Spontaneous exophytic tumour in Nothobranchius furzeri, an aging research model

IF 2.2 3区 农林科学 Q2 FISHERIES
Jakub Žák, Ľubomír Pojezdal, Iva Dyková
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Myxomas are soft tumours formed by immature connective tissue with extensive myxoid stroma. In contrast, a fibroma is a firm tumour derived from fibrous connective tissue (Roberts, <span>2012</span>). Fibromyxomas share some traits of myxoma and fibroma and commonly consist of proliferating connective tissue characterized by neoplastic growth of stellate and spindled cells within the loose, collagenous and myxoid matrix with a low number of mitotic figures (Manera et al., <span>1997</span>; Pittman &amp; Montgomery, <span>2015</span>; Vergneau-Grosset et al., <span>2017</span>). They are typically well-vascularized and are connected to the subcutaneous musculature (Mocellin, <span>2021</span>; Song et al., <span>2016</span>). The prevalence of neoplasia in teleost fishes, including laboratory model organisms, is disproportionally biased due to frequent confusion with pathogen-induced lesions (Dyková et al., <span>2021</span>; Harshbarger, <span>1984</span>). Therefore, it is always important to test for the presence of known pathogens in the examined animal with neoplasia.</p><p>Here, we report a case of spontaneous fibromyxoma, in senescent laboratory-kept turquoise killifish <i>Nothobranchius furzeri</i>. Turquoise killifish are a rapidly aging species with a life expectancy of several months in the wild because they inhabit seasonally inundated pools in Southeast African savanna (Reichard &amp; Polačik, <span>2018</span>). In captivity, they live approximately 1 year; therefore, they have become a popular model organism in biogerontology and toxicology (Cellerino et al., <span>2016</span>; Thoré et al., <span>2021</span>).</p><p>A male 12.5 months old <i>Nothobranchius furzeri</i> (50 mm SL, strain MZCS 222; Cellerino et al., <span>2016</span>) was examined. The fish was housed individually in a 2 L tank in a recirculation system (water temperature 27.5°C, water conductivity 1.5 mS × cm<sup>−2</sup>) with 188 other fish of the same age at an accredited (12,210/2018-MZE-17214) breeding facility of the Institute of Vertebrate Biology, Czechia. The fish was euthanized by an overdose of clove oil when it was unable to dive (a common symptom in senescent <i>N. furzeri</i>; Naumann et al., <span>2023</span>). The tumour tissue sample (5 × 8 mm) was stored at −80°C until virological examination. During the fish dissection, internal organs (liver, kidney, heart, digestive tract) had a normal gross appearance and they were processed for paraffin histology (Žák et al., <span>2022</span>) together with the lesion. Tissues were stained by H&amp;E, Mason's trichrome, periodic acid Schiff reaction (PAS) and alcian blue.</p><p>To test for possible infectious agents of the neoplastic lesion, tumour tissue was screened by nested PCR for cyprinid herpesviruses (Engelsma et al., <span>2013</span>) and tested for cultivatable viruses on Common Carp Brain (CCB, Neukirch et al., <span>1999</span>), Epithelioma Papulosum Cyprini (EPC) and Bluegill Fry-2 (BF-2, Lorenzen et al., <span>1999</span>) cell lines. Paraffin sections from (a) the neoplasia under study and (b) from the kidneys of four (age 3, 4, 6 and 11 months) sentinel fish sharing the recirculation system with the specimen were stained by Ziehl-Neelsen (ZN), Gram and Grocott stains to detect bacterial and mycotic organisms respectively in the neoplasia. Kidneys were chosen for pathogen diagnostics as they were found to be the most frequently affected organ by histopathological changes in this species (Dyková et al., <span>2021</span>; Naumann et al., <span>2023</span>).</p><p>The research followed all relevant Czech national (nos. 246/1992 and 419/2012) and international (Directive 2010/63/EU) recommendations and legislative regulations in relation to the protection of research animals ensuring their welfare. Daily care and monitoring of health status followed established recommendations for this species (Naumann et al., <span>2023</span>).</p><p>Spontaneous neoplasia reports in turquoise killifish <i>Nothobranchius furzeri</i>, a key model in biogerontology and toxicology, are exceptionally rare. A first report of an exophytic mesenchymal tumour – fibromyxoma from turquoise killifish is described here. The diagnosis is based on morphological criteria. In contrast to a papilloma, the tumour was predominantly formed by connective tissue. The tumour was firm and not soft as a myxoma would be. Namely, the tumour mass contained mostly myxoid matrix with spindle and star-shaped cells with varying degrees of pleomorphism which is in accordance with the characteristics of a fibromyxoma (Manera &amp; Biavati, <span>1995</span>). Our observations matched closely with findings from <i>Tinca tinca</i> (Manera &amp; Biavati, <span>1995</span>) and mullet <i>Mugil cephalus</i> (Lopez &amp; Raibaut, <span>1981</span>). The presence of epidermal cell islets within proliferating connective tissue distinguishes our fibromyxoma from previous reports (Singaravel et al., <span>2016</span>; Stevens et al., <span>2017</span>). The neoplastic connective tissue can enclose other cell types due to its fast growth, as was reported for pigment cells in fibroma of mullet (Lopez &amp; Raibaut, <span>1981</span>). We speculate that proliferating epidermal cells gradually covered connective tissue, and during ongoing myxocollagenous stroma proliferation, epidermal cells ended up inside the neoplastic tissue. This opinion is supported by the regular presence of goblet cells (rare in papillomas) and deposits of particulate material surrounded with epidermal cells.