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Shedding of Viral Haemorrhagic Septicaemia Virus (VHSV) from Rainbow Trout, Oncorhynchus mykiss, and Quantification in Waste from Processing Preclinical Fish
Viral haemorrhagic septicaemia virus (VHSV) is a fish disease notifiable to the World Organisation for Animal Health. The United Kingdom is currently free from VHSV, and the introduction and onward spread of this disease could cause major economic losses in aquaculture facilities. Legislation in Gre...
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| Published in: | Transboundary and emerging diseases 2023-09, Vol.2023, p.1-12 |
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| creator | Joiner, Claire Teixeira Alves, Mickael Oidtmann, Birgit |
| description | Viral haemorrhagic septicaemia virus (VHSV) is a fish disease notifiable to the World Organisation for Animal Health. The United Kingdom is currently free from VHSV, and the introduction and onward spread of this disease could cause major economic losses in aquaculture facilities. Legislation in Great Britain requires that imports of live fish for aquaculture purposes into declared disease-free areas are of equivalent disease-free status. However, conditions on fish products are less stringent, whereby eviscerated fish or fillets can be transported from areas with disease to areas declared disease-free. Market-size rainbow trout were experimentally infected with VHSV to investigate two important factors relevant for pathogen introduction and transmission: (1) VHSV shedding, quantified by daily assessment of viral titres in tank water samples, and (2) VHSV concentrations in liquid and solid processing waste. Evisceration and filleting preclinical fish, maceration, and wastewater separation processes within a facility were mimicked, and VHSV was quantified in each fraction of the wastewater. Shedding was detected 25 hr post-challenge. Levels increased daily to peak on day 5 post-challenge, with a calculated average titre of 1.35 × 103 TCID50 mL−1 kg−1 fish, 1 day before clinical signs of disease. Preclinical fish contained virus levels in their kidney, skin, and muscle >107 TCID50 g−1. The fish had significantly higher levels in the kidney, and evisceration led to higher VHSV concentrations in the waste compared to filleting. However, there was no significant difference in levels in wastewater released from the two processes after the removal of solids, even when macerated; average titres were >104 TCID50 mL−1. The quantities of VHSV from shedding and processing can be utilised when modelling transmission and undertaking more accurate risk assessments for imports and processing of commodities, with the ultimate aim of reducing the global risk of disease from international trade and processing. |
| doi_str_mv | 10.1155/2023/5534720 |
| format | article |
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The United Kingdom is currently free from VHSV, and the introduction and onward spread of this disease could cause major economic losses in aquaculture facilities. Legislation in Great Britain requires that imports of live fish for aquaculture purposes into declared disease-free areas are of equivalent disease-free status. However, conditions on fish products are less stringent, whereby eviscerated fish or fillets can be transported from areas with disease to areas declared disease-free. Market-size rainbow trout were experimentally infected with VHSV to investigate two important factors relevant for pathogen introduction and transmission: (1) VHSV shedding, quantified by daily assessment of viral titres in tank water samples, and (2) VHSV concentrations in liquid and solid processing waste. Evisceration and filleting preclinical fish, maceration, and wastewater separation processes within a facility were mimicked, and VHSV was quantified in each fraction of the wastewater. Shedding was detected 25 hr post-challenge. Levels increased daily to peak on day 5 post-challenge, with a calculated average titre of 1.35 × 103 TCID50 mL−1 kg−1 fish, 1 day before clinical signs of disease. Preclinical fish contained virus levels in their kidney, skin, and muscle >107 TCID50 g−1. The fish had significantly higher levels in the kidney, and evisceration led to higher VHSV concentrations in the waste compared to filleting. However, there was no significant difference in levels in wastewater released from the two processes after the removal of solids, even when macerated; average titres were >104 TCID50 mL−1. The quantities of VHSV from shedding and processing can be utilised when modelling transmission and undertaking more accurate risk assessments for imports and processing of commodities, with the ultimate aim of reducing the global risk of disease from international trade and processing.