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3. Recommended reporting standards for test accuracy studies of infectious diseases of finfish, amphibians, molluscs and crustaceans: the STRADAS-aquatic checklist

Author

Gardner, IA, primary, Whittington, RJ, additional, Caraguel, CGB, additional, Hick, P, additional, Moody, NJG, additional, Corbeil, S, additional, Garver, KA, additional, Warg, JV, additional, Arzul, I, additional, Purcell, MK, additional, Crane, MSJ, additional, Waltzek, TB, additional, Olesen, NJ, additional, and Gallardo Lagno, A, additional

Published
2016
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14. Establishment and characterization of novel spontaneously immortalized larval cell lines from sablefish Anoplopoma fimbria.

Author

Friesen ER, Long AK, and Garver KA

Abstract

Sablefish Anoplopoma fimbria is a groundfish of the North Pacific Ocean typically found in sea floor habitat at depths to 2700 m. Prized as a food fish with exceptionally high market value, sablefish aquaculture has been sought to provide a sustainable source of this fish to meet market demands. While commercial culture has successfully produced market-sized fish in Pacific coastal environments, production has been hampered by disease and the overall lack of information on sablefish health and immunology. To begin to address these knowledge gaps, herein we describe the isolation and characterization of spontaneously immortalized sablefish larval cell lines (AFL). Six sublines were established from pools of early yolk-sac larvae, while attempts to develop tissue-specific-derived cell lines were unsuccessful. The six yolk-sac larval cell lines each display two morphologies in culture, an elongated fibroblast-like cell type, and a rounded squamous or epithelial-like cell type. Cytogenetic characterization suggests that both cell types are diploid (2n = 48) with 24 pairs of chromosomes, 23 pairs of autosomes, and 1 pair of sex chromosomes. A small proportion (11%) of AFL cells display tetraploidy. Incubation temperature and medium composition experiments revealed HEPES buffered L-15 media containing 10-20% FBS at temperatures between 15 and 18° C yielded optimal cell growth. These growth characteristics suggest that sablefish larval cells display a robustness for varying growth conditions. The establishment of AFL cell lines provides a foundational tool to study the physiology, health, immunology, and cell and molecular biology of sablefish., (© 2024. Crown.)

Published
2024
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15. Positive Leadership within Breast Imaging: Impact on Burnout, Intent to Leave, and Engagement.

Author

Young AM, Garver KA, and Gulani V

Subjects
Humans, Female, Prospective Studies, Surveys and Questionnaires, Radiology Department, Hospital organization & administration, Adult, Male, Job Satisfaction, Intention, Personnel Turnover statistics & numerical data, Workplace psychology, Middle Aged, Burnout, Professional psychology, Leadership
Abstract

Background High rates of provider burnout and turnover, as well as staffing shortages, are creating crises within radiology departments. Identifying ways to support health care workers, such as the Positively Energizing Leadership program, is important during these ongoing crises. Purpose To identify the relationship between leadership behaviors and workplace climate and health care worker outcomes (ie, burnout, intent to leave, and engagement) and to determine whether the positive leadership program could improve workplace climate and health care worker outcomes. Materials and Methods This prospective study involved two parts. First, a web-based survey was administered to faculty and staff in a breast imaging unit of a large academic medical center in February 2021 to identify relationships between leadership behaviors and workplace climate and health care worker outcomes. Second, a web-based survey was administered in February 2023, following the implementation of a positive leadership program, to determine improvement in engagement and reduction of burnout and intent to leave since 2021. Multiple regression, the Sobel test, Pearson correlation, and the t test were used, with a conservative significance level of P < .001. Results The sample consisted of 88 respondents (response rate, 95%) in 2021 and 85 respondents (response rate, 92%) in 2023. Leadership communication was associated with a positive workplace climate (β = 0.76, P < .001) and a positive workplace climate was associated with improved engagement (β = 0.53, P < .001), reduction in burnout (β = -0.42, P < .001), and reduction in intent to leave (β = -0.49, P < .001). Following a 2-year positive leadership program, improved perceptions were observed for leadership communication (pretest mean, 4.59 ± 1.51 [SD]; posttest mean, 5.80 ± 1.01; t = 5.97, P < .001), workplace climate (pretest mean, 5.09 ± 1.43; posttest mean, 5.77 ± 1.11; t = 3.35, P < .001), and engagement (pretest mean, 5.27 ± 1.20, posttest mean, 5.68 ± 0.96; t = 2.50, P < .01), with a reduction in burnout (pretest mean, 2.69 ± 0.94; posttest mean, 2.18 ± 0.74; t = 3.50, P < .001) and intent to leave (pretest mean, 3.12 ± 2.23; posttest mean, 2.56 ± 1.84; t = 1.78, P < .05). Conclusion After implementation of a positive leadership program in a radiology department breast imaging unit, burnout and intention to leave decreased among health care workers, while engagement increased. © RSNA, 2024 See also the editorial by Thrall in this issue.

Published
2024
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19. From a Culture of Incivility to Virtuousness: A Call to Elevate Workplace Behaviors in Radiology.

Author

Young AM, Garver KA, and Gulani V

Subjects
Humans, Organizational Culture, Workplace, Incivility, Radiology
Abstract

Radiology has been identified as a subspecialty with exceptionally high rates of incivility among colleagues. Such behaviors are detrimental to the well-being, productivity, and retention of health care practitioners and to the quality of patient care. Addressing incivility has become imperative given current and anticipated staff shortages, yet research from positive organizational scholarship suggests a greater opportunity to be had. Going forward, we need not only to address incivility but also to build purpose-driven, compassionate, and supportive workplaces.

Published
2023
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20. Heart inflammation and piscine orthoreovirus genotype-1 in Pacific Canada Atlantic salmon net-pen farms: 2016-2019.

Author

Polinski MP, Gross LA, Marty GD, and Garver KA

Subjects
Animals, Arrhythmias, Cardiac veterinary, Canada, Genotype, Inflammation veterinary, Orthoreovirus, Fish Diseases epidemiology, Reoviridae Infections epidemiology, Reoviridae Infections veterinary, Salmo salar
Abstract

Piscine orthoreovirus genotype-1 (PRV-1) is a virus commonly associated with Atlantic salmon aquaculture with global variability in prevalence and association with disease. From August 2016 to November 2019, 2,070 fish sampled at 64 Atlantic salmon net-pen farm sites during 302 sampling events from British Columbia, Canada, were screened for PRV-1 using real-time qPCR. Nearly all populations became PRV-1 positive within one year of seawater entry irrespective of location, time of stocking, or producer. Cohorts became infected between 100-300 days at sea in > 90% of repeatedly sampled sites and remained infected until harvest (typically 500-700 days at sea). Heart inflammation, which is sometimes attributed to PRV-1, was also assessed in 779 production mortalities from 47 cohorts with known PRV status. Mild heart inflammation was common in mortalities from both PRV + and PRV- populations (67% and 68% prevalence, respectively). Moderate and severe lymphoplasmacytic heart inflammation was rare (11% and 3% prevalence, respectively); however, mainly arose (66 of 77 occurrences) in populations with PRV-1. Detection of PRV-1 RNA was also accomplished in water and sediment for which methods are described. These data cumulatively identify that PRV-1 ubiquitously infects farmed Atlantic salmon in British Columbia during seawater production but only in rare instances correlates with heart inflammation., (© 2022. The Author(s).)