</p><p>To our knowledge, this is the first report of an exophytic tumour in the <i>Nothobranchius</i> fishes. It has never been observed in the 15-year history of killifish breeding at the Institute of Vertebrate Biology nor during 10 field sampling campaigns. In contrast to previous assumptions (Baumgart et al., <span>2015</span>; Blažek et al., <span>2017</span>; Di Cicco et al., <span>2011</span>), spontaneous neoplasias are rare in <i>Nothobranchius</i> fishes even at advanced age (Dyková et al., <span>2021</span>) and there are only a few reports of indisputably spontaneous neoplasia in this genus (Cooper et al., <span>1983</span>; Dyková et al., <span>2020</span>; Markofsky &amp; Milstoc, <span>1979a</span>, <span>1979b</span>; Stolk, <span>1959</span>). The spontaneous origin of the neoplasia reported here is supported by morphological diagnosis, by the normal appearance of visceral organs (which would have changed colour or size when infected) and by the negative results of molecular, cultivation and staining diagnostic methods for pathogens. Similarly, an injury caused by the environment is unlikely due to constant health monitoring and innocuous breeding conditions. A lifespan of 12.5 months is among the longest lifespans for this species and the survival of 20% of the cohort to this age (together with negative results for pathogen presence in sentinel fish) suggests the absence of background infection in the colony. The tumour reported on here is rare, however, we cannot exclude that it may be more common in relation to chemical exposure as seen for various tumours in other fishes (e.g. Chen et al., <span>1996</span>). Reporting spontaneous lesions as comparative material is of particular interest for toxicologists.</p><p>The tumour grew rapidly and reached the size of the specimen's head within 3 months. It did not affect the specimen's ability to swim and eat, which is in accord with other fibromyxoma reports (Shokrpoor et al., <span>2017</span>). During the tumour's growth, it changed its smooth oval shape to a more irregular shape with a small ulceration on the surface. Ulcerations are common in large tumours (Manera &amp; Biavati, <span>1995</span>; Singaravel et al., <span>2016</span>). The fibromyxoma was benign as in other reports (Manera &amp; Biavati, <span>1995</span>; Shokrpoor et al., <span>2017</span>).</p><p>The tumour formation was likely a consequence of senescence. Organisms living in captivity beyond their natural lifespan in the wild, are more prone to neoplasia (Hochberg &amp; Noble, <span>2017</span>). This has been demonstrated in mice (Gardner et al., <span>1973</span>; Pompei et al., <span>2001</span>). Here, fibromyxoma started to develop at an advanced age corresponding to three times the maximum lifespan of wild <i>N. furzeri</i> (Žák et al., <span>2021</span>) when fish had a senescent phenotype. The diagnosed skeletal muscle atrophy may have been a senescence symptom, and the fish had (likely senescence-related) signs of low body condition including lack of liver vacuolization and no visceral adipose stores. To date, undisputably spontaneous neoplasia in <i>Nothobranchius</i> spp. have been found in advanced age (e.g. Dyková et al., <span>2020</span>; Markofsky &amp; Milstoc, <span>1979a</span>, <span>1979b</span>) but are not as frequently as previously assumed (e.g. Blažek et al., <span>2017</span>).</p><p>Fibromyxoma in humans is frequently diagnosed by immunohistochemical methods (Mocellin, <span>2021</span>; Pittman &amp; Montgomery, <span>2015</span>; Song et al., <span>2016</span>). We did not employ immunohistochemical analysis as this method is rarely suitable for tumours in teleost fishes and currently cannot be compared to mammalian findings (Groff, <span>2004</span>; Vergneau-Grosset et al., <span>2017</span>). On the other hand, the microanatomical appearance of the tumour clearly supports our diagnosis of fibromyxoma.</p><p>To our knowledge, this report describes the first known example of an exophytic fibromyxoma in turquoise killifish. We assume that tumour formation was attributed to senescence because it developed at an advanced age and was unassociated with pathogens. These findings provide new evidence of spontaneous neoplasia in <i>Nothobranchius furzeri</i>, a species previously suspected to be tumour-prone.</p><p>Conceptualization: JZ; Methodology, Validation, Formal analysis, Investigation, Resources: JZ, ID, LP; Data Curation: JZ, Writing-Original Draft: JZ, ID; Writing-Review and Editing: JZ, ID, LP; Project Administration: JZ, ID.</p><p>This research was supported by Masaryk University Specific Research (MUNI/A/1602/2023) and the Ministry of Agriculture of the Czech Republic MZE-RO0523.</p><p>The authors declare that they have no competing interests.</p>","PeriodicalId":15849,"journal":{"name":"Journal of fish diseases","volume":"47 12","pages":""},"PeriodicalIF":2.2000,"publicationDate":"2024-09-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/jfd.14021","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of fish diseases","FirstCategoryId":"97","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/jfd.14021","RegionNum":3,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"FISHERIES","Score":null,"Total":0}
引用次数: 0

