Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions. / Olesen, Ann Sofie; Lohse, Louise; Accensi, Francesc; Goldswain, Hannah; Belsham, Graham J.; Bøtner, Anette; Netherton, Christopher L.; Dixon, Linda K.; Portugal, Raquel.

In: Transboundary and Emerging Diseases, Vol. 2024, 8863641, 2024.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Olesen, AS, Lohse, L, Accensi, F, Goldswain, H, Belsham, GJ, Bøtner, A, Netherton, CL, Dixon, LK & Portugal, R 2024, 'Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions', Transboundary and Emerging Diseases, vol. 2024, 8863641. https://doi.org/10.1155/2024/8863641

APA

Olesen, A. S., Lohse, L., Accensi, F., Goldswain, H., Belsham, G. J., Bøtner, A., Netherton, C. L., Dixon, L. K., & Portugal, R. (2024). Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions. Transboundary and Emerging Diseases, 2024, [8863641]. https://doi.org/10.1155/2024/8863641

Vancouver

Olesen AS, Lohse L, Accensi F, Goldswain H, Belsham GJ, Bøtner A et al. Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions. Transboundary and Emerging Diseases. 2024;2024. 8863641. https://doi.org/10.1155/2024/8863641

Author

Olesen, Ann Sofie ; Lohse, Louise ; Accensi, Francesc ; Goldswain, Hannah ; Belsham, Graham J. ; Bøtner, Anette ; Netherton, Christopher L. ; Dixon, Linda K. ; Portugal, Raquel. / Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions. In: Transboundary and Emerging Diseases. 2024 ; Vol. 2024.

Bibtex

@article{01b434d467e04dbe9cc1312d42555f66,
title = "Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions",
abstract = "Knowledge about African swine fever virus (ASFV) transmission and its survival in the environment is mandatory to develop rational control strategies and combat this serious disease in pigs. In this study, the risk that environmental contamination poses for infection of na{\"i}ve pigs was investigated. Na{\"i}ve pigs were introduced as sentinels into contaminated pens kept at ambient temperature (about 18–22˚C) either on the same day or up to 3 days after ASFV-infected pigs were removed. Three experiments were carried out in which four to six pigs per pen were inoculated with virulent ASFV isolates OURT88/1 (genotype I), Georgia 2007/1, or POL/2015/Podlaskie (genotype II), respectively. The majority of the inoculated pigs developed acute disease but with no evident haemorrhagic lesions or haemorrhagic diarrhoea and were culled at the predefined humane endpoint. The levels of ASFV DNA detected in the blood of the infected animals reached 107−9 genome copies/ml before euthanasia. Environmental swabs were taken from different surfaces in the animal rooms, as well as from faeces and urine, close to the time of introduction of the na{\"i}ve animals. Relatively low quantities of virus DNA were detected in the environmental samples, in the range of 103−7 genome copies per swab or per gram and ml of faeces and urine. No infectious virus was recovered from these environmental samples. Neither clinical signs nor virus genomes were detected in the blood of any of the sentinel pigs over a period of 2 to 3 weeks after exposure, indicating that transmission from the ASFV-contaminated environment did not occur. Interestingly, viral DNA was detected in nasal and oral swabs from some of the sentinel animals at early days of exposure (ranging between 103.7−5.8 genome copies per swab), though none of them developed ASF. The results indicate a relatively low risk of ASFV transmission from a contaminated environment under the conditions provided in these experimental studies and in the absence of bloodshed from infected animals.",
author = "Olesen, {Ann Sofie} and Louise Lohse and Francesc Accensi and Hannah Goldswain and Belsham, {Graham J.} and Anette B{\o}tner and Netherton, {Christopher L.} and Dixon, {Linda K.} and Raquel Portugal",
year = "2024",
doi = "10.1155/2024/8863641",
language = "English",
volume = "2024",
journal = "Transboundary and Emerging Diseases",
issn = "1865-1674",
publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Inefficient Transmission of African Swine Fever Virus to Sentinel Pigs from an Environment Contaminated by ASFV-Infected Pigs under Experimental Conditions

AU - Olesen, Ann Sofie

AU - Lohse, Louise

AU - Accensi, Francesc

AU - Goldswain, Hannah

AU - Belsham, Graham J.