Published
2022
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21. Pan-Piscine Orthoreovirus (PRV) Detection Using Reverse Transcription Quantitative PCR.

Author

Zhao J, Vendramin N, Cuenca A, Polinski M, Hawley LM, and Garver KA

Abstract

Piscine orthoreovirus (PRV) infects farmed and wild salmon and trout species in North America, South America, Europe, and East Asia. PRV groups into three distinct genotypes (PRV-1, PRV-2, and PRV-3) that can vary in distribution, host specificity, and/or disease potential. Detection of the virus is currently restricted to genotype specific assays such that surveillance programs require the use of three assays to ensure universal detection of PRV. Consequently, herein, we developed, optimized, and validated a real-time reverse transcription quantitative PCR assay (RT-qPCR) that can detect all known PRV genotypes with high sensitivity and specificity. Targeting a conserved region at the 5' terminus of the M2 segment, the pan-PRV assay reliably detected all PRV genotypes with as few as five copies of RNA. The assay exclusively amplifies PRV and does not cross-react with other salmonid viruses or salmonid host genomes and can be performed as either a one- or two-step RT-qPCR. The assay is highly reproducible and robust, showing 100% agreement in test results from an inter-laboratory comparison between two laboratories in two countries. Overall, as the assay provides a single test to achieve highly sensitive pan-specific PRV detection, it is suitable for research, diagnostic, and surveillance purposes.

Published
2021
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22. Distribution and Pathogenicity of Two Cutthroat Trout Virus (CTV) Genotypes in Canada.

Author

Long A, LeBlanc F, Arseneau JR, Gagne N, Einer-Jensen K, Lovy J, Polinski M, Jones S, and Garver KA

Subjects
Animals, Canada, Genotype, Hepevirus pathogenicity, Persistent Infection virology, Phylogeny, Salmo salar virology, Salmon virology, Trout, Virulence, Viruses, Unclassified classification, Viruses, Unclassified genetics, Viruses, Unclassified isolation & purification, Viruses, Unclassified pathogenicity, Fish Diseases virology, Hepevirus classification, Hepevirus genetics, Hepevirus isolation & purification
Abstract

The sole member of the Piscihepevirus genus (family Hepeviridae ) is cutthroat trout virus (CTV) but recent metatranscriptomic studies have identified numerous fish hepevirus sequences including CTV-2. In the current study, viruses with sequences resembling both CTV and CTV-2 were isolated from salmonids in eastern and western Canada. Phylogenetic analysis of eight full genomes delineated the Canadian CTV isolates into two genotypes (CTV-1 and CTV-2) within the Piscihepevirus genus. Hepevirus genomes typically have three open reading frames but an ORF3 counterpart was not predicted in the Canadian CTV isolates. In vitro replication of a CTV-2 isolate produced cytopathic effects in the CHSE-214 cell line with similar amplification efficiency as CTV. Likewise, the morphology of the CTV-2 isolate resembled CTV, yet viral replication caused dilation of the endoplasmic reticulum lumen which was not previously observed. Controlled laboratory studies exposing sockeye ( Oncorhynchus nerka) , pink ( O. gorbuscha ), and chinook salmon ( O. &nbsp; tshawytscha ) to CTV-2 resulted in persistent infections without disease and mortality. Infected Atlantic salmon ( Salmo salar ) and chinook salmon served as hosts and potential reservoirs of CTV-2. The data presented herein provides the first in vitro and in vivo characterization of CTV-2 and reveals greater diversity of piscihepeviruses extending the known host range and geographic distribution of CTV viruses.

Published
2021
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23. Annual Recurrences of Viral Hemorrhagic Septicemia Epizootics in Age 0 Pacific Herring Clupea pallasii Valenciennes, 1847.

Author

Hershberger PK, Meyers TR, Gregg JL, Groner ML, Hall SA, Jayasekera HT, MacKenzie AH, Neat AS, Piatt EN, and Garver KA

Abstract

Throughout a 20 year biosurveillance period, viral hemorrhagic septicemia virus was isolated in low titers from only 6/7355 opportunistically sampled adult Pacific herring, reflecting the typical endemic phase of the disease when the virus persists covertly. However, more focused surveillance efforts identified the presence of disease hot spots occurring among juvenile life history stages from certain nearshore habitats. These outbreaks sometimes recurred annually in the same temporal and spatial patterns and were characterized by infection prevalence as high as 96%. Longitudinal sampling indicated that some epizootics were relatively transient, represented by positive samples on a single sampling date, and others were more protracted, with positive samples occurring throughout the first 10 weeks of the juvenile life history phase. These results indicate that viral hemorrhagic septicemia (VHS) epizootics in free-ranging Pacific herring C. pallasii are more common than previously appreciated; however, they are easily overlooked if biosurveillance efforts are not designed around times and locations with high disease potential.

Published
2021
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24. Innate antiviral defense demonstrates high energetic efficiency in a bony fish.

Author

Polinski MP, Zhang Y, Morrison PR, Marty GD, Brauner CJ, Farrell AP, and Garver KA

Subjects
Animals, Antiviral Agents, Humans, Infectious hematopoietic necrosis virus, Interferons, Oxygen, Salmon, Fish Diseases
Abstract

Background: Viruses can impose energetic demands on organisms they infect, in part by hosts mounting resistance. Recognizing that oxygen uptake reliably indicates steady-state energy consumption in all vertebrates, we comprehensively evaluated oxygen uptake and select transcriptomic messaging in sockeye salmon challenged with either a virulent rhabdovirus (IHNV) or a low-virulent reovirus (PRV). We tested three hypotheses relating to the energetic costs of viral resistance and tolerance in this vertebrate system: (1) mounting resistance incurs a metabolic cost or limitation, (2) induction of the innate antiviral interferon system compromises homeostasis, and (3) antiviral defenses are weakened by acute stress., Results: IHNV infections either produced mortality within 1-4 weeks or the survivors cleared infections within 1-9 weeks. Transcription of three interferon-stimulated genes (ISGs) was strongly correlated with IHNV load but not respiratory performance. Instead, early IHNV resistance was associated with a mean 19% (95% CI = 7-31%; p = 0.003) reduction in standard metabolic rate. The stress of exhaustive exercise did not increase IHNV transcript loads, but elevated host inflammatory transcriptional signaling up to sevenfold. For PRV, sockeye tolerated high-load systemic PRV blood infections. ISG transcription was transiently induced at peak PRV loads without associated morbidity, microscopic lesions, or major changes in aerobic or anaerobic respiratory performance, but some individuals with high-load blood infections experienced a transient, minor reduction in hemoglobin concentration and increased duration of excess post-exercise oxygen consumption., Conclusions: Contrary to our first hypothesis, effective resistance against life-threatening rhabdovirus infections or tolerance to high-load reovirus infections incurred minimal metabolic costs to salmon. Even robust systemic activation of the interferon system did not levy an allostatic load sufficient to compromise host homeostasis or respiratory performance, rejecting our second hypothesis that this ancient innate vertebrate antiviral defense is itself energetically expensive. Lastly, an acute stress experienced during testing did not weaken host antiviral defenses sufficiently to promote viral replication; however, a possibility for disease intensification contingent upon underlying inflammation was indicated. These data cumulatively demonstrate that fundamental innate vertebrate defense strategies against potentially life-threatening viral exposure impose limited putative costs on concurrent aerobic or energetic demands of the organism., (© 2021. The Author(s).)

