Gnathostomatidae nematode parasite of <i>Colomesus psittacus</i> (Osteichthyes, Tetraodontiformes) in the Ilha de Marajó, Brazilian Amazon

Pinheiro, Raul Henrique da Silva; Santana, Ricardo Luís Sousa; Melo, Francisco Tiago Vasconcelos; Santos, Jeannie Nascimento dos; Giese, Elane Guerreiro

doi:10.1590/S1984-29612017047

Abstract

The genus Gnathostoma comprises 17 species, whose adult specimens are found in the stomach serosa of animals that consume raw fish; some species of the genus are zoonotic agents. The present study describes the presence of a nematode (Gnathostomatidae) parasitizing the digestive tract of Colomesus psittacus in the Ilha de Marajó in the eastern Brazilian Amazon. Thirty specimens of C. psittacus were collected in the municipality of Soure, Ilha de Marajó, state of Pará, Brazil, transported to the laboratory, necropsied and the helminths were collected and fixed. Of the 30 fish that were studied, 16.67% were parasitized with nematodes. The nematode larvae found encysted in the intestinal serosa have anterior region with two lips, each with a pair of papillae; a cephalic bulb armed with six rows of discontinuous spines; four cervical sacs; a claviform esophagus; cuticular striations along the body; a simple excretory pore; and a short tail ending in a mucron. These morphological structures are diagnostic characters of the genus Gnathostoma, whose adults parasitize the stomach of carnivorous mammals and, rarely, the stomach of fish. However, fish, amphibians, reptiles, and birds are intermediate hosts of the third-stage larvae (L3), and humans may act as accidental hosts.

Keywords:
Gnathostoma; parasitism; estuary; puffer fish

Resumo

O gênero Gnasthostoma é composto por 17 espécies, sendo reportado o caráter zoonótico para algumas. Este trabalho descreve a presença de nematoide da família Gnathostomatidae, parasito do trato digestório de Colomesus psittacus, na Ilha de Marajó, Amazônia oriental brasileira, transportados para o laboratório, necropsiados os helmintos colhidos e fixados. Dos 30 animais analisadas 16,67% estavam parasitados por nematoides. As larvas de nematoides foram encontradas encistadas na serosa intestinal, apresentam na região anterior dois lábios com duas papilas cada, bulbo cefálico armado de 6 fileiras de espinhos descontínuos, quatro sacos cervicais, esôfago claviforme, estrias cuticulares ao longo do corpo, abertura anal simples, cauda curta, terminando em um mucron. A junção de todos esses caracteres morfológicos, são características diagnósticas para gênero Gnathostoma. Os indivíduos adultos são parasitos de estômago de mamíferos carnívoros e raramente de peixes, porém peixes, anfíbios, répteis e aves atuam como hospedeiros intermediários das larvas (L3) e o homem pode atuar como hospedeiro acidental.

Palavras-chave:
Gnasthostoma; parasitismo; estuário; baiacu

Introduction

Currently, the genus Gnathostoma (OWEN, 1836) comprises 17 species: G. spinigerum Owen, 1836; G. gracile Diesing, 1839; G. socialis Leidy, 1858; G. hispidum Fedtschenko, 1872; G. turgidum Stossich, 1902; G. doloresi Tubangui, 1925; G. americanum Travassos, 1925; G. didelphis Chandler, 1932; G. procyonis Chandler, 1932; G. nipponicum Yamaguti, 1941; G. minutum Schuurmans-Stekhoven, 1943; G. brasiliense Ruiz, 1952; G. miyazakii Anderson, 1964; G. vietnamicum Le-Van, 1965; G. malaysiaeMiyazaki & Dunn, 1965Miyazaki I, Dunn FL. Gnathostoma malaysiae sp. n. from rats on Tioman Island, Malaysia (Nematoda: Gnathostomidae). J Parasitol 1965; 51(3): 382-384. PMid:5841335. http://dx.doi.org/10.2307/3275958.
http://dx.doi.org/10.2307/3275958... ; G. binucleatum Almeyda-Artigas, 1991; and G. lamothei Bertoni-Ruiz, et al., 2005.

Although feral dogs and cats are the most commonly identified definitive hosts of Gnathostoma species, adult parasites have also been identified in tigers, leopards, lions, martens, otters, opossums, and raccoons. Frogs, snakes, birds, snails, and pigs can serve as intermediate hosts. Humans may accidentally be part of the life cycle of this nematode; however, the parasite fails to reach maturity in the human host (MCCARTHY & MOORE, 2000McCarthy J, Moore TA. Emerging helminth zoonoses. Int J Parasitol 2000; 30(12-13): 1351-1360. PMid:11113260. http://dx.doi.org/10.1016/S0020-7519(00)00122-3.
http://dx.doi.org/10.1016/S0020-7519(00)... ).

