Histopathologic aspects in <i>Plagioscion squamosissimus</i> (HECKEL, 1940) induced by   <i>Neoechinorhynchus veropesoi,</i> metacestodes and anisakidae juveniles

Melo, Francisco Tiago de Vasconcelos; Rodrigues, Rogério Antonio Ribeiro; Giese, Elane Guerreiro; Gardner, Scott Lyell; Santos, Jeannie Nascimento dos

doi:10.1590/S1984-29612014048

Abstracts

Plagioscion squamosissimus (Heckel 1840), a fish endemic to the Amazon Basin and commonly known as the “silver croaker”, plays an important role in the ecology and economy of Pará State, Brazil. Knowledge of host-parasite relationships is important to understanding the role of parasites in the control of natural host populations. This work describes histopathological aspects caused by several common intestinal parasites found during a helminthological survey of fish in northern Brazil. We observed a high prevalence of helminth infection, especially by J3 nematode juveniles of the family Anisakidae and metacestodes of the family Protocephalidae (both with 100% prevalence). An external capsule surrounded each juvenile with numerous juveniles inside sac-like structures formed of connective tissue. Inflammation was observed to be caused by infection of metacestodes, reaching the intestinal muscularis mucosa. Neoechinorhynchus veropesoi (38% prevalence) was found in the small intestine of P. squamosissimus, invading the mucosa, submucosa, and internal muscularis of the intestine causing intense inflammation. Histopathology of host-parasite relationships in fish has been rare, and the pathology of parasites in P. squamosissimus is described herein.

Host-parasite relationship; histopathology; Plagioscion squamosissimus ; Neoechinorhynchus veropesoi ; metacestodes; Anisakidae

Plagioscion squamosissimus (Heckel, 1840) é uma espécie de peixe endêmico da Bacia Amazônica e comumente conhecido como “pescada branca” e é de extrema importância ambiental e comercial no Estado do Pará. O estudo das relações parasito-hospedeiro são importantes para a compreensão do papel dos parasitas no ambiente. O presente trabalho descreve aspectos histopatológicos causados por helmintos intestinais e cavitários encontrados parasitando P. squamosissimus de Belém, PA. As larvas da família Anisakidade e metacestóides (Proteocephalidae) (ambos prevalência de 100%) encontravam-se recobertas por uma cápsula de tecido conjuntivo do hospedeiro, sendo observada fraca reação inflamatória para larvas de Anisakidae, no entanto observou-se que metacestoides embebidos na muscular interna apresentaram um infiltrado inflamatório. Neoechinorhynchus veropesoi (prevalência de 38%) encontrava-se embebido na camada muscular interna do intestino, induzindo reação inflamatória mais intensa. Estudos evidenciando as reações histopatológicas em peixes são raros, no entanto são de extrema importância para a compreensão das relações parasito-hospedeiro.

Relação parasito-hospedeiro; histopatologia; Plagioscion squamosissimus ; Neoechinorhynchus veropesoi ; metacestódeos; Anisakidae

Introduction

Plagioscion squamosissimus (Heckel 1840) is a fish endemic to the Amazon Basin; its diet includes crustaceans, molluscs, and small fishes (CASATTI, 2005Casatti L. Revision of the South American freshwater genus Plagioscion (Teleostei, Perciformes, Sciaenidae). Zootaxa 2005; 1080: 39-64.). As has been shown in previous research on this species, the diversity of helminth parasites is directly related to what they eat. During development from fry to adult, they ingest large quantities of the intermediate hosts of several groups of parasites (EIRAS, 1994Eiras JC. Elementos de ictioparasitologia. Porto: Fundação Eng. Antônio de Almeida; 1994. 339 p.; SARAIVA, 1994Saraiva AMPM. Contribuição para o conhecimento da parasitofauna da enguia Europeia Anguilla anguilla. L. [Tese]. Porto: Universidade do Porto; 1994.; MALTA et al., 2001Malta JCO, Gomes ALS, Andrade SMS, Varella AMB. Infestações maciças por acantocéfalos, Neoechinorhynchus buttnerae Golvan, 1956, (Eoacanthocephala: Neoechinorhynchidae) em tambaquis jovens, Colossoma macropomum (Cuvier, 1818) cultivados na Amazônia central. Acta Amazon 2001; 31(1): 133-43.).

