay veterinary, Immunization Schedule, Real-Time Polymerase Chain Reaction veterinary, Reverse Transcriptase Polymerase Chain Reaction veterinary, Sheep, Sheep Diseases virology, Vaccination veterinary, Vaccines, Inactivated administration & dosage, Vaccines, Inactivated pharmacology, Viral Vaccines administration & dosage, Bunyaviridae Infections veterinary, Injections, Subcutaneous veterinary, Orthobunyavirus immunology, Sheep Diseases prevention & control, Viral Vaccines pharmacology
Abstract

The arthropod-borne Schmallenberg virus (SBV), family Orthobunyaviridae, emerged in Europe in 2011. SBV is associated with a mild disease in adult ruminants but fetal malformation after an infection during a critical phase of pregnancy. A number of inactivated vaccines have been developed; their efficacy after two injections was demonstrated. To make the vaccination of sheep more efficient and economic the effect of a single immunization with one of these vaccines was investigated in the present study. Five vaccinated sheep and five additional control sheep were inoculated with SBV three weeks after vaccination and the results of a competitive ELISA, a standard microneutralization test and an SBV-specific real-time RT-PCR confirmed vaccine efficacy by demonstrating complete inhibition of viral replication in immunized animals.

Published
2014
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23. Evaluating the protective efficacy of a trivalent vaccine containing Akabane virus, Aino virus and Chuzan virus against Schmallenberg virus infection.

Author

Hechinger S, Wernike K, and Beer M

Subjects
Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Bunyaviridae Infections immunology, Bunyaviridae Infections prevention & control, Cattle, Cattle Diseases immunology, Female, Injections, Intramuscular veterinary, Vaccines, Inactivated administration & dosage, Vaccines, Inactivated immunology, Viral Vaccines administration & dosage, Bunyaviridae Infections veterinary, Cattle Diseases prevention & control, Cross Protection, Orthobunyavirus immunology, Palyam Virus immunology, Viral Vaccines immunology
Abstract

Schmallenberg virus (SBV), an arthropod borne pathogen, spread rapidly throughout the majority of Europe since 2011. It can cause a febrile disease, milk drop, diarrhea, and fetal malformation in ruminants. SBV, a member of the Simbu serogroup within the genus Orthobunyavirus, is closely related to Akabane virus (AKAV) and Aino virus (AINOV) among others. In the present study, 4 Holstein-Friesian calves were immunized twice four weeks apart with a multivalent, inactivated vaccine against AKAV and AINOV. Another 4 calves were kept as unvaccinated controls. All animals were clinically, serologically and virologically examined before and after challenge infection with SBV. AKAV- and AINOV-specific neutralizing antibodies were detected one week before challenge infection, while SBV-specific antibodies were detectable only thereafter. SBV genome was detected in all vaccinated animals and 3 out of 4 controls in serum samples taken after challenge infection. In conclusion, the investigated vaccine was not able to prevent an SBV-infection. Thus, vaccines for other related Simbu serogroup viruses can not substitute SBV-specific vaccines as an instrument for disease control.

Published
2013
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24. Transmission of Schmallenberg virus during Winter, Germany.

Author

Wernike K, Kohn M, Conraths FJ, Werner D, Kameke D, Hechinger S, Kampen H, and Beer M

Subjects
Animals, Antibodies, Viral blood, Bunyaviridae Infections immunology, Bunyaviridae Infections transmission, Cattle, Ceratopogonidae virology, Female, Germany, Insect Vectors virology, Mice, Mice, Inbred C57BL, Mice, Knockout, Orthobunyavirus genetics, Seasons, Sheep, Sheep Diseases immunology, Sheep Diseases virology, Bunyaviridae Infections veterinary, Orthobunyavirus immunology, Sheep Diseases transmission
Published
2013
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25. Inactivated Schmallenberg virus prototype vaccines.

Author

Wernike K, Nikolin VM, Hechinger S, Hoffmann B, and Beer M

Subjects
Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Antibody Formation immunology, Bunyaviridae Infections prevention & control, Cattle, Cattle Diseases immunology, Cattle Diseases prevention & control, Female, Male, Sheep, Sheep Diseases immunology, Sheep Diseases prevention & control, Viral Vaccines immunology, Bunyaviridae Infections immunology, Orthobunyavirus immunology, RNA, Viral blood, Vaccination veterinary
Abstract

Schmallenberg virus (SBV), a novel Orthobunyavirus, is an insect-transmitted pathogen and was first described in Europe in 2011. SBV causes a mild transient disease in adult ruminants, but severe foetal malformation and stillbirth were observed after an infection of naive cows and ewes, which is responsible for considerable economic losses. The virus is now widely distributed in Europe, and no vaccines were available to stop transmission and spread. In the present study, 16 calves and 25 sheep, the major target species of SBV infection, were vaccinated twice 3 weeks apart with one of 5 newly developed, inactivated vaccine candidates. Six calves and 5 sheep were kept as unvaccinated controls. All animals were clinically, serologically and virologically examined before and after challenge infection. Immunisation with the inactivated preparations resulted in a neutralising antibody response three weeks after the second vaccination without any side effects. The number of animals that seroconverted in each group and the strength of the antibody response were dependent on the cell line used for virus growth and on the viral titre prior to inactivation. Four vaccine prototypes completely prevented RNAemia after challenge infection, a fifth candidate reduced RNAemia considerably. Although further evaluations e.g. regarding duration of immunity will be necessary, the newly developed vaccines are promising candidates for the prevention of SBV-infection and could be a valuable tool in SBV control strategies., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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