Published
2021
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25. Piscine orthoreovirus: Biology and distribution in farmed and wild fish.

Author

Polinski MP, Vendramin N, Cuenca A, and Garver KA

Subjects
Animals, Aquaculture, Fish Diseases pathology, Genotype, Orthoreovirus classification, Orthoreovirus genetics, Phylogeny, Reoviridae Infections virology, Salmon, Trout, Fish Diseases virology, Orthoreovirus pathogenicity, Reoviridae Infections veterinary
Abstract

Piscine orthoreovirus (PRV) is a common and widely distributed virus of salmonids. Since its discovery in 2010, the virus has been detected in wild and farmed stocks from North America, South America, Europe and East Asia in both fresh and salt water environments. Phylogenetic analysis suggests three distinct genogroups of PRV with generally discrete host tropisms and/or regional patterns. PRV-1 is found mainly in Atlantic (Salmo salar), Chinook (Oncorhynchus tshawytscha) and Coho (Oncorhynchus kisutch) Salmon of Europe and the Americas; PRV-2 has only been detected in Coho Salmon of Japan; and PRV-3 has been reported primarily in Rainbow Trout (Oncorhynchus mykiss) in Europe. All three genotypes can establish high-load systemic infections by targeting red blood cells for principal replication. Each genotype has also demonstrated potential to cause circulatory disease. At the same time, high-load PRV infections occur in non-diseased salmon and trout, indicating a complexity for defining PRV's role in disease aetiology. Here, we summarize the current body of knowledge regarding PRV following 10 years of study., (© 2020 Her Majesty the Queen in Right of Canada. Journal of Fish Diseases © 2020 John Wiley & Sons Ltd. Reproduced with the permission of the Minister of Fisheries and Oceans Canada.)

Published
2020
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27. Screening of Fish Cell Lines for Piscine Orthoreovirus-1 (PRV-1) Amplification: Identification of the Non-Supportive PRV-1 Invitrome.

Author

Pham PH, Misk E, Papazotos F, Jones G, Polinski MP, Contador E, Russell S, Garver KA, Lumsden JS, and Bols NC

Abstract

Piscine reovirus (PRV) is the causative agent of heart and skeletal muscle inflammation (HSMI), which is detrimental to Atlantic Salmon (AS) aquaculture, but so far has not been cultivatable, which impedes studying the disease and developing a vaccine. Homogenates of head kidney and red blood cells (RBC) from AS in which PRV-1 had been detected were applied to fish cell lines. The cell lines were from embryos, and from brain, blood, fin, gill, gonads, gut, heart, kidney, liver, skin, and spleen, and had the shapes of endothelial, epithelial, fibroblast, and macrophage cells. Most cell lines were derived from the Neopterygii subclass of fish, but one was from subclass Chondrostei. Cultures were examined by phase contrast microscopy for appearance, and by quantitative polymerase chain reaction (qPCR) for PRV-1 RNA amplification and for the capacity to transfer any changes to new cultures. No changes in appearance and Ct values were observed consistently or transferable to new cultures. Therefore, 31 cell lines examined were unable to support PRV-1 amplification and are described as belonging to the non-supportive PRV-1 invitrome. However, these investigations and cell lines can contribute to understanding PRV-1 cellular and host tropism, and the interactions between virus-infected and bystander cells.

Published
2020
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31. Sockeye salmon demonstrate robust yet distinct transcriptomic kidney responses to rhabdovirus (IHNV) exposure and infection.

Author

Polinski MP, Bradshaw JC, Rise ML, Johnson SC, and Garver KA

Subjects
Animals, Fish Proteins genetics, Fish Proteins metabolism, Infectious hematopoietic necrosis virus physiology, Kidney immunology, Rhabdoviridae Infections immunology, Rhabdoviridae Infections veterinary, Viral Load physiology, Disease Resistance immunology, Fish Diseases immunology, Gene Expression Regulation immunology, Immunity, Innate genetics, Salmon genetics, Salmon immunology, Transcriptome immunology
Abstract

Aquatic rhabdoviruses are globally significant pathogens associated with disease in both wild and cultured fish. Infectious hematopoietic necrosis virus (IHNV) is a rhabdovirus that causes the internationally regulated disease infectious hematopoietic necrosis (IHN) in most species of salmon. Yet not all naïve salmon exposed to IHNV become diseased, and the mechanisms by which some individuals evade or rapidly clear infection following exposure are poorly understood. Here we used RNA-sequencing to evaluate transcriptomic changes in sockeye salmon, a keystone species in the North Pacific and natural host for IHNV, to evaluate the consequences of IHNV exposure and/or infection on host cell transcriptional pathways. Immersion challenge of sockeye salmon smolts with IHNV resulted in approximately 33% infection prevalence, where both prevalence and viral kidney load peaked at 7 days post challenge (dpc). De novo assembly of kidney transcriptomes at 7 dpc revealed that both infected and exposed but noninfected individuals experienced substantial transcriptomic modification; however, stark variation in gene expression patterns were observed between exposed but noninfected, infected, and unexposed populations. GO and KEGG pathway enrichment in concert with differential expression analysis identified that kidney responses in exposed but noninfected fish emphasised a global pattern of transcriptional down-regulation, particularly for pathways involved in DNA transcription, protein biosynthesis and macromolecule metabolism. In contrast, transcriptomes of infected fish demonstrated a global emphasis of transcriptional up-regulation highlighting pathways involved in antiviral response, inflammation, apoptosis, and RNA processing. Quantitative PCR was subsequently used to highlight differential and time-specific regulation of acute phase, antiviral, inflammatory, cell boundary, and metabolic responsive transcripts in both infected and exposed but noninfected groups. This data demonstrates that waterborne exposure with IHNV has a dramatic effect on the sockeye salmon kidney transcriptome that is discrete between resistant and acutely susceptible individuals. We identify that metabolic, acute phase and cell boundary pathways are transcriptionally affected by IHNV and kidney responses to local infection are highly divergent from those generated as part of a disseminated response. These data suggest that primary resistance of naïve fish to IHNV may involve global responses that encourage reduced cellular signaling rather than promoting classical innate antiviral responses., (Crown Copyright © 2019. Published by Elsevier Ltd. All rights reserved.)

Published
2019
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33. Synergistic osmoregulatory dysfunction during salmon lice (Lepeophtheirus salmonis) and infectious hematopoietic necrosis virus co-infection in sockeye salmon (Oncorhynchus nerka) smolts.

Author

Long A, Garver KA, and Jones SRM

Subjects
Animals, Coinfection pathology, Female, Fish Diseases parasitology, Fish Diseases virology, Gene Expression, Host-Pathogen Interactions immunology, Salmon genetics, Transcriptome, Coinfection veterinary, Copepoda pathogenicity, Host-Pathogen Interactions genetics, Infectious hematopoietic necrosis virus pathogenicity, Osmoregulation, Salmon immunology
Abstract

While co-infections are common in both wild and cultured fish, knowledge of the interactive effects of multiple pathogens on host physiology, gene expression and immune response is limited. To evaluate the impact of co-infection on host survival, physiology and gene expression, sockeye salmon Oncorhynchus nerka smolts were infected with the salmon louse Lepeophtheirus salmonis (V-/SL+), infectious hematopoietic necrosis virus (IHNV; V+/SL-), both (V+/SL+), or neither (V-/SL-). Survival in the V+/SL+ group was significantly lower than the V-/SL- and V-/SL+ groups (p = 0.024). Co-infected salmon had elevated osmoregulatory indicators and lowered haematocrit values as compared to the uninfected control. Expression of 12 genes associated with the host immune response was analysed in anterior kidney and skin. The only evidence of L. salmonis-induced modulation of the host antiviral response was down-regulation of mhc I although the possibility of modulation cannot be ruled out for mx-1 and rsad2. Co-infection did not influence the expression of genes associated with the host response to L. salmonis. Therefore, we conclude that the reduced survival in co-infected sockeye salmon resulted from the osmoregulatory consequences of the sea lice infections which were amplified due to infection with IHNV., (© 2019 The Authors. Journal of Fish Diseases Published by John Wiley & Sons Ltd.)