Parasites are very common in fish, especially in natural environments where ecological requirements for intermediate hosts and parasite transmission are met. In wild populations, parasites and diseases can modulate host dynamics, causing rapid population declines (FEIST; LONGSHAW, 2008Feist SW, Longshaw M. Histopathology of fish parasite infections: importance for populations. J Fish Biol 2008; 73(9): 2143-60. http://dx.doi.org/10.1111/j.1095-8649.2008.02060.x
http://dx.doi.org/10.1111/j.1095-8649.20... ). In aquaculture, parasites are an important cause of mortality, with considerable impacts on growth, resistance, and susceptibility to predation; in certain cases, they affect commercial interests and impact local economies (THATCHER, 2006Thatcher VE. Amazon fish parasites. 2nd ed. Sofia: Pensoft Publishers; 2006. 508 p.; WOO, 2006Woo PTK. Fish diseases and disorders: protozoan and metazoan infections. 2nd ed. Wallingford: CAB International; 2006. v. 1. PMid:17150122 PMCid:PMC1635005.).

In the Brazilian Amazon, P. squamosissimus has an important environmental and economic role. This species is an important component of the food web, and more than 10 tons are produced for sale each year in Belém, Pará State, Brazil (BARTHEM, 1985Barthem RB. Ocorrência, distribuição e biologia dos peixes da Baía de Marajó, Estuário amazônico. Bol Mus Para Emílio Goeldi 1985; 2(1): 49-69.; BRASIL, 2005Brasil. Ministério do Meio Ambiente - MMA. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis - IBAMA. Estatística da pesca 2005: Brasil, Grandes Regiões e Unidades da Federação [online]. Brasília: IBAMA/MMA; 2005 [cited 2014 Jan 10]. Available from: https://www.ibama.gov.br/category/40?download=2458%3A2005.pdf
https://www.ibama.gov.br/category/40?dow... ).

Host responses to parasite infection are important to provide an understanding how parasites may impact host fitness, the dynamics of host populations, and possible indirect consequences for non-host populations through changes in the intensity of interspecific competition (FEIST; LONGSHAW, 2008Feist SW, Longshaw M. Histopathology of fish parasite infections: importance for populations. J Fish Biol 2008; 73(9): 2143-60. http://dx.doi.org/10.1111/j.1095-8649.2008.02060.x
http://dx.doi.org/10.1111/j.1095-8649.20... ).

During a survey of the helminth fauna of P. squamosissimus in Guajará Bay, MELO et al. (2013)Melo FTV, Costa PAFB, Giese EG, Gardner SL, Santos JN. A description of Neoechinorhynchus (Neoechinorhynchus) veropesoi n. sp. (Acanthocephala: Neoechinorhynchidae) from the intestine of the Silver croaker fish Plagioscion squamosissimus (Heckel, 1840) (Osteichthyes: Sciaenidae) off the east coast of Brazil. J Helminthol 2013; (In press): 1-8. found a new species of acanthocephalan and a high prevalence of both metacestodes and juveniles of nematodes of Anisakidae. The present paper describes histopathological changes caused by the intestinal parasites common in this species of fish.

Materials and Methods

Between February 2007 and August 2010, 29 specimens of P. squamosissimus were obtained from a local fisherman, who caught them in the estuary of the Guamá River and the neighbouring Guajará Bay, adjacent to the city of Belém (1° 15′ S-1° 29′S, 48° 32′ W-48° 29′ W) in the Brazilian state of Pará, in the eastern Amazon basin of Brazil. The fish were transported to the “Laboratorio de Biologia Celular e Helmintologia Profa. Dra. Reinalda Marisa Lanfredi” where necropsies were performed. The worms were rinsed in phosphate-buffered saline (PBS) and fixed in alcohol-formalin acetic acid (AFA). The parasites were identified using standard methods (AMATO et al., 1991Amato JFR, Boeger WA, Amato SB. Coleta e processamento de parasitas de pescado. 1. ed. Seropédica: UFRRJ; 1991. 81 p. (Protocolos para Laboratório).).

Sections of the intestines of the fish were fixed in 2.5% glutaraldehyde in 0.1 M sodium cacodylate buffer (pH 7.4), dehydrated and embedded in paraffin and methacrylate resin (LEICA Historesin, Heidelberg, Baden-Wurttemburg, Germany) (SILVA et al., 2013Silva JP, da Silva DC, Melo FT, Giese EG, Furtado AP, Santos JN. Liver histopathology in the cane toad, Rhinella marina (Amphibia: Bufonidae), induced by Ortleppascaris sp. larvae (Nematoda: Ascarididae). J Parasitol 2013; 99(2): 250-6. PMid:22989059. http://dx.doi.org/10.1645/GE-3215.1
http://dx.doi.org/10.1645/GE-3215.1... ). Specimens embedded in the paraffin blocks were sectioned at 4-6 µm thickness, placed on glass slides, and stained with hematoxylin and eosin (H&E) and 1% toluidine blue (TB). The slides were then analysed using an Olympus BX53 light microscope equipped with an Olympus DP72 camera and image-acquisition system (Olympus America Inc.).

Results

Of 29 specimens of P. squamosissimus, 11 presented acanthocephalans in the intestine (prevalence of 38%), and 100% were infected with metacestodes and Anisakidae juveniles (intensity of infection ranged from 1 to 452 parasites per host).