AU - Bøtner, Anette

AU - Netherton, Christopher L.

AU - Dixon, Linda K.

AU - Portugal, Raquel

PY - 2024

Y1 - 2024

N2 - Knowledge about African swine fever virus (ASFV) transmission and its survival in the environment is mandatory to develop rational control strategies and combat this serious disease in pigs. In this study, the risk that environmental contamination poses for infection of naïve pigs was investigated. Naïve pigs were introduced as sentinels into contaminated pens kept at ambient temperature (about 18–22˚C) either on the same day or up to 3 days after ASFV-infected pigs were removed. Three experiments were carried out in which four to six pigs per pen were inoculated with virulent ASFV isolates OURT88/1 (genotype I), Georgia 2007/1, or POL/2015/Podlaskie (genotype II), respectively. The majority of the inoculated pigs developed acute disease but with no evident haemorrhagic lesions or haemorrhagic diarrhoea and were culled at the predefined humane endpoint. The levels of ASFV DNA detected in the blood of the infected animals reached 107−9 genome copies/ml before euthanasia. Environmental swabs were taken from different surfaces in the animal rooms, as well as from faeces and urine, close to the time of introduction of the naïve animals. Relatively low quantities of virus DNA were detected in the environmental samples, in the range of 103−7 genome copies per swab or per gram and ml of faeces and urine. No infectious virus was recovered from these environmental samples. Neither clinical signs nor virus genomes were detected in the blood of any of the sentinel pigs over a period of 2 to 3 weeks after exposure, indicating that transmission from the ASFV-contaminated environment did not occur. Interestingly, viral DNA was detected in nasal and oral swabs from some of the sentinel animals at early days of exposure (ranging between 103.7−5.8 genome copies per swab), though none of them developed ASF. The results indicate a relatively low risk of ASFV transmission from a contaminated environment under the conditions provided in these experimental studies and in the absence of bloodshed from infected animals.

AB - Knowledge about African swine fever virus (ASFV) transmission and its survival in the environment is mandatory to develop rational control strategies and combat this serious disease in pigs. In this study, the risk that environmental contamination poses for infection of naïve pigs was investigated. Naïve pigs were introduced as sentinels into contaminated pens kept at ambient temperature (about 18–22˚C) either on the same day or up to 3 days after ASFV-infected pigs were removed. Three experiments were carried out in which four to six pigs per pen were inoculated with virulent ASFV isolates OURT88/1 (genotype I), Georgia 2007/1, or POL/2015/Podlaskie (genotype II), respectively. The majority of the inoculated pigs developed acute disease but with no evident haemorrhagic lesions or haemorrhagic diarrhoea and were culled at the predefined humane endpoint. The levels of ASFV DNA detected in the blood of the infected animals reached 107−9 genome copies/ml before euthanasia. Environmental swabs were taken from different surfaces in the animal rooms, as well as from faeces and urine, close to the time of introduction of the naïve animals. Relatively low quantities of virus DNA were detected in the environmental samples, in the range of 103−7 genome copies per swab or per gram and ml of faeces and urine. No infectious virus was recovered from these environmental samples. Neither clinical signs nor virus genomes were detected in the blood of any of the sentinel pigs over a period of 2 to 3 weeks after exposure, indicating that transmission from the ASFV-contaminated environment did not occur. Interestingly, viral DNA was detected in nasal and oral swabs from some of the sentinel animals at early days of exposure (ranging between 103.7−5.8 genome copies per swab), though none of them developed ASF. The results indicate a relatively low risk of ASFV transmission from a contaminated environment under the conditions provided in these experimental studies and in the absence of bloodshed from infected animals.

U2 - 10.1155/2024/8863641

DO - 10.1155/2024/8863641

M3 - Journal article

VL - 2024

JO - Transboundary and Emerging Diseases

JF - Transboundary and Emerging Diseases

SN - 1865-1674

M1 - 8863641

ER -

ID: 381230952