Published
2019
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34. High-Load Reovirus Infections Do Not Imply Physiological Impairment in Salmon.

Author

Zhang Y, Polinski MP, Morrison PR, Brauner CJ, Farrell AP, and Garver KA

Abstract

The recent ubiquitous detection of PRV among salmonids has sparked international concern about the cardiorespiratory performance of infected wild and farmed salmon. Piscine orthoreovirus (PRV) has been shown to create substantial viremia in salmon by targeting erythrocytes for principle replication. In some instances, infections develop into heart and skeletal muscle inflammation (HSMI) or other pathological conditions affecting the respiratory system. Critical to assessing the seriousness of PRV infections are controlled infection studies that measure physiological impairment to critical life support systems. Respiratory performance is such a system and here multiple indices were measured to test the hypothesis that a low-virulence strain of PRV from Pacific Canada compromises the cardiorespiratory capabilities of Atlantic salmon. Contrary to this hypothesis, the oxygen affinity and carrying capacity of erythrocytes were unaffected by PRV despite the presence of severe viremia, minor heart pathology and transient cellular activation of antiviral response pathways. Similarly, PRV-infected fish had neither sustained nor appreciable differences in respiratory capabilities compared with control fish. The lack of functional harm to salmon infected with PRV in this instance highlights that, in an era of unprecedented virus discovery, detection of viral infection does not necessarily imply bodily harm and that viral load is not always a suitable predictor of disease within a host organism.

Published
2019
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35. Piscine orthoreovirus demonstrates high infectivity but low virulence in Atlantic salmon of Pacific Canada.

Author

Polinski MP, Marty GD, Snyman HN, and Garver KA

Subjects
Animals, Aquaculture, Canada, Erythrocytes virology, Heart virology, Inflammation virology, Muscle, Skeletal virology, Norway, Viral Load methods, Fish Diseases virology, Orthoreovirus pathogenicity, Reoviridae Infections virology, Salmo salar virology, Virulence physiology
Abstract

Piscine orthoreovirus (PRV) is ubiquitous in farmed Atlantic salmon and sometimes associated with disease - most notably, Heart and Skeletal Muscle Inflammation (HSMI). However, PRV is also widespread in non-diseased fish, particularly in Pacific Canada, where few cases of severe heart inflammation have been documented. To better understand the mechanisms behind PRV-associated disease, this study investigated the infection dynamics of PRV from Pacific Canada and the potential for experimental passage of putatively associated heart inflammation in Pacific-adapted Mowi-McConnell Atlantic salmon. Regardless of the PRV source (fish with or without HSMI-like heart inflammation), infections led to high-load viremia that induced only minor focal heart inflammation without significant transcriptional induction of inflammatory cytokines. Repeated screening of PRV dsRNA/ssRNA along with histopathology and gene expression analysis of host blood and heart tissues identified three distinct phases of infection: (1) early systemic dissemination and replication without host recognition; (2) peak replication, erythrocyte inclusion body formation and load-dependent host recognition; (3) long-term, high-load viral persistence with limited replication or host recognition sometimes accompanied by minor heart inflammation. These findings contrast previous challenge trials with PRV from Norway that induced severe heart inflammation and indicate that strain and/or host specific factors are necessary to initiate PRV-associated disease.

Published
2019
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36. Differential Effects of Adult Salmon Lice Lepeophtheirus salmonis on Physiological Responses of Sockeye Salmon and Atlantic Salmon.

Author

Long A, Garver KA, and Jones SRM

Subjects
Animals, Aquaculture, British Columbia epidemiology, Ectoparasitic Infestations epidemiology, Ectoparasitic Infestations parasitology, Ectoparasitic Infestations physiopathology, Female, Fish Diseases parasitology, Fish Diseases physiopathology, Prevalence, Copepoda physiology, Ectoparasitic Infestations veterinary, Fish Diseases epidemiology, Salmo salar, Salmon
Abstract

The salmon louse Lepeophtheirus salmonis, a type of sea lice (family Caligidae), is enzootic in marine waters of British Columbia and poses a health risk to both farmed Atlantic Salmon Salmo salar and wild Pacific salmon Oncorhynchus spp. At the adult stage, sea lice infections can often result in severe cutaneous lesions in their salmonid hosts. To evaluate and compare the physiological consequences of adult L. salmonis infections, smolts of Atlantic Salmon and Sockeye Salmon O. nerka were exposed to 2 (low), 6 (medium), or 10 (high) adult female lice/fish. Mean lice abundance decreased over time in all groups. Skin disruption due to parasite infection was observed in both species. Plasma samples were collected from infected fish and uninfected controls at 1, 3, 5, and 7 d postinfection and measured for indicators of osmoregulatory function and stress. Sockeye Salmon, regardless of L. salmonis exposure level, showed a rapid onset of elevated osmolality and sodium and chloride ion concentrations which were sustained until 7 d postinfection when values returned to levels comparable with the unexposed controls. Conversely, these effects were not measured in Atlantic Salmon. Additionally, differential host effects in blood glucose levels were observed, with Sockeye Salmon displaying immediate elevation in glucose. Relative to Atlantic Salmon, infection with L. salmonis caused a profound physiological impact to Sockeye Salmon characterized by loss of osmoregulatory integrity and a stress response. This work provides the first comprehensive report of the physiological consequences of infections with adult L. salmonis in Sockeye Salmon smolts and helps to further define the mechanisms of susceptibility in this species., (© 2018 Her Majesty the Queen in Right of Canada. Journal of Aquatic Animal Health published by Wiley Periodicals, Inc. on behalf of American Fisheries Society.)

Published
2019
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37. Significant differences in maternal carotenoid provisioning and effects on offspring fitness in Chinook salmon colour morphs.