The anisakid juveniles were found encapsulated in a sac composed by conjunctive-tissue comprised of numerous thin, membranous capsules, ovoid-to-spherical in shape, each containing a single juvenile, in the body cavity surrounding the internal organs of the host (Figure 1A). The cysts were surrounded by aggregates of macrophages and an amorphous material (Figures 1B-D) and the macrophages were occasionally observed between the fibres of the cyst wall. The juveniles removed from the tissues were compared to the morphological features and sizes reported by Moravec (1998)Moravec F. Nematodes of freshwater fish of the Neotropical region. Praga: Academia; 1998., and we determined that they were stage 3 juveniles (J3) of the family Anisakidae; however, the nematodes were not identified. Juveniles were found encapsulated in the peritoneal serosa surrounding the outer surface of the internal organs (Figure 1B). Each juvenile nematode was confined in a cyst with thick walls composed mainly of fibroblasts and collagenous fibres.

Figure 1.
Anatomical view and histopathological aspects of AnisakidaeJ3 juveniles from the mesenteries of Plagioscion squamosissimus (paraffin-embedded). A) Coelomatic cavity of host infected with Anisakidae J3 juveniles (arrow) in the mesenteries, covering the small intestine (si). Bar: 1 cm. B) Histological aspects of AnisakidaeJ3 juveniles (arrows) in the mesenteries of Plagioscion squamosissimus; the muscularis (m) and serosa (s)layers are visible. The nematode juveniles are not directly attached to the small-intestine serosa and are connected by fibrous host tissue (arrowheads).(TB).Bar: 200 µm. C) Detailed view of a helminth in transverse section showing the intestinal lumen (il), the characteristics of the intestinal cells (ic), the nematode cuticle (c) and the fibrous wall of the cyst (cw) surrounded by macrophage agglomerates (MA). (H&E). Bar: 50 µm. D) Detail of the transverse section showing the histological aspects of the nematode cuticle (c)and the cyst wall (cw), composed of numerous fibroblasts. (H&E). Bar: 20 µm. E)Detail of the cyst wall; numerous fibroblasts are visible (arrows). (H&E). Bar: 10 µm.

The morphological characteristics of the nematodes themselves were studied, having been taken from various organs of the host. The tissues of the intestines of the nematodes were observed to be composed one layer of cells with granular inclusions (Figure 1C). Also evident was the striated cuticle of the juvenile nematode (Figures 1C, D).

Cestode larvae were found to occur in the tissues of the host either alone (in cysts in the peritoneal lining) or with juvenile anisakids embedded near the cyst of the metacestode (Figure 2A). The metacestodes were individually removed from the cysts, and the morphological features of the larvae were compared to the key and descriptions of Rego et al. (1999)Rego AA, Chubb JC, Pavanelli GC. Cestodes in South American freshwater teleost fishes: keys to genera and brief description of species. Rev Bras Zool 1999; 16(2): 299-367. http://dx.doi.org/10.1590/S0101-81751999000200003
http://dx.doi.org/10.1590/S0101-81751999... ; the metacestodes were identified as plerocercoids of the family Proteocephalidae. Some larvae were found in the external muscularis mucosa of the small intestine, enveloped by a cyst wall composed of fibroblasts. One or more larvae were observed in each cyst, (Figures 2B-D); each metacestode had an individual cyst membrane with amorphous material between the larval cyst and the cyst wall (Figures 2C, D). The morphology of the larvae in histological sections show details of the elliptical larval body, with non invaginated/retracted scolex or primary lacuna, a simple apical organ, and suckers presenting spine-like structures (Figures 2D, E). An inflammatory granulomatous reaction was observed in the external muscular layer close to the cyst; however, the accumulated macrophages were hypertrophied, suggesting the beginning of cell degeneration (Figures 2C, F).

Figure 2.
Anatomical view and histopathological aspects of metacestodes parasitising the mesenteries of P. squamosissimus. (Historesin-embedded, Toluidine blue 1%). A) General view of the connective tissue sacs with numerous rounded metacestode cysts. Bar: 1 cm. B)Histological aspects of a metacestode cyst (mc)infiltrating the external muscular layers (em) of the small intestine. (im) internal muscular layer. Bar: 100 µm. C) Detailed view of a cyst containing two metacestodes (mc); the cyst wall and the inflammatory reaction, which is characterised by macrophage accumulation (arrows), is shown. Bar: 50 µm. D) Histological features of a metacestode cyst. The cyst wall (cw), the amorphous material between the cyst wall and the larva (*), the suckers (s) and the apical organ (ao) are shown. Bar: 20 µm. E) Detailed view of the suckers, showing the spine-like structures (arrows). Bar: 20 µm. F) Detailed view of the macrophage agglomeration observed in the external muscular layer. Bar: 20 µm. Inset: hypertrophied cells. Bar: 2 µm.