Abstract

Understanding the nature and diversity of spontaneous neoplasias in a model organism is of peculiar interest to toxicologists and biogerontologists who assess their prevalence in relation to experimental treatments (Wolf et al., 2015). In fishes, exophytic neoplasias are frequently found due to their conspicuous appearance on the body (Roberts, 2012; Vergneau-Grosset et al., 2017). Papillomas are the most common exophytic epithelial fish tumours with a predominant proliferation of epidermal cells with no to little presence of connective tissue (Roberts, 2012). Other exophytic tumours are derived from connective tissue as in fibromas, myxomas and fibromyxomas. Myxomas are soft tumours formed by immature connective tissue with extensive myxoid stroma. In contrast, a fibroma is a firm tumour derived from fibrous connective tissue (Roberts, 2012). Fibromyxomas share some traits of myxoma and fibroma and commonly consist of proliferating connective tissue characterized by neoplastic growth of stellate and spindled cells within the loose, collagenous and myxoid matrix with a low number of mitotic figures (Manera et al., 1997; Pittman & Montgomery, 2015; Vergneau-Grosset et al., 2017). They are typically well-vascularized and are connected to the subcutaneous musculature (Mocellin, 2021; Song et al., 2016). The prevalence of neoplasia in teleost fishes, including laboratory model organisms, is disproportionally biased due to frequent confusion with pathogen-induced lesions (Dyková et al., 2021; Harshbarger, 1984). Therefore, it is always important to test for the presence of known pathogens in the examined animal with neoplasia.

Here, we report a case of spontaneous fibromyxoma, in senescent laboratory-kept turquoise killifish Nothobranchius furzeri. Turquoise killifish are a rapidly aging species with a life expectancy of several months in the wild because they inhabit seasonally inundated pools in Southeast African savanna (Reichard & Polačik, 2018). In captivity, they live approximately 1 year; therefore, they have become a popular model organism in biogerontology and toxicology (Cellerino et al., 2016; Thoré et al., 2021).