Author

Lehnert SJ, Garver KA, Richard J, Devlin RH, Lajoie C, Pitcher TE, and Heath DD

Subjects
Animal Feed, Animal Nutritional Physiological Phenomena, Animals, Female, Fish Diseases immunology, Fish Diseases virology, Humans, Infectious hematopoietic necrosis virus, Maternal Nutritional Physiological Phenomena, Ovum, Real-Time Polymerase Chain Reaction veterinary, Rhabdoviridae Infections immunology, Rhabdoviridae Infections veterinary, Rhabdoviridae Infections virology, Salmon growth & development, Carotenoids administration & dosage, Genetic Fitness, Pigmentation genetics, Pigmentation physiology, Salmon physiology
Abstract

In oviparous species, maternal carotenoid provisioning can deliver diverse fitness benefits to offspring via increased survival, growth and immune function. Despite demonstrated advantages of carotenoids, large intra- and interspecific variation in carotenoid utilization exists, suggesting trade-offs associated with carotenoids. In Chinook salmon (Oncorhynchus tshawytscha), extreme variation in carotenoid utilization delineates two colour morphs (red and white) that differ genetically in their ability to deposit carotenoids into tissues. Here, we take advantage of this natural variation to examine how large differences in maternal carotenoid provisioning influence offspring fitness. Using a full factorial breeding design crossing morphs and common-garden rearing, we measured differences in a suite of fitness-related traits, including survival, growth, viral susceptibility and host response, in offspring of red (carotenoid-rich eggs) and white (carotenoid-poor eggs) females. Eggs of red females had significantly higher carotenoid content than those of white females (6× more); however, this did not translate into measurable differences in offspring fitness. Given that white Chinook salmon may have evolved to counteract their maternal carotenoid deficiency, we also examined the relationship between egg carotenoid content and offspring fitness within each morph separately. Egg carotenoids only had a positive effect within the red morph on survival to eyed-egg (earliest measured trait), but not within the white morph. Although previous work shows that white females benefit from reduced egg predation, our study also supports a hypothesis that white Chinook salmon have evolved additional mechanisms to improve egg survival despite low carotenoids, providing novel insight into evolutionary mechanisms that maintain this stable polymorphism., (© 2018 European Society For Evolutionary Biology. Journal of Evolutionary Biology © 2018 European Society For Evolutionary Biology.)

Published
2018
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38. Fish viruses stored in RNAlater can remain infectious and even be temporarily protected from inactivation by heat or by tissue homogenates.

Author

Pham PH, Sokeechand BSH, Garver KA, Jones G, Lumsden JS, and Bols NC

Subjects
Ammonium Sulfate, Animals, Cell Line, Cells, Cultured, Hot Temperature, Fish Diseases virology, Fishes virology, Microbial Viability, Solutions, Specimen Handling, Virus Physiological Phenomena
Abstract

RNAlater is a commonly used transport and storage solution for samples collected for fish health investigations, particularly those potentially involving viruses. However, the infectivity of fish viruses after storage in RNAlater have not been determined. Nevertheless, knowledge of pathogen infectivity of preserved samples is crucial for ensuring safe transport and storage protocols. Therefore, the infectivity of three fish RNA viruses in RNAlater was examined at four temperatures: -80 °C, 4 °C, room temperature (RT, approximately 22 °C) and 37 °C. The viruses were viral hemorrhagic septicemia virus (VHSV), infectious pancreatic necrosis virus (IPNV) and chum salmon reovirus (CSV). Overall, three consistent outcomes were observed. First, all three viruses remained infectious in RNAlater at RT or lower. High log titres of these viruses remained over 30 d of storage in either RNAlater or PBS. Second, RNAlater delayed the thermal inactivation of these viruses when compared to PBS at 37 °C. For VHSV, the titre remained high in RNAlater after one day of incubation at 37 °C, but was inactivated to below threshold in PBS over the same period. For IPNV, the titre remained high in RNAlater after 30 d of incubation at 37 °C, but was inactivated to below threshold in PBS over the same period. For CSV, the titre was slightly higher in RNAlater than PBS at 37 °C over 7 d, and by day 30, only samples stored in RNAlater proved infectious at titres above the detection threshold. Third, RNAlater delayed the inactivation of these viruses when they were stored together with head kidney homogenates. For VHSV, infectious virus was recovered from samples stored at 4 °C in RNAlater by day 7 of incubation, whereas it was inactivated to below threshold in PBS over the same period. For both IPNV and CSV, infectious virus was recovered from samples stored at 37 °C in RNAlater for 7 d, but not so in PBS. In summary, fish viruses can remain infectious and are even temporarily protected from inactivation while in RNAlater. This makes RNAlater a potentially useful solution for the transport of fish viruses. At the same time, precautionary measures must be taken when transporting potentially infectious samples in RNAlater., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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39. De novo assembly of Sockeye salmon kidney transcriptomes reveal a limited early response to piscine reovirus with or without infectious hematopoietic necrosis virus superinfection.

Author

Polinski MP, Bradshaw JC, Inkpen SM, Richard J, Fritsvold C, Poppe TT, Rise ML, Garver KA, and Johnson SC

Subjects
Animals, Computational Biology methods, Disease Susceptibility, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, Kidney virology, Salmon virology, Fish Diseases genetics, Fish Diseases virology, Gene Expression Regulation, Infectious hematopoietic necrosis virus, Kidney metabolism, Salmon genetics, Superinfection, Transcriptome
Abstract

Background: Piscine reovirus (PRV) has been associated with the serious disease known as Heart and Skeletal Muscle Inflammation (HSMI) in cultured Atlantic salmon Salmo salar in Norway. PRV is also prevalent in wild and farmed salmon without overt disease manifestations, suggesting multifactorial triggers or PRV variant-specific factors are required to initiate disease. In this study, we explore the head kidney transcriptome of Sockeye salmon Oncorhynchus nerka during early PRV infection to identify host responses in the absence of disease in hopes of elucidating mechanisms by which PRV may directly alter host functions and contribute to the development of a disease state. We further investigate the role of PRV as a coinfecting agent following superinfection with infectious hematopoietic necrosis virus (IHNV) - a highly pathogenic rhabdovirus endemic to the west coast of North America., Results: Challenge of Sockeye salmon with PRV resulted in high quantities of viral transcripts to become present in the blood and kidney of infected fish without manifestations of disease. De novo transcriptome assembly of over 2.3 billion paired RNA-seq reads from the head kidneys of 36 fish identified more than 320,000 putative unigenes, of which less than 20 were suggested to be differentially expressed in response to PRV at either 2 or 3 weeks post challenge by DESeq2 and edgeR analysis. Of these, only one, Ependymin, was confirmed to be differentially expressed by qPCR in an expanded sample set. In contrast, IHNV induced substantial transcriptional changes (differential expression of > 20,000 unigenes) which included transcripts involved in antiviral and inflammatory response pathways. Prior infection with PRV had no significant effect on host responses to superinfecting IHNV, nor did host responses initiated by IHNV exposure influence increasing PRV loads., Conclusions: PRV does not substantially alter the head kidney transcriptome of Sockeye salmon during early (2 to 3 week) infection and dissemination in a period of significant increasing viral load, nor does the presence of PRV change the host transcriptional response to an IHNV superinfection. Further, concurrent infections of PRV and IHNV do not appear to significantly influence the infectivity or severity of IHNV associated disease, or conversely, PRV load.

Published
2016
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40. The parasite Ichthyophonus sp. in Pacific herring from the coastal NE Pacific.