The acanthocephala was identified as Neoechinorhynchus veropesoi, recently described by Melo et al. (2013)Melo FTV, Costa PAFB, Giese EG, Gardner SL, Santos JN. A description of Neoechinorhynchus (Neoechinorhynchus) veropesoi n. sp. (Acanthocephala: Neoechinorhynchidae) from the intestine of the Silver croaker fish Plagioscion squamosissimus (Heckel, 1840) (Osteichthyes: Sciaenidae) off the east coast of Brazil. J Helminthol 2013; (In press): 1-8.. In the sites of attachment of this worm, the structure of the intestine were damaged; the proboscis of the parasite penetrated the mucosal layer, causing lesions (Figure 3A), with hypertrophy of macrophages, and necrosis (Figures 3B, C). The tissue section close to insertion of the proboscis showed the proboscis-hook insertion point, with marked cellular injury, cell hypertrophy, and necrosis; some cells showed pyknotic or fragmented nuclei and karyolysis with no visible limitations of the cytoplasm.

Figure 3.
Histological aspects of small intestine tissues of P. squamosissimus parasitized by Neoechinorhynchus veropesoi (Paraffin embedded). A) General view of a parasitized intestine showing N. veropesoi (arrow) invading the mucosa and reaching the submucosal and internal muscular intestinal layers (im); the inflammatory reaction is also shown (arrowhead). Note em = external muscular layer. (H&E). Bar: 100 µm. B)Detailed view of a parasite embedded in the intestine and surrounded by macrophages. (H&E). Bar: 50 µm. C)Detailed view of the parasite attachment region. Note the anterior proboscis hook (arrow). (TB). Bar: 50 µm.

Discussion

Host reactions to extra-intestinal parasites usually culminate in the formation of a cystic capsule that isolates the helminth from the host tissues (WOO, 1992Woo PTK. Immunological responses of fish to parasitic organisms. Annu Rev Fish Dis 1992; 2: 339-66. http://dx.doi.org/10.1016/0959-8030(92)90070-E
http://dx.doi.org/10.1016/0959-8030(92)9... ; HUIZINGA; NADAKAVUKAREN, 1997Huizinga HW, Nadakavukaren MJ. Cellular responses of goldfish, Carassius auratus (L.), to metacercariae of Ribeiroia marini (Faust and Hoffman, 1934). J Fish Dis 1997; 20(6): 401-8. http://dx.doi.org/10.1046/j.1365-2761.1997.00311.x
http://dx.doi.org/10.1046/j.1365-2761.19... ). The initial response is characterised by a non-specific cellular inflammatory response against the parasite that results in granulomatous encapsulation and fibroblast deposition (WOO, 1992Woo PTK. Immunological responses of fish to parasitic organisms. Annu Rev Fish Dis 1992; 2: 339-66. http://dx.doi.org/10.1016/0959-8030(92)90070-E
http://dx.doi.org/10.1016/0959-8030(92)9... ).

An external capsule surrounded each larva, and numerous larvae were present within sac-like structures formed from connective tissue. Such capsules were observed by Margolis (1970)Margolis L. Nematode disease of marine fishes. In: Sniezko SF. A Symposium on diseases of fishes and shellfishes. Washington: American Fisheries Society; 1970. p. 190-208. in Melanogrammus aeglefinus parasitized by Anisakis simplex juveniles, by Miyazaki et al. (1988)Miyazaki T, Rogers WA, Semmens KJ. Gastrointestinal histopathology of paddlefish, Polyodon spathula (Walbaum), infected with larval Hysterothylacium dollfusi Schmidt, Leiby & Kritsky, 1974. J Fish Dis 1988; 11(3): 245-50. http://dx.doi.org/10.1111/j.1365-2761.1988.tb00545.x
http://dx.doi.org/10.1111/j.1365-2761.19... in Polyodon spathula and by Dezfuli et al. (2007)Dezfuli BS, Pironi F, Shinn AP, Manera M, Giari L. Histopathology and ultrastructure of Platichthys flesus naturally infected with Anisakis simplex s.l. larvae (Nematoda: Anisakidae). J Parasitol 2007; 93(6): 1416-23. PMid:18314688. http://dx.doi.org/10.1645/GE-1214.1
http://dx.doi.org/10.1645/GE-1214.1... in Platichthys flesus; however, this is the first report of this sac-like structure and the first report of such a high parasite burden in this hosts species.