</description><identifier>ISSN: 1865-1674</identifier><identifier>EISSN: 1865-1682</identifier><identifier>DOI: 10.1155/2023/5534720</identifier><language>eng</language><publisher>Berlin: Hindawi</publisher><subject>Animal health ; Animals ; Aquaculture ; Aquaculture facilities ; Crustaceans ; Disease transmission ; Economic impact ; Epidemics ; Filleting ; Fish ; Fish diseases ; Fisheries ; Fishery products ; Fishing ; Health risks ; Hemorrhage ; Hemorrhagic septicemia ; Imports ; International trade ; Kidneys ; Legislation ; Oncorhynchus mykiss ; Pathogens ; Regulation ; Risk assessment ; Salmon ; Separation processes ; Shedding ; Trout ; Viruses ; Wastewater ; Water analysis ; Water sampling</subject><ispartof>Transboundary and emerging diseases, 2023-09, Vol.2023, p.1-12</ispartof><rights>Copyright © 2023 Claire Joiner et al.</rights><rights>Copyright © 2023 Claire Joiner et al. 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The United Kingdom is currently free from VHSV, and the introduction and onward spread of this disease could cause major economic losses in aquaculture facilities. Legislation in Great Britain requires that imports of live fish for aquaculture purposes into declared disease-free areas are of equivalent disease-free status. However, conditions on fish products are less stringent, whereby eviscerated fish or fillets can be transported from areas with disease to areas declared disease-free. Market-size rainbow trout were experimentally infected with VHSV to investigate two important factors relevant for pathogen introduction and transmission: (1) VHSV shedding, quantified by daily assessment of viral titres in tank water samples, and (2) VHSV concentrations in liquid and solid processing waste. Evisceration and filleting preclinical fish, maceration, and wastewater separation processes within a facility were mimicked, and VHSV was quantified in each fraction of the wastewater. Shedding was detected 25 hr post-challenge. Levels increased daily to peak on day 5 post-challenge, with a calculated average titre of 1.35 × 103 TCID50 mL−1 kg−1 fish, 1 day before clinical signs of disease. Preclinical fish contained virus levels in their kidney, skin, and muscle >107 TCID50 g−1. The fish had significantly higher levels in the kidney, and evisceration led to higher VHSV concentrations in the waste compared to filleting. However, there was no significant difference in levels in wastewater released from the two processes after the removal of solids, even when macerated; average titres were >104 TCID50 mL−1. 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The United Kingdom is currently free from VHSV, and the introduction and onward spread of this disease could cause major economic losses in aquaculture facilities. Legislation in Great Britain requires that imports of live fish for aquaculture purposes into declared disease-free areas are of equivalent disease-free status. However, conditions on fish products are less stringent, whereby eviscerated fish or fillets can be transported from areas with disease to areas declared disease-free. Market-size rainbow trout were experimentally infected with VHSV to investigate two important factors relevant for pathogen introduction and transmission: (1) VHSV shedding, quantified by daily assessment of viral titres in tank water samples, and (2) VHSV concentrations in liquid and solid processing waste. Evisceration and filleting preclinical fish, maceration, and wastewater separation processes within a facility were mimicked, and VHSV was quantified in each fraction of the wastewater. Shedding was detected 25 hr post-challenge. Levels increased daily to peak on day 5 post-challenge, with a calculated average titre of 1.35 × 103 TCID50 mL−1 kg−1 fish, 1 day before clinical signs of disease. Preclinical fish contained virus levels in their kidney, skin, and muscle >107 TCID50 g−1. The fish had significantly higher levels in the kidney, and evisceration led to higher VHSV concentrations in the waste compared to filleting. However, there was no significant difference in levels in wastewater released from the two processes after the removal of solids, even when macerated; average titres were >104 TCID50 mL−1. The quantities of VHSV from shedding and processing can be utilised when modelling transmission and undertaking more accurate risk assessments for imports and processing of commodities, with the ultimate aim of reducing the global risk of disease from international trade and processing.</abstract><cop>Berlin</cop><pub>Hindawi</pub><doi>10.1155/2023/5534720</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-8022-9937</orcidid><orcidid>https://orcid.org/0000-0003-0795-7369</orcidid><oa>free_for_read</oa></addata></record> |
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| source | Publicly Available Content Database; Wiley Open Access |
| subjects | Animal health Animals Aquaculture Aquaculture facilities Crustaceans Disease transmission Economic impact Epidemics Filleting Fish Fish diseases Fisheries Fishery products Fishing Health risks Hemorrhage Hemorrhagic septicemia Imports International trade Kidneys Legislation Oncorhynchus mykiss Pathogens Regulation Risk assessment Salmon Separation processes Shedding Trout Viruses Wastewater Water analysis Water sampling |
| title | Shedding of Viral Haemorrhagic Septicaemia Virus (VHSV) from Rainbow Trout, Oncorhynchus mykiss, and Quantification in Waste from Processing Preclinical Fish |
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