Author

Hershberger PK, Gregg JL, Hart LM, Moffitt S, Brenner R, Stick K, Coonradt E, Otis EO, Vollenweider JJ, Garver KA, Lovy J, and Meyers TR

Subjects
Alaska, Animals, Fish Diseases mortality, Fishes, Host-Parasite Interactions, Mesomycetozoea Infections mortality, Mesomycetozoea Infections pathology, Pacific Ocean epidemiology, Prevalence, Seasons, Fish Diseases epidemiology, Fish Diseases parasitology, Mesomycetozoea physiology, Mesomycetozoea Infections epidemiology, Mesomycetozoea Infections parasitology
Abstract

The protistan parasite Ichthyophonus occurred in populations of Pacific herring Clupea pallasii Valenciennes throughout coastal areas of the NE Pacific, ranging from Puget Sound, WA north to the Gulf of Alaska, AK. Infection prevalence in local Pacific herring stocks varied seasonally and annually, and a general pattern of increasing prevalence with host size and/or age persisted throughout the NE Pacific. An exception to this zoographic pattern occurred among a group of juvenile, age 1+ year Pacific herring from Cordova Harbor, AK in June 2010, which demonstrated an unusually high infection prevalence of 35%. Reasons for this anomaly were hypothesized to involve anthropogenic influences that resulted in locally elevated infection pressures. Interannual declines in infection prevalence from some populations (e.g. Lower Cook Inlet, AK; from 20-32% in 2007 to 0-3% during 2009-13) or from the largest size cohorts of other populations (e.g. Sitka Sound, AK; from 62.5% in 2007 to 19.6% in 2013) were likely a reflection of selective mortality among the infected cohorts. All available information for Ichthyophonus in the NE Pacific, including broad geographic range, low host specificity and presence in archived Pacific herring tissue samples dating to the 1980s, indicate a long-standing host-pathogen relationship., (© 2015 John Wiley & Sons Ltd.)

Published
2016
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41. Piscine reovirus, but not Jaundice Syndrome, was transmissible to Chinook Salmon, Oncorhynchus tshawytscha (Walbaum), Sockeye Salmon, Oncorhynchus nerka (Walbaum), and Atlantic Salmon, Salmo salar L.

Author

Garver KA, Marty GD, Cockburn SN, Richard J, Hawley LM, Müller A, Thompson RL, Purcell MK, and Saksida S

Subjects
Acute Disease, Animals, British Columbia, Fish Diseases mortality, Fish Diseases pathology, Fish Diseases virology, Gene Expression Profiling, Gene Expression Regulation, Liver physiopathology, Myxovirus Resistance Proteins genetics, Reoviridae pathogenicity, Reoviridae Infections transmission, Salmonidae genetics, Syndrome, Fish Diseases transmission, Reoviridae physiology, Reoviridae Infections veterinary, Salmonidae virology
Abstract

A Jaundice Syndrome occurs sporadically among sea-pen-farmed Chinook Salmon in British Columbia, the westernmost province of Canada. Affected salmon are easily identified by a distinctive yellow discolouration of the abdominal and periorbital regions. Through traditional diagnostics, no bacterial or viral agents were cultured from tissues of jaundiced Chinook Salmon; however, piscine reovirus (PRV) was identified via RT-rPCR in all 10 affected fish sampled. By histopathology, Jaundice Syndrome is an acute to peracute systemic disease, and the time from first clinical signs to death is likely <48 h; renal tubular epithelial cell necrosis is the most consistent lesion. In an infectivity trial, Chinook Salmon, Sockeye Salmon and Atlantic Salmon, intraperitoneally inoculated with a PRV-positive organ homogenate from jaundiced Chinook Salmon, developed no gross or microscopic evidence of jaundice despite persistence of PRV for the 5-month holding period. The results from this study demonstrate that the Jaundice Syndrome was not transmissible by injection of material from infected fish and that PRV was not the sole aetiological factor for the condition. Additionally, these findings showed the Pacific coast strain of PRV, while transmissible, was of low pathogenicity for Atlantic Salmon, Chinook Salmon and Sockeye Salmon., (© 2015 John Wiley & Sons Ltd.)

Published
2016
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42. Piscine Orthoreovirus from Western North America Is Transmissible to Atlantic Salmon and Sockeye Salmon but Fails to Cause Heart and Skeletal Muscle Inflammation.

Author

Garver KA, Johnson SC, Polinski MP, Bradshaw JC, Marty GD, Snyman HN, Morrison DB, and Richard J

Subjects
Amino Acid Sequence, Animals, Cardiomyopathies virology, Endemic Diseases, Fish Diseases epidemiology, Fish Diseases transmission, Host-Pathogen Interactions, Molecular Sequence Data, Muscle, Skeletal pathology, Muscle, Skeletal virology, Myositis virology, North America epidemiology, Orthoreovirus classification, Orthoreovirus genetics, Phylogeny, Prevalence, RNA, Viral blood, RNA, Viral genetics, RNA, Viral metabolism, Reoviridae Infections epidemiology, Reoviridae Infections transmission, Salmo salar blood, Sequence Homology, Amino Acid, Time Factors, Fish Diseases virology, Orthoreovirus physiology, Reoviridae Infections virology, Salmo salar virology
Abstract

Heart and skeletal muscle inflammation (HSMI) is a significant and often fatal disease of cultured Atlantic salmon in Norway. The consistent presence of Piscine orthoreovirus (PRV) in HSMI diseased fish along with the correlation of viral load and antigen with development of lesions has supported the supposition that PRV is the etiologic agent of this condition; yet the absence of an in vitro culture system to demonstrate disease causation and the widespread prevalence of this virus in the absence of disease continues to obfuscate the etiological role of PRV with regard to HSMI. In this study, we explore the infectivity and disease causing potential of PRV from western North America-a region now considered endemic for PRV but without manifestation of HSMI-in challenge experiments modeled upon previous reports associating PRV with HSMI. We identified that western North American PRV is highly infective by intraperitoneal injection in Atlantic salmon as well as through cohabitation of both Atlantic and Sockeye salmon. High prevalence of viral RNA in peripheral blood of infected fish persisted for as long as 59 weeks post-challenge. Nevertheless, no microscopic lesions, disease, or mortality could be attributed to the presence of PRV, and only a minor transcriptional induction of the antiviral Mx gene occurred in blood and kidney samples during log-linear replication of viral RNA. Comparative analysis of the S1 segment of PRV identified high similarity between this North American sequence and previous sequences associated with HSMI, suggesting that factors such as viral co-infection, alternate PRV strains, host condition, or specific environmental circumstances may be required to cause this disease.

Published
2016
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43. Infectious hematopoietic necrosis virus (IHNV) persistence in Sockeye Salmon: influence on brain transcriptome and subsequent response to the viral mimic poly(I:C).

Author

Müller A, Sutherland BJ, Koop BF, Johnson SC, and Garver KA

Subjects
Animals, Brain metabolism, Brain virology, Carrier State, Fish Diseases immunology, Gene Expression Profiling, Gene Expression Regulation drug effects, Lipid Metabolism genetics, Poly I-C administration & dosage, Poly I-C pharmacology, Reproducibility of Results, Salmon immunology, Transcriptome, Fish Diseases genetics, Fish Diseases virology, Infectious hematopoietic necrosis virus genetics, Infectious hematopoietic necrosis virus immunology, Salmon genetics, Salmon virology
Abstract