In studies of salmonids from Chitose River, Urawa (1986)Urawa S. The parasites of salmonid fishes-II. The biology of anisakid nematodes and the prevention of their human infections. Fish and Eggs 1986; 156: 52-70. and Sugawara et al., (2004) reported that the mean intensity of infection increased during the years of the study, ranging between 9.5 and 30 parasites per fish. Subsequently, Urawa and Fujisaki (2006) observed a greater range of intensity of infection than was previously recorded (11-393); however, more extensive infections were observed in P. squamosissimus (1-452 parasites), and the authors did not report the presence of a sac-like structure.

Macrophage agglomerates (MAs) and amorphous material surrounding the external capsule in anisakid juveniles were also observed in our specimens. The MAs in fish are most likely a result of a chronic inflammation; such responses play an important role in the recruitment of other immune cells and the release of chemical factors responsible for the fibrous tissue that surrounds and isolates the parasite. However, Dezfuli et al. (2007)Dezfuli BS, Pironi F, Shinn AP, Manera M, Giari L. Histopathology and ultrastructure of Platichthys flesus naturally infected with Anisakis simplex s.l. larvae (Nematoda: Anisakidae). J Parasitol 2007; 93(6): 1416-23. PMid:18314688. http://dx.doi.org/10.1645/GE-1214.1
http://dx.doi.org/10.1645/GE-1214.1... presented the first report of MAs very close to the juveniles, unlike those observed in P. squamosissimus from the Amazon.

An external capsule was also observed in the metacestodes occurring in P. squamosissimus; additionally, we observed an intense inflammatory reaction in the external muscular layer of the intestine (muscularis mucosa) close to the cyst wall. Few studies have reported on the pathological alterations produced by Proteocephalidae larvae encysted in the tissues of fishes. As in P. squamosissimus from Amazonia, larval stages in the intestinal tissues of Astronotus sp. induced an intense haemorrhagic reaction (THATCHER, 1981Thatcher VE. Patologia de peixes da Amazônia Brasileira, 1. Aspectos gerais. Acta Amazon 1981; 11(1): 125-40.). Similarly, Schäffer et al. (1992)Schäffer GV, Rego AA, Pavanelli GC. Peritoneal and visceral cestode larvae in Brazilian freshwater fishes. Mem Inst Oswaldo Cruz 1992; 87(S1): 257-8. http://dx.doi.org/10.1590/S0074-02761992000500048
http://dx.doi.org/10.1590/S0074-02761992... described intense infections of Proteocephallidae larvae in Pseudoplatystoma corruscans, P. fasciatus, and Astronotus ocellatus characterised by numerous nodules in the peritoneum and inside the liver and spleen parenchyma containing encysted larvae and a hepatic inflammatory reaction. These histopathological aspects are similar to our findings in P. squamosissimus; however, we observed inflammation in the muscular wall of the intestine.

Infection with N. veropesoi caused deep and irreversible mechanical damage to the host tissues due to the attachment of the proboscis. This invasion affected the architecture of the intestinal tissues, leading to cellular changes, degeneration of the intestinal villi, haemorrhagic reactions, and proliferation of granular tissues that affect absorption. These pathological features were similar to those observe in Piaractus mesopotamicusby Ferraz de Lima et al. (1990) in Catostomus columbianusby Amin and Heckmann (1992)Amin OM, Heckmann RA. Description and pathology of Neoechinorhynchus idahoensis n. sp. (Acanthocephala:Neoechinorhynchid ae) in Catostomus columbianus from Idaho. J Parasitol 1992; 78(1): 34-9. PMid:1738067. http://dx.doi.org/10.2307/3283682
http://dx.doi.org/10.2307/3283682... and in Prochilodus lineatus by Martins et al. (2001)Martins ML, de Moraes FR, Fujimoto RY, Onaka EM, Quintana CIF. Prevalence and histopathology of Neoechinorhynchus curemai Noronha, 1973 (Acanthocephala: Neoechinorhynchidae) in Prochilodus lineatus Valenciennes, 1836 from Volta Grande reservoir, MG, Brazil. Braz J Biol 2001; 61(3): 517-22. PMid:11706580. http://dx.doi.org/10.1590/S1519-69842001000300022
http://dx.doi.org/10.1590/S1519-69842001... ; however, Malta et al. (2001)Malta JCO, Gomes ALS, Andrade SMS, Varella AMB. Infestações maciças por acantocéfalos, Neoechinorhynchus buttnerae Golvan, 1956, (Eoacanthocephala: Neoechinorhynchidae) em tambaquis jovens, Colossoma macropomum (Cuvier, 1818) cultivados na Amazônia central. Acta Amazon 2001; 31(1): 133-43. did not observe such alterations in Colossoma macropomum. Thatcher (1981)Thatcher VE. Patologia de peixes da Amazônia Brasileira, 1. Aspectos gerais. Acta Amazon 1981; 11(1): 125-40. observed that intestinal occlusion was common in individual fish infected with a large number of Neoechinorhynchussp. (host Colossoma macropomum) and Gorytocephalus elongorchis (Neoechinorhynchidae; host Plecostomus carinatus), although only a weak inflammatory reaction was observed in the intestinal epithelium.