A male 12.5 months old Nothobranchius furzeri (50 mm SL, strain MZCS 222; Cellerino et al., 2016) was examined. The fish was housed individually in a 2 L tank in a recirculation system (water temperature 27.5°C, water conductivity 1.5 mS × cm−2) with 188 other fish of the same age at an accredited (12,210/2018-MZE-17214) breeding facility of the Institute of Vertebrate Biology, Czechia. The fish was euthanized by an overdose of clove oil when it was unable to dive (a common symptom in senescent N. furzeri; Naumann et al., 2023). The tumour tissue sample (5 × 8 mm) was stored at −80°C until virological examination. During the fish dissection, internal organs (liver, kidney, heart, digestive tract) had a normal gross appearance and they were processed for paraffin histology (Žák et al., 2022) together with the lesion. Tissues were stained by H&E, Mason's trichrome, periodic acid Schiff reaction (PAS) and alcian blue.

To test for possible infectious agents of the neoplastic lesion, tumour tissue was screened by nested PCR for cyprinid herpesviruses (Engelsma et al., 2013) and tested for cultivatable viruses on Common Carp Brain (CCB, Neukirch et al., 1999), Epithelioma Papulosum Cyprini (EPC) and Bluegill Fry-2 (BF-2, Lorenzen et al., 1999) cell lines. Paraffin sections from (a) the neoplasia under study and (b) from the kidneys of four (age 3, 4, 6 and 11 months) sentinel fish sharing the recirculation system with the specimen were stained by Ziehl-Neelsen (ZN), Gram and Grocott stains to detect bacterial and mycotic organisms respectively in the neoplasia. Kidneys were chosen for pathogen diagnostics as they were found to be the most frequently affected organ by histopathological changes in this species (Dyková et al., 2021; Naumann et al., 2023).

The research followed all relevant Czech national (nos. 246/1992 and 419/2012) and international (Directive 2010/63/EU) recommendations and legislative regulations in relation to the protection of research animals ensuring their welfare. Daily care and monitoring of health status followed established recommendations for this species (Naumann et al., 2023).

Spontaneous neoplasia reports in turquoise killifish Nothobranchius furzeri, a key model in biogerontology and toxicology, are exceptionally rare. A first report of an exophytic mesenchymal tumour – fibromyxoma from turquoise killifish is described here. The diagnosis is based on morphological criteria. In contrast to a papilloma, the tumour was predominantly formed by connective tissue. The tumour was firm and not soft as a myxoma would be. Namely, the tumour mass contained mostly myxoid matrix with spindle and star-shaped cells with varying degrees of pleomorphism which is in accordance with the characteristics of a fibromyxoma (Manera & Biavati, 1995). Our observations matched closely with findings from Tinca tinca (Manera & Biavati, 1995) and mullet Mugil cephalus (Lopez & Raibaut, 1981). The presence of epidermal cell islets within proliferating connective tissue distinguishes our fibromyxoma from previous reports (Singaravel et al., 2016; Stevens et al., 2017). The neoplastic connective tissue can enclose other cell types due to its fast growth, as was reported for pigment cells in fibroma of mullet (Lopez & Raibaut, 1981). We speculate that proliferating epidermal cells gradually covered connective tissue, and during ongoing myxocollagenous stroma proliferation, epidermal cells ended up inside the neoplastic tissue. This opinion is supported by the regular presence of goblet cells (rare in papillomas) and deposits of particulate material surrounded with epidermal cells.

To our knowledge, this is the first report of an exophytic tumour in the Nothobranchius fishes. It has never been observed in the 15-year history of killifish breeding at the Institute of Vertebrate Biology nor during 10 field sampling campaigns. In contrast to previous assumptions (Baumgart et al., 2015; Blažek et al., 2017; Di Cicco et al., 2011), spontaneous neoplasias are rare in Nothobranchius fishes even at advanced age (Dyková et al., 2021) and there are only a few reports of indisputably spontaneous neoplasia in this genus (Cooper et al., 1983; Dyková et al., 2020; Markofsky & Milstoc, 1979a, 1979b; Stolk, 1959). The spontaneous origin of the neoplasia reported here is supported by morphological diagnosis, by the normal appearance of visceral organs (which would have changed colour or size when infected) and by the negative results of molecular, cultivation and staining diagnostic methods for pathogens. Similarly, an injury caused by the environment is unlikely due to constant health monitoring and innocuous breeding conditions. A lifespan of 12.5 months is among the longest lifespans for this species and the survival of 20% of the cohort to this age (together with negative results for pathogen presence in sentinel fish) suggests the absence of background infection in the colony. The tumour reported on here is rare, however, we cannot exclude that it may be more common in relation to chemical exposure as seen for various tumours in other fishes (e.g. Chen et al., 1996). Reporting spontaneous lesions as comparative material is of particular interest for toxicologists.