Background: Sockeye Salmon are an iconic species widely distributed throughout the North Pacific. A devastating pathogen of Sockeye Salmon is infectious hematopoietic necrosis virus (IHNV, genus Novirhabdovirus, family Rhabdoviridae). It has been postulated that IHNV is maintained in salmon populations by persisting over the life of its host and/or by residing in natural reservoirs other than its susceptible hosts. Herein we demonstrate the presence of IHNV in the brain of Sockeye Salmon that survived an experimentally-induced outbreak, suggesting the presence of viral persistence in this susceptible species. To understand the viral persistent state in Sockeye Salmon we profiled the transcriptome to evaluate the host response in asymptomatic carriers and to determine what effects (if any) IHNV exposure may have on subsequent virus challenges., Results: A laboratory disease model to simulate a natural IHNV outbreak in Sockeye Salmon resulted in over a third of the population incurring acute IHN disease and mortality during the first four months after initial exposure. Nine months post IHNV exposure, despite the absence of disease and mortality, a small percentage (<4 %) of the surviving population contained IHNV in brain. Transcriptome analysis in brain of asymptomatic virus carriers and survivors without virus exhibited distinct transcriptional profiles in comparison to naïve fish. Characteristic for carriers was the up-regulation of genes involved in antibody production and antigen presentation. In both carriers and survivors a down-regulation of genes related to cholesterol biosynthesis, resembling an antiviral mechanism observed in higher vertebrates was revealed along with differences in nervous system development. Moreover, following challenge with poly(I:C), survivors and carriers displayed an elevated antiviral immune response in comparison to naïve fish., Conclusions: IHN virus persistence was identified in Sockeye Salmon where it elicited a unique brain transcriptome profile suggesting an ongoing adaptive immune response. IHNV carriers remained uncompromised in mounting efficient innate antiviral responses when exposed to a viral mimic. The capacity of IHNV to reside in asymptomatic hosts supports a virus carrier hypothesis and if proven infectious, could have significant epidemiological consequences towards maintaining and spreading IHNV among susceptible host populations.

Published
2015
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44. Modelling Infectious Hematopoietic Necrosis Virus Dispersion from Marine Salmon Farms in the Discovery Islands, British Columbia, Canada.

Author

Foreman MG, Guo M, Garver KA, Stucchi D, Chandler P, Wan D, Morrison J, and Tuele D

Subjects
Animals, British Columbia, Fish Diseases epidemiology, Fish Diseases virology, Fisheries, Infectious hematopoietic necrosis virus, Models, Biological, Rhabdoviridae Infections epidemiology, Rhabdoviridae Infections veterinary, Salmo salar virology
Abstract

Finite volume ocean circulation and particle tracking models are used to simulate water-borne transmission of infectious hematopoietic necrosis virus (IHNV) among Atlantic salmon (Salmo salar) farms in the Discovery Islands region of British Columbia, Canada. Historical simulations for April and July 2010 are carried out to demonstrate the seasonal impact of river discharge, wind, ultra-violet (UV) radiation, and heat flux conditions on near-surface currents, viral dispersion and survival. Numerical particles released from infected farm fish in accordance with IHNV shedding rates estimated through laboratory experiments are dispersed by model oceanic flows. Viral particles are inactivated by ambient UV radiation levels and by the natural microbial community at rates derived through laboratory studies. Viral concentration maps showing temporal and spatial changes are produced and combined with lab-determined minimum infectious dosages to estimate the infective connectivity among farms. Results demonstrate that neighbouring naïve farms can become exposed to IHNV via water-borne transport from an IHNV diseased farm, with a higher risk in April than July, and that many events in the sequence of farm outbreaks in 2001-2002 are consistent with higher risks in our farm connectivity matrix. Applications to other diseases, transfers between farmed and wild fish, and the effect of vaccinations are also discussed.

Published
2015
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45. Estimation of parameters influencing waterborne transmission of infectious hematopoietic necrosis virus (IHNV) in Atlantic salmon (Salmo salar).

Author

Garver KA, Mahony AA, Stucchi D, Richard J, Van Woensel C, and Foreman M

Subjects
Animals, Disease Transmission, Infectious, Virus Shedding physiology, Fish Diseases transmission, Infectious hematopoietic necrosis virus, Models, Biological, Rhabdoviridae Infections transmission, Rhabdoviridae Infections veterinary, Salmo salar virology
Abstract

Understanding how pathogenic organisms spread in the environment is crucial for the management of disease, yet knowledge of propagule dispersal and transmission in aquatic environments is limited. We conducted empirical studies using the aquatic virus, infectious hematopoietic necrosis virus (IHNV), to quantify infectious dose, shedding capacity, and virus destruction rates in order to better understand the transmission of IHN virus among Atlantic salmon marine net-pen aquaculture. Transmission of virus and subsequent mortality in Atlantic salmon post-smolts was initiated with as low as 10 plaque forming units (pfu) ml(-1). Virus shedding from IHNV infected Atlantic salmon was detected before the onset of visible signs of disease with peak shed rates averaging 3.2 × 10(7) pfu fish(-1) hour(-1) one to two days prior to mortality. Once shed into the marine environment, the abundance of free IHNV is modulated by sunlight (UV A and B) and the growth of natural biota present in the seawater. Virus decayed very slowly in sterilized seawater while rates as high as k =  4.37 d(-1) were observed in natural seawater. Decay rates were further accelerated when exposed to sunlight with virus infectivity reduced by six orders of magnitude within 3 hours of full sunlight exposure. Coupling the IHNV transmission parameter estimates determined here with physical water circulation models, will increase the understanding of IHNV dispersal and provide accurate geospatial predictions of risk for IHNV transmission from marine salmon sites.

Published
2013
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46. Experimental infection studies demonstrating Atlantic salmon as a host and reservoir of viral hemorrhagic septicemia virus type IVa with insights into pathology and host immunity.

Author

Lovy J, Piesik P, Hershberger PK, and Garver KA

Subjects
Animals, British Columbia, Fish Diseases immunology, Fish Diseases mortality, Fish Diseases pathology, Fish Proteins genetics, Fish Proteins immunology, Immunity, Interferon Type I genetics, Interferon Type I immunology, Novirhabdovirus immunology, Rhabdoviridae Infections immunology, Rhabdoviridae Infections pathology, Rhabdoviridae Infections virology, Up-Regulation, Virus Replication, Disease Reservoirs virology, Fish Diseases virology, Novirhabdovirus isolation & purification, Novirhabdovirus physiology, Rhabdoviridae Infections veterinary, Salmo salar virology
Abstract

In British Columbia, Canada (BC), aquaculture of finfish in ocean netpens has the potential for pathogen transmission between wild and farmed species due to the sharing of an aquatic environment. Viral hemorrhagic septicemia virus (VHSV) is enzootic in BC and causes serious disease in wild Pacific herring, Clupea pallasii, which often enter and remain in Atlantic salmon, Salmo salar, netpens. Isolation of VHSV from farmed Atlantic salmon has been previously documented, but the effects on the health of farmed salmon and the wild fish sharing the environment are unknown. To determine their susceptibility, Atlantic salmon were exposed to a pool of 9 isolates of VHSV obtained from farmed Atlantic salmon in BC by IP-injection or by waterborne exposure and cohabitation with diseased Pacific herring. Disease intensity was quantified by recording mortality, clinical signs, histopathological changes, cellular sites of viral replication, expression of interferon-related genes, and viral tissue titers. Disease ensued in Atlantic salmon after both VHSV exposure methods. Fish demonstrated gross disease signs including darkening of the dorsal skin, bilateral exophthalmia, light cutaneous hemorrhage, and lethargy. The virus replicated within endothelial cells causing endothelial cell necrosis and extensive hemorrhage in anterior kidney. Infected fish demonstrated a type I interferon response as seen by up-regulation of genes for IFNα, Mx, and ISG15. In a separate trial infected salmon transmitted the virus to sympatric Pacific herring. The results demonstrate that farmed Atlantic salmon can develop clinical VHS and virus can persist in the tissues for at least 10 weeks. Avoiding VHS epizootics in Atlantic salmon farms would limit the potential of VHS in farmed Atlantic salmon, the possibility for further host adaptation in this species, and virus spillback to sympatric wild fishes., (Published by Elsevier B.V.)