Fish that harbor acanthocephalans are usually asymptomatic, especially when the parasites are attached only to the epithelial mucosa. However, deeply embedded forms, such as those observed here, can cause formation of extensive granulomas and subsequent fibrosis, thereby diminishing the effectiveness of intestinal absorption and significantly affecting the host's growth, immune response, and susceptibility to infection by other pathogens. In some cases, massive infections can cause intestinal obstruction or perforation of the intestinal wall or the proboscis can protrude into the coelom or attach its hooks to a different organ, as previously observed by Thatcher (1981Thatcher VE. Patologia de peixes da Amazônia Brasileira, 1. Aspectos gerais. Acta Amazon 1981; 11(1): 125-40., 2006Thatcher VE. Amazon fish parasites. 2nd ed. Sofia: Pensoft Publishers; 2006. 508 p.).

Some studies of host-parasite relationships have used histopathological features to evaluate the host response to different groups of helminths; however, the pathogenesis of parasites in P. squamosissimus in the eastern Amazonian lowlands of Brazil was described here for the first time.

We are grateful to Djane Clarys Baía da Silva, Tássia Fernanda F. Gomes and Thais Reis from the Federal University of Pará for their valuable assistance. Financial support for this study was provided by the CAPES Foundation, Ministry of Education of Brazil (grants CAPES-PROCAD NF/2009, CAPES-PARASITOLOGIA BÁSICA/2010 and Sandwich Doctorate Scholarship no. 9489/12-2) to PROPESP/FADESP-UFPA, and “Pró-Reitoria de Pesquisa e Desenvolvimento Tecnológico” (PROPED) from Federal Rural University of Amazon (Scholarship for scientific initiation). Part of this study was funded by a grant to FTVM by the Harold W. Manter Laboratory of Parasitology, University of Nebraska-Lincoln, USA. This study is part of the doctoral dissertation of FTVM in the Biology of Infectious and Parasitic Agents/ICB-UFPA, Belém, Pará, Brazil.

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» http://dx.doi.org/10.2307/3283682
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» http://dx.doi.org/10.1645/GE-1214.1
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» http://dx.doi.org/10.1111/j.1095-8649.2008.02060.x
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» http://dx.doi.org/10.1046/j.1365-2761.1997.00311.x
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Martins ML, de Moraes FR, Fujimoto RY, Onaka EM, Quintana CIF. Prevalence and histopathology of Neoechinorhynchus curemai Noronha, 1973 (Acanthocephala: Neoechinorhynchidae) in Prochilodus lineatus Valenciennes, 1836 from Volta Grande reservoir, MG, Brazil. Braz J Biol 2001; 61(3): 517-22. PMid:11706580. http://dx.doi.org/10.1590/S1519-69842001000300022
» http://dx.doi.org/10.1590/S1519-69842001000300022
Melo FTV, Costa PAFB, Giese EG, Gardner SL, Santos JN. A description of Neoechinorhynchus (Neoechinorhynchus) veropesoi n. sp. (Acanthocephala: Neoechinorhynchidae) from the intestine of the Silver croaker fish Plagioscion squamosissimus (Heckel, 1840) (Osteichthyes: Sciaenidae) off the east coast of Brazil. J Helminthol 2013; (In press): 1-8.
Miyazaki T, Rogers WA, Semmens KJ. Gastrointestinal histopathology of paddlefish, Polyodon spathula (Walbaum), infected with larval Hysterothylacium dollfusi Schmidt, Leiby & Kritsky, 1974. J Fish Dis 1988; 11(3): 245-50. http://dx.doi.org/10.1111/j.1365-2761.1988.tb00545.x
» http://dx.doi.org/10.1111/j.1365-2761.1988.tb00545.x
Moravec F. Nematodes of freshwater fish of the Neotropical region. Praga: Academia; 1998.
Rego AA, Chubb JC, Pavanelli GC. Cestodes in South American freshwater teleost fishes: keys to genera and brief description of species. Rev Bras Zool 1999; 16(2): 299-367. http://dx.doi.org/10.1590/S0101-81751999000200003
» http://dx.doi.org/10.1590/S0101-81751999000200003
Saraiva AMPM. Contribuição para o conhecimento da parasitofauna da enguia Europeia Anguilla anguilla. L. [Tese]. Porto: Universidade do Porto; 1994.
Schäffer GV, Rego AA, Pavanelli GC. Peritoneal and visceral cestode larvae in Brazilian freshwater fishes. Mem Inst Oswaldo Cruz 1992; 87(S1): 257-8. http://dx.doi.org/10.1590/S0074-02761992000500048
» http://dx.doi.org/10.1590/S0074-02761992000500048
Silva JP, da Silva DC, Melo FT, Giese EG, Furtado AP, Santos JN. Liver histopathology in the cane toad, Rhinella marina (Amphibia: Bufonidae), induced by Ortleppascaris sp. larvae (Nematoda: Ascarididae). J Parasitol 2013; 99(2): 250-6. PMid:22989059. http://dx.doi.org/10.1645/GE-3215.1
» http://dx.doi.org/10.1645/GE-3215.1
Sugawara Y, Urawa S, Kaeriyama M. Infection of Anisakis simplex (Nematoda: Anisakidae) larvae in chum salmon (Oncorhynchus keta) in the North Pacific Ocean, Bering Sea, and a river of Hokkaido. Sapporo: Hokkaido Tokai University; 2004. 14 p. (NPAFC Doc. 791).
Thatcher VE. Amazon fish parasites. 2nd ed. Sofia: Pensoft Publishers; 2006. 508 p.
Thatcher VE. Patologia de peixes da Amazônia Brasileira, 1. Aspectos gerais. Acta Amazon 1981; 11(1): 125-40.
Urawa S, Fujisaki Y. Heavy infections of Anisakis simplex (Nematoda: Anisakidae) larvae in the muscle of maturing chum salmon: a preliminary report. Toyohira-ku: National Salmon Resources Center, Fisheries Research Agency; 2006. 6 p. (NPAFC Doc. 993).
Urawa S. The parasites of salmonid fishes-II. The biology of anisakid nematodes and the prevention of their human infections. Fish and Eggs 1986; 156: 52-70.
Woo PTK. Fish diseases and disorders: protozoan and metazoan infections. 2nd ed. Wallingford: CAB International; 2006. v. 1. PMid:17150122 PMCid:PMC1635005.
Woo PTK. Immunological responses of fish to parasitic organisms. Annu Rev Fish Dis 1992; 2: 339-66. http://dx.doi.org/10.1016/0959-8030(92)90070-E
» http://dx.doi.org/10.1016/0959-8030(92)90070-E