Colomesus psittacus (Bloch & Schneider, 1801) is a demersal fish found in marine-estuarine waters up to 40 m deep as well as in freshwater. It is distributed along the Gulf of Paria (Venezuela), extending to the eastern Brazilian Amazon (CERVIGÓN et al., 1992Cervigón F, Cipriani R, Fischer W, Garibaldi L, Hendrickx M, Lemus AJ, et al. Guia de Campo de las espécies comerciales marinas y de aguas salobres de la costa septentrional de Sur América. Roma: FAO; 1992.), and is found in the Amazon estuary in Brazil (CAMARGO & MAIA, 2008Camargo M, Maia T. Análise populacional do baiacu, Colomesus psittacus (Tetraodontiformes, Tetraodontidae), no estuário o rio Caeté, Costa Norte do Brasil. Uakari 2008; 4(1): 23-28.).

The study of fish pathogenic agents, especially zoonotic agents, is of great importance due to the high mortality they cause, thereby reducing the fish populations and commercial values of natural stocks (PAVANELLI et al., 2008Pavanelli GC, Eiras JC, Takemoto RM. Doenças de peixes: profilaxia, diagnóstico e tratamento. 3. ed. jun: Editora da Universidade Estadual de Maringá; 2008.). The present study describes the presence of nematodes (Gnathostomatidae) in the coelomic cavity of C. psittacus collected at the Ilha de Marajó, eastern Brazilian Amazon.

Materials and Methods

Thirty specimens of C. psittacus were caught by fishermen in the municipality of Soure (0°53'39”S, 48°7'39”W), Ilha de Marajó, state of Pará, Brazil. Fish were refrigerated and transported to the Laboratório de Histologia e Embriologia Animal - Instituto da Saúde e Produção Animal, Universidade Federal Rural da Amazônia (UFRA), campus Belém, where they were weighed and measured (total length in cm). After the biometric analysis, the animals were necropsied, and the helminths were collected. The fish organs were removed, placed in Petri dishes with saline solution, and examined using a LEICA ES2 stereomicroscope. The recovered helminths were fixed in a solution of AFA (93 parts 70% ethyl alcohol, 5 parts formaldehyde, and 2 parts glacial acetic acid), For morphological and morphometric analysis the nematodes were dehydrated in an ethanol series, clarified with lactophenol, placed on a microscope slide under a coverslip as a temporary mount, observed using a light microscope, and photographed using a LEICA DM2500 microscope with an imaging capture system. Measurements are shown in micrometers as the mean followed by the range, or as otherwise indicated. For scanning electron microscopy, the helminths were washed in phosphate-buffered saline (pH 7.0), post-fixed in 1% osmium tetroxide, dehydrated to the critical point of CO₂, metalized with gold-palladium, and analyzed with the scanning electron microscope VEGA 3 LMU/TESCAN in the Laboratório de Microscópia Eletrônica de Varredura, Instituto da Saúde e Produção Animal - Universidade Federal Rural da Amazônia - UFRA, campus Belém, state of Pará, Brazil.

Results

Of the 30 specimens of C. psittacus that were collected, 16.67% (5/30) were parasitized by third-stage larvae (L3) of a nematode encysted in the intestinal serosa; these larvae presented characteristics of species of the genus Gnathostoma.

Gnathostoma sp. (third-stage larvae) (Figures 1 and 2)

Figure 1
Light microscopy of Gnathostoma sp. (L3 larvae) parasite of C. psittacus: (a) Lateral view of cephalic region showing the cephalic bulb and the six circles of spines (arrow) and four cervical sacs (*). Bar = 500 µm; (b) Caudal region showing the anus (arrow) and mucron (m). Bar = 100 µm.

Figure 2
Scanning electron microscopy of Gnathostoma sp. (L3 Larvae) parasite of C. psittacus. (a) Apical view of the cephalic region showing six circles of discontinuous spines (*), lips (l) and three pairs of dorsal and ventral spines in the cephalic bulb (arrow). Bar = 50 µm; (b) Frontal view of the oral opening (*), cephalic papillae (p), amphid (a). Bar = 20 µm; (c) View of the three pairs of dorsal and ventral spines in the cephalic bulb (arrow). Bar = 10 µm; (d) Deirid (arrow). Bar = 20 µm; (e) Side view of the caudal region, anus (a) and mucron (m). Bar = 100 μm.