Published
2013
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47. Genotype-specific Taqman® assays for the detection and rapid characterisation of European strains of viral haemorrhagic septicaemia virus.

Author

Bland F, Snow M, Garver KA, and Matejusova I

Subjects
Animals, Aquaculture, Europe, Genotype, Novirhabdovirus genetics, Oncorhynchus mykiss, Sensitivity and Specificity, Hemorrhagic Septicemia, Viral diagnosis, Hemorrhagic Septicemia, Viral virology, Novirhabdovirus classification, Novirhabdovirus isolation & purification, Real-Time Polymerase Chain Reaction methods, Veterinary Medicine methods, Virology methods
Abstract

Viral haemorrhagic septicaemia virus (VHSV) is the agent of a disease that causes mortality events in marine and freshwater fish. It is one of the most important pathogens in European rainbow trout (Oncorhynchus mykiss) aquaculture. Four major genotypes of the virus are recognised reflecting different geographic and host ranges. Genotyping of VHS isolates is important for disease management enabling monitoring of disease spread into new geographical regions or susceptible species. This study sought to develop molecular tools for rapid and efficient classification of European VHSV genotypes. Specificity of genotype-specific real-time reverse transcription polymerase chain reaction (RT-qPCR) assays targeting the viral nucleoprotein (N) gene was tested using 66 viral isolates. All designed Taqman(®) RT-qPCR assays were genotype specific, displayed a high sensitivity and together constituted a diagnostic method for the rapid discrimination of European VHSV genotypes. Practical diagnostic applications of such assays demonstrated in this study include: (1) rapid genotype determination of isolates; and (2) identification of mixed-genotype isolates originating from pooled samples in areas where genotype distribution is known to overlap. However, the most important application will be supporting international VHSV surveillance programmes through the provision of a rapid specific and sensitive isolate characterisation method., (Crown Copyright © 2012. Published by Elsevier B.V. All rights reserved.)

Published
2013
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48. Viral tropism and pathology associated with viral hemorrhagic septicemia in larval and juvenile Pacific herring.

Author

Lovy J, Lewis NL, Hershberger PK, Bennett W, Meyers TR, and Garver KA

Subjects
Animals, Fishes, Hemorrhagic Septicemia, Viral mortality, Kidney pathology, Kidney virology, Spleen pathology, Spleen virology, Time Factors, Viral Load, Hemorrhagic Septicemia, Viral pathology, Hemorrhagic Septicemia, Viral virology, Novirhabdovirus physiology, Viral Tropism
Abstract

Viral hemorrhagic septicemia virus (VHSV) genotype IVa causes mass mortality in wild Pacific herring, a species of economic value, in the Northeast Pacific Ocean. Young of the year herring are particularly susceptible and can be carriers of the virus. To understand its pathogenesis, tissue and cellular tropisms of VHSV in larval and juvenile Pacific herring were investigated with immunohistochemistry, transmission electron microscopy, and viral tissue titer. In larval herring, early viral tropism for epithelial tissues (6d post-exposure) was indicated by foci of epidermal thickening that contained heavy concentrations of virus. This was followed by a cellular tropism for fibroblasts within the fin bases and the dermis, but expanded to cells of the kidney, liver, pancreas, gastrointestinal tract and meninges in the brain. Among wild juvenile herring that underwent a VHS epizootic in the laboratory, the disease was characterized by acute and chronic phases of death. Fish that died during the acute phase had systemic infections in tissues including the submucosa of the gastrointestinal tract, spleen, kidney, liver, and meninges. The disease then transitioned into a chronic phase that was characterized by the appearance of neurological signs including erratic and corkscrew swimming and darkening of the dorsal skin. During the chronic phase viral persistence occurred in nervous tissues including meninges and brain parenchymal cells and in one case in peripheral nerves, while virus was mostly cleared from the other tissues. The results demonstrate the varying VHSV tropisms dependent on the timing of infection and the importance of neural tissues for the persistence and perpetuation of chronic infections in Pacific herring., (Published by Elsevier B.V.)

Published
2012
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49. Concentration of infectious aquatic rhabdoviruses from freshwater and seawater using ultrafiltration.

Author

Grant AA, Jakob E, Richard J, and Garver KA

Subjects
Animals, Fish Diseases, Rhabdoviridae Infections veterinary, Rhabdoviridae Infections virology, Salmon, Ultrafiltration instrumentation, Ultrafiltration methods, Virus Shedding, Fresh Water virology, Rhabdoviridae physiology, Seawater virology, Ultrafiltration veterinary
Abstract

Infectious hematopoietic necrosis virus (IHNV), viral hemorrhagic septicemia virus, and spring viremia of carp virus were concentrated and detected from freshwater and seawater samples by using hollow-fiber ultrafiltration. Within 60 min, virus in a 50-L freshwater or saltwater sample was concentrated more than 70-fold, and virus retention efficiencies were consistently greater than 88%. Retention efficiency was highly dependent upon concentrations of column blocking and sample stabilization solutions. A large column with a surface area of 1.15 m2 and a filtration capacity of 5-200 L exhibited optimal viral retention when blocked with 2% fetal bovine serum (FBS) and when the samples were supplemented with 0.1% FBS. Conversely, a small column with 100-fold less surface area and a filtering capacity of 0.5-2.0 L was optimized when blocked with 1% FBS and when the samples were supplemented with 0.1% FBS. The optimized ultrafiltration procedure was further validated with water from a tank that contained IHNV-exposed juvenile sockeye salmon Oncorhynchus nerka, resulting in an average virus retention efficiency of 91.6 +/- 4.1% (mean +/- SE). Virus quantification of concentrated samples demonstrated that IHNV shedding in sockeye salmon preceded mortality; shedding of the virus was observed to increase significantly as early as 7 d postchallenge and peaked at day 14, when virus levels reached 4.87 x 10(3) plaque-forming units/mL. We conclude that ultrafiltration is a reliable and effective method for concentrating viable aquatic rhabdoviruses from large volumes of water and has application for the analysis of environmental water samples.

Published
2011
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50. Quantitative polymerase chain reaction (PCR) for detection of aquatic animal pathogens in a diagnostic laboratory setting.

Author

Purcell MK, Getchell RG, McClure CA, and Garver KA

Subjects
Animals, Real-Time Polymerase Chain Reaction methods, Real-Time Polymerase Chain Reaction standards, Reproducibility of Results, Sensitivity and Specificity, Animal Diseases diagnosis, Laboratories, Real-Time Polymerase Chain Reaction veterinary
Abstract

Real-time, or quantitative, polymerase chain reaction (qPCR) is quickly supplanting other molecular methods for detecting the nucleic acids of human and other animal pathogens owing to the speed and robustness of the technology. As the aquatic animal health community moves toward implementing national diagnostic testing schemes, it will need to evaluate how qPCR technology should be employed. This review outlines the basic principles of qPCR technology, considerations for assay development, standards and controls, assay performance, diagnostic validation, implementation in the diagnostic laboratory, and quality assurance and control measures. These factors are fundamental for ensuring the validity of qPCR assay results obtained in the diagnostic laboratory setting.

Published
2011
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