Data availability

Data citations

Brasil. Ministério do Meio Ambiente - MMA. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis - IBAMA. Estatística da pesca 2005: Brasil, Grandes Regiões e Unidades da Federação [online]. Brasília: IBAMA/MMA; 2005 [cited 2014 Jan 10]. Available from: https://www.ibama.gov.br/category/40?download=2458%3A2005.pdf

Publication Dates

Publication in this collection
Apr-Jun 2014

History

Received
28 Feb 2014
Accepted
5 June 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[2] Amin OM, Heckmann RA. Description and pathology of Neoechinorhynchus idahoensis n. sp. (Acanthocephala:Neoechinorhynchid ae) in Catostomus columbianus from Idaho. J Parasitol 1992; 78(1): 34-9. PMid:1738067. http://dx.doi.org/10.2307/3283682
» http://dx.doi.org/10.2307/3283682

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[4] Brasil. Ministério do Meio Ambiente - MMA. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis - IBAMA. Estatística da pesca 2005: Brasil, Grandes Regiões e Unidades da Federação [online]. Brasília: IBAMA/MMA; 2005 [cited 2014 Jan 10]. Available from: https://www.ibama.gov.br/category/40?download=2458%3A2005.pdf
» https://www.ibama.gov.br/category/40?download=2458%3A2005.pdf

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» http://dx.doi.org/10.1645/GE-1214.1

[7] Eiras JC. Elementos de ictioparasitologia. Porto: Fundação Eng. Antônio de Almeida; 1994. 339 p.

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» http://dx.doi.org/10.1111/j.1095-8649.2008.02060.x

[9] Ferraz de Lima CLB, Ceccarelli PS, Reis NS. Aspectos histopatológicos da acantocefalose em Piaractus mesopotamicus Plagioscion squamosissimus (Heckel, 1840), nos açudes do Nordeste. Bol Téc CEPTA 1990; 3(1): 55-63.

[10] Huizinga HW, Nadakavukaren MJ. Cellular responses of goldfish, Carassius auratus (L.), to metacercariae of Ribeiroia marini (Faust and Hoffman, 1934). J Fish Dis 1997; 20(6): 401-8. http://dx.doi.org/10.1046/j.1365-2761.1997.00311.x
» http://dx.doi.org/10.1046/j.1365-2761.1997.00311.x

[11] Malta JCO, Gomes ALS, Andrade SMS, Varella AMB. Infestações maciças por acantocéfalos, Neoechinorhynchus buttnerae Golvan, 1956, (Eoacanthocephala: Neoechinorhynchidae) em tambaquis jovens, Colossoma macropomum (Cuvier, 1818) cultivados na Amazônia central. Acta Amazon 2001; 31(1): 133-43.