The tumour grew rapidly and reached the size of the specimen's head within 3 months. It did not affect the specimen's ability to swim and eat, which is in accord with other fibromyxoma reports (Shokrpoor et al., 2017). During the tumour's growth, it changed its smooth oval shape to a more irregular shape with a small ulceration on the surface. Ulcerations are common in large tumours (Manera & Biavati, 1995; Singaravel et al., 2016). The fibromyxoma was benign as in other reports (Manera & Biavati, 1995; Shokrpoor et al., 2017).

The tumour formation was likely a consequence of senescence. Organisms living in captivity beyond their natural lifespan in the wild, are more prone to neoplasia (Hochberg & Noble, 2017). This has been demonstrated in mice (Gardner et al., 1973; Pompei et al., 2001). Here, fibromyxoma started to develop at an advanced age corresponding to three times the maximum lifespan of wild N. furzeri (Žák et al., 2021) when fish had a senescent phenotype. The diagnosed skeletal muscle atrophy may have been a senescence symptom, and the fish had (likely senescence-related) signs of low body condition including lack of liver vacuolization and no visceral adipose stores. To date, undisputably spontaneous neoplasia in Nothobranchius spp. have been found in advanced age (e.g. Dyková et al., 2020; Markofsky & Milstoc, 1979a, 1979b) but are not as frequently as previously assumed (e.g. Blažek et al., 2017).

Fibromyxoma in humans is frequently diagnosed by immunohistochemical methods (Mocellin, 2021; Pittman & Montgomery, 2015; Song et al., 2016). We did not employ immunohistochemical analysis as this method is rarely suitable for tumours in teleost fishes and currently cannot be compared to mammalian findings (Groff, 2004; Vergneau-Grosset et al., 2017). On the other hand, the microanatomical appearance of the tumour clearly supports our diagnosis of fibromyxoma.

To our knowledge, this report describes the first known example of an exophytic fibromyxoma in turquoise killifish. We assume that tumour formation was attributed to senescence because it developed at an advanced age and was unassociated with pathogens. These findings provide new evidence of spontaneous neoplasia in Nothobranchius furzeri, a species previously suspected to be tumour-prone.

Conceptualization: JZ; Methodology, Validation, Formal analysis, Investigation, Resources: JZ, ID, LP; Data Curation: JZ, Writing-Original Draft: JZ, ID; Writing-Review and Editing: JZ, ID, LP; Project Administration: JZ, ID.

This research was supported by Masaryk University Specific Research (MUNI/A/1602/2023) and the Ministry of Agriculture of the Czech Republic MZE-RO0523.

The authors declare that they have no competing interests.