(Description based on five larvae)

Medium-sized nematodes, yellow when alive and whitish when fixed, with fine transversal cuticular striations. Cylindrical body, measuring 12 mm (10 mm-14 mm) × 415 (333-480) (width at level of esophagus-intestine junction) and no cuticular spines on the trunk. Circular oral cavity surrounded by two lateral lips with a pair of papillae on each and one amphid (Figures 2a, b). Three pairs of double spines which increase in size from anterior to posterior, situated dorsally and ventrally between the lips and the first circle of spines of the cephalic bulb (Figures 2a, c). Cephalic bulb 313 (277-387) × 340 (293-386), six discontinuous circles of spines containing I: 35, II: 39, III: 40, IV: 37, V: 35, and VI: 33 spines, respectively, which increase in size with distance from the oral cavity (Figures 1a, 2a). Nerve ring located at level of cephalic bulb, 260 (167-337) from the anterior end. Excretory pore not observed. Deirids not visible in whole mounts but visible using SEM. Claviform muscular esophagus 3 mm (2.67-3.66 mm) × 340 (293-386), occupying 25% of the body length. Two pairs of fully developed transparent contractile cervical sacs (Figure 1a) at the anterior half of the body, one on each side of esophagus, measuring 1 mm (1.18-1.84 mm), occupying 33.3% of the length of the esophagus. Short, thin tail, including terminal mucron, measuring 175 (100-216) (Figures 1b, 2e).

Taxonomic summary

Gnathostomatoidea Railliet, 1895

Gnathostomatidae Railliet, 1895

Gnathostoma Owen, 1836

Gnathostoma sp. (L3 Larvae)

Host: Colomesus psittacus (Osteichthyes, Tetraodontiformes); length and average weight of hosts: 35.5 cm and 365.5 g, respectively.

Infection site: Encysted in the intestinal serosa.

Location: Soure, state of Pará, Eastern Amazon, Brazil (0°53'39”S, 48°7'39”W).

Biome: Amazon

Prevalence: 16.67% (5 hosts infected of 30 analyzed)

Range of infection: 1-8

Deposit of Specimens: MPEG. NEM 93; MPEG. NEM 94 and MPEG. NEM 95: Coleção de Invertebrados of the Museu Paraense Emílio Goeldi (MPEG), Belém, Pará, Brazil.

Discussion

The nematodes found encysted in the intestinal serosa of C. psittacus, collected in the municipality of Soure, state of Pará, eastern Amazonia, have similar characteristics to those of other species of Gnathostoma, including the presence of a cephalic bulb armed with spines, a circular oral cavity surrounded by two lateral lips with a pair of papillae on each, an amphid, and four internal cervical sacs. Vicente et al. (1985)Vicente JJ, Rodrigues HO, Gomes DC. Nematóides do Brasil. 1º parte: Nematóides de peixes. Atlas da Sociedade de Biologia do Rio de 1985; 25: 1-79. and Moravec (1998)Moravec F. Nematodes of freshwater fishes of the neotropical region. Praha: Academia; 1998. identify these are important characters for the identification of nematodes of the family Gnathostomatidae (RAILLIET, 1985) and of Gnathostoma (OWEN, 1836). We designated these larvae as being third-stage larvae because this usually is the stage found in fish. However, third-stage larvae usually are smaller than 10 mm in length; the ones reported herein are 10-14 mm in length, a size more typical of fourth-stage larvae. Fourth-stage larvae also can have more than four rows of transverse hooks on cephalic bulb, as do these larvae. However, larvae of this size and with more than four rows of transverse hooks usually are found in mammals and not in fish.

There are few reports of larvae of Gnathostoma naturally parasitizing fish in South America. The present study is the first to report of C. psittacus as an intermediate/paratenic host of Gnathostoma. Among the vertebrate hosts that participate in the life cycle of members of this genus, fish of different families are cited as intermediate and paratenic hosts.

Previous reports of natural hosts of Gnathostoma include Channa argus (Cantor, 1842) from Japan (Miyazaki, 1954Miyazaki I. Studies on Gnathostoma occurring in Japan (Nematoda: Gnathostomatidae). II. Life history of Gnathostoma and morphological comparison of its larval forms. Kyushu Mem Med Sci 1954; 5(2): 123-139.); Oreochromis aureus (Steindachner, 1864), O. mossambicus (Peters, 1852), O. niloticus (Linnaeus, 1758), Paraneetroplus fenestratus (Günther, 1860), Cichlasoma urophthalmus (Günther, 1862), Petenia splendida (Günther, 1862), Gobiomorus dormitor Lacepède, 1800, Cathorops fuerthii (Steindachner, 1876), Pomadasys macracanthus (Günther, 1864), Mugil curema Valenciennes, 1836, Dormitator latifrons (Richardson, 1844), Chanos chanos (Forsskål, 1775), Ariopsis guatemalensis (Günther, 1864), Ariopsis seemanni (Günther, 1864), Bagre panamensis (Gill, 1863) and Millerichthys robustus (Miller & Hubbs, 1974) from México (ALMEYDA-ARTIGAS, 1991Almeyda-Artigas RJ. Hallazgo de Gnathostoma binucleatum n. sp. (Nematoda: Spirurida) en felinos silvestres y el papel de peces dulceacuícolas y oligohalinos como vectores de la Gnatostomiasis humana en la cuenca baja del Río Papaloapan, Oaxaca- Veracruz, México. An Inst Cienc del Mar y Limnol Univ Nac Autón Mex 1991; 18(2): 37-155.; ÁLVAREZ-GUERRERO & LAMOTHE-ARGUMEDO, 2000Álvarez-Guerrero C, Lamothe-Argumedo R. Larvas de Gnathostoma sp. en peces estuarinos de Nayarit. An Inst Biol Ser Zool Univ Nac Autón Mex 2000; 71(2): 179-184.; GUERRERO & ALBA-HURTADO, 2007Guerrero CA, Alba-Hurtado F. Estuarine fish and turtles as intermediate and paratenic hosts of Gnathostoma binucleatum in Nayarit, Mexico. Parasitol Res 2007; 102(1): 117-122. PMid:17924145. http://dx.doi.org/10.1007/s00436-007-0738-x.
http://dx.doi.org/10.1007/s00436-007-073... ; MOSQUEDA-CABRERA & OCAMPO-JAIMES, 2009Mosqueda-Cabrera MA, Ocampo-Jaimes A. Abnormalities on cephalic hooklets of advanced third-stage larvae from Gnathostoma Owen, 1836 (Nematoda: Gnathostomidae) collected from Mexican rivulus Millerichthys robustus Costa, 1995 (Ciprinodontiformes: Rivulidae) in Tlacotalpan, Veracruz, Mexico. Parasitol Res 2009; 105(6): 1637-1642. PMid:20162840. http://dx.doi.org/10.1007/s00436-009-1604-9.
http://dx.doi.org/10.1007/s00436-009-160... and GARCÍA-MÁRQUEZ et al., 2009García-Márquez LJ, Lamothe-Argumedo R, Osorio-Sarabia D, García-Prieto L, León-Regagnon V. Morphological and molecular identification of Gnathostoma binucleatum (Nematoda: Gnathostomatidae) advanced third stage larvae (AdvL3) in the state of Colima, Mexico. Rev Mex Biodivers 2009; 80(3): 867-870.); Misgurnus anguillicaudatus (Cantor, 1842) from Korea (SOHN & LEE, 1998Sohn WM, Lee SH. The first discovery of larval Gnathostoma hispidum (Nematoda: Gnathostomidae) from a snake host, Agkistrodon brevicaudus. Korean J Parasitol 1998; 36(2): 81-89. PMid:9637825. http://dx.doi.org/10.3347/kjp.1998.36.2.81.
http://dx.doi.org/10.3347/kjp.1998.36.2.... ); Channa striata (Bloch, 1793) from Myanmar (JUNG et al., 2008Jung BK, Lee JJ, Pyo KH, Kim HJ, Jeong HG, Yoon CH, et al. Detection of Gnathostoma spinigerum third-stage larvae in snakeheads purchased from a central part of Myanmar. Korean J Parasitol 2008; 46(4): 285-288. PMid:19127338. http://dx.doi.org/10.3347/kjp.2008.46.4.285.
http://dx.doi.org/10.3347/kjp.2008.46.4.... ) and Poecilia sp. and Monopterus spp. from the United States (ASH, 1960Ash LR. Life cycle studies on Gnathostoma procyonis Chandler, 1942, a nematode parasite of the raccoon. J Parasitol 1960; 46(5): 37., 1962Ash LR. Development of Gnathostoma procyonis Chandler, 1942, in the first and second intermediate hosts. J Parasitol 1962; 48(2): 298-305. PMid:13862797. http://dx.doi.org/10.2307/3275591.
http://dx.doi.org/10.2307/3275591... ; COLE et al., 2014Cole RA, Choudhury A, Nico LG, Griffin KM. Gnathostoma spinigerum in live Asian swamp eels (Monopterus spp.) from food markets and wild populations, United States. US Emerg Infect Dis J 2014; 20(4): 634-642. PMid:24661441. http://dx.doi.org/10.3201/eid2004.131566.
http://dx.doi.org/10.3201/eid2004.131566... ).

Natural infections of fish by advanced third-stage larvae of Gnathostoma also have been reported, such as those described by Miyazaki (1954)Miyazaki I. Studies on Gnathostoma occurring in Japan (Nematoda: Gnathostomatidae). II. Life history of Gnathostoma and morphological comparison of its larval forms. Kyushu Mem Med Sci 1954; 5(2): 123-139., who reported an infection by G. spinigerum in Channa argus in Japan, Almeyda-Artigas (1991)Almeyda-Artigas RJ. Hallazgo de Gnathostoma binucleatum n. sp. (Nematoda: Spirurida) en felinos silvestres y el