[12] Margolis L. Nematode disease of marine fishes. In: Sniezko SF. A Symposium on diseases of fishes and shellfishes. Washington: American Fisheries Society; 1970. p. 190-208.

[13] Martins ML, de Moraes FR, Fujimoto RY, Onaka EM, Quintana CIF. Prevalence and histopathology of Neoechinorhynchus curemai Noronha, 1973 (Acanthocephala: Neoechinorhynchidae) in Prochilodus lineatus Valenciennes, 1836 from Volta Grande reservoir, MG, Brazil. Braz J Biol 2001; 61(3): 517-22. PMid:11706580. http://dx.doi.org/10.1590/S1519-69842001000300022
» http://dx.doi.org/10.1590/S1519-69842001000300022

[14] Melo FTV, Costa PAFB, Giese EG, Gardner SL, Santos JN. A description of Neoechinorhynchus (Neoechinorhynchus) veropesoi n. sp. (Acanthocephala: Neoechinorhynchidae) from the intestine of the Silver croaker fish Plagioscion squamosissimus (Heckel, 1840) (Osteichthyes: Sciaenidae) off the east coast of Brazil. J Helminthol 2013; (In press): 1-8.

[15] Miyazaki T, Rogers WA, Semmens KJ. Gastrointestinal histopathology of paddlefish, Polyodon spathula (Walbaum), infected with larval Hysterothylacium dollfusi Schmidt, Leiby & Kritsky, 1974. J Fish Dis 1988; 11(3): 245-50. http://dx.doi.org/10.1111/j.1365-2761.1988.tb00545.x
» http://dx.doi.org/10.1111/j.1365-2761.1988.tb00545.x

[16] Moravec F. Nematodes of freshwater fish of the Neotropical region. Praga: Academia; 1998.

[17] Rego AA, Chubb JC, Pavanelli GC. Cestodes in South American freshwater teleost fishes: keys to genera and brief description of species. Rev Bras Zool 1999; 16(2): 299-367. http://dx.doi.org/10.1590/S0101-81751999000200003
» http://dx.doi.org/10.1590/S0101-81751999000200003

[18] Saraiva AMPM. Contribuição para o conhecimento da parasitofauna da enguia Europeia Anguilla anguilla. L. [Tese]. Porto: Universidade do Porto; 1994.

[19] Schäffer GV, Rego AA, Pavanelli GC. Peritoneal and visceral cestode larvae in Brazilian freshwater fishes. Mem Inst Oswaldo Cruz 1992; 87(S1): 257-8. http://dx.doi.org/10.1590/S0074-02761992000500048
» http://dx.doi.org/10.1590/S0074-02761992000500048

[20] Silva JP, da Silva DC, Melo FT, Giese EG, Furtado AP, Santos JN. Liver histopathology in the cane toad, Rhinella marina (Amphibia: Bufonidae), induced by Ortleppascaris sp. larvae (Nematoda: Ascarididae). J Parasitol 2013; 99(2): 250-6. PMid:22989059. http://dx.doi.org/10.1645/GE-3215.1
» http://dx.doi.org/10.1645/GE-3215.1

[21] Sugawara Y, Urawa S, Kaeriyama M. Infection of Anisakis simplex (Nematoda: Anisakidae) larvae in chum salmon (Oncorhynchus keta) in the North Pacific Ocean, Bering Sea, and a river of Hokkaido. Sapporo: Hokkaido Tokai University; 2004. 14 p. (NPAFC Doc. 791).

[22] Thatcher VE. Amazon fish parasites. 2nd ed. Sofia: Pensoft Publishers; 2006. 508 p.

[23] Thatcher VE. Patologia de peixes da Amazônia Brasileira, 1. Aspectos gerais. Acta Amazon 1981; 11(1): 125-40.

[24] Urawa S, Fujisaki Y. Heavy infections of Anisakis simplex (Nematoda: Anisakidae) larvae in the muscle of maturing chum salmon: a preliminary report. Toyohira-ku: National Salmon Resources Center, Fisheries Research Agency; 2006. 6 p. (NPAFC Doc. 993).

[25] Urawa S. The parasites of salmonid fishes-II. The biology of anisakid nematodes and the prevention of their human infections. Fish and Eggs 1986; 156: 52-70.

[26] Woo PTK. Fish diseases and disorders: protozoan and metazoan infections. 2nd ed. Wallingford: CAB International; 2006. v. 1. PMid:17150122 PMCid:PMC1635005.

[27] Woo PTK. Immunological responses of fish to parasitic organisms. Annu Rev Fish Dis 1992; 2: 339-66. http://dx.doi.org/10.1016/0959-8030(92)90070-E
» http://dx.doi.org/10.1016/0959-8030(92)90070-E

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