Abstract Image

老化研究模型 Nothobranchius furzeri 的自发性外生肿瘤。
我们的观察结果与 Tinca tinca(Manera &amp; Biavati,1995 年)和鲻鱼 Mugil cephalus(Lopez &amp; Raibaut,1981 年)的研究结果非常吻合。在增生的结缔组织中存在表皮细胞小体,这使我们的纤维瘤有别于之前的报告(Singaravel 等人,2016 年;Stevens 等人,2017 年)。肿瘤性结缔组织由于生长迅速,可以包裹其他类型的细胞,鲻鱼纤维瘤中的色素细胞也是如此(Lopez &amp; Raibaut, 1981)。我们推测,增殖的表皮细胞逐渐覆盖结缔组织,在肌胶原基质不断增殖的过程中,表皮细胞最终进入瘤组织内部。据我们所知,这是第一份关于诺氏鲈鱼外生性肿瘤的报告。据我们所知,这是第一份关于诺氏鳞鳉外生肿瘤的报告。在脊椎动物生物学研究所 15 年的诺氏鳞鳉养殖史上,以及 10 次野外采样活动中,从未观察到过这种肿瘤。与之前的假设(Baumgart等人,2015年;Blažek等人,2017年;Di Cicco等人,2011年)相反,即使是在高龄期,自发性肿瘤在Nothobranchius鱼类中也很罕见(Dyková等人,2021年),只有在高龄期才会出现肿瘤、Dyková等人,2020;Markofsky &amp; Milstoc, 1979a, 1979b; Stolk, 1959)。形态学诊断、内脏器官的正常外观(感染时会改变颜色或大小)以及病原体的分子、培养和染色诊断方法的阴性结果都证明了本报告中的肿瘤是自发性的。同样,由于持续的健康监测和无害的饲养条件,环境造成伤害的可能性也不大。12.5 个月的寿命是该物种中最长的寿命之一,20%的鱼群能存活到这个年龄(同时哨兵鱼体内的病原体检测结果为阴性),这表明鱼群中没有背景感染。这里报告的肿瘤是罕见的,但我们不能排除它可能与接触化学物质有关,如其他鱼类的各种肿瘤(如 Chen 等人,1996 年)。将自发性病变作为对比材料进行报告对毒理学家来说特别有意义。肿瘤没有影响标本的游泳和进食能力,这与其他纤维瘤的报告一致(Shokrpoor 等人,2017 年)。肿瘤在生长过程中,由光滑的椭圆形变为更不规则的形状,表面出现小溃疡。溃疡在大型肿瘤中很常见(Manera &amp; Biavati, 1995; Singaravel et al.)与其他报告(Manera &amp; Biavati,1995 年;Shokrpoor 等人,2017 年)一样,该纤维瘤是良性的。人工饲养的生物超过了它们在野外的自然寿命,更容易发生肿瘤(Hochberg &amp; Noble, 2017)。这一点已在小鼠身上得到证实(Gardner 等人,1973 年;Pompei 等人,2001 年)。在这里,当鱼出现衰老表型时,纤维肌瘤开始出现在鱼的高龄阶段,相当于野生N. furzeri最大寿命的三倍(Žák等人,2021年)。被诊断出的骨骼肌萎缩可能是衰老的症状,而且鱼体有(可能与衰老有关的)低体况迹象,包括肝脏空泡化缺乏和内脏脂肪储存不足。迄今为止,Nothobranchius属中无可争议的自发性肿瘤已在高龄时被发现(如Dyková等人,2020年;Markofsky &amp; Milstoc, 1979a, 1979b),但并不像以前假设的那样频繁(如Blažek等人,2017年)、人类的纤维肉瘤通常通过免疫组化方法进行诊断(Mocellin,2021;Pittman &amp; Montgomery,2015;Song 等人,2016)。我们没有采用免疫组化分析,因为这种方法很少适用于远洋鱼类的肿瘤,目前也无法与哺乳动物的研究结果进行比较(Groff,2004;Vergneau-Grosset 等人,2017)。另一方面,肿瘤的显微解剖外观明确支持我们对纤维瘤的诊断。据我们所知,本报告描述了第一个已知的绿松石鳉鱼外生纤维瘤的实例。我们认为肿瘤的形成是由于衰老,因为它是在高龄时出现的,而且与病原体无关。这些发现提供了新的证据,证明以前怀疑容易发生肿瘤的物种--毛鳞鱼(Nothobranchius furzeri)发生了自发性肿瘤:JZ;方法、验证、形式分析、调查、资源:JZ、ID、LP;数据整理:撰写-初稿:JZ、ID;撰写-审稿:LP:JZ、ID;写作-审阅和编辑:JZ、ID、LP;项目管理:JZ、ID。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of fish diseases
Journal of fish diseases 农林科学-海洋与淡水生物学
CiteScore
4.60
自引率
12.00%
发文量
170
审稿时长
6 months
期刊介绍: Journal of Fish Diseases enjoys an international reputation as the medium for the exchange of information on original research into all aspects of disease in both wild and cultured fish and shellfish. Areas of interest regularly covered by the journal include: -host-pathogen relationships- studies of fish pathogens- pathophysiology- diagnostic methods- therapy- epidemiology- descriptions of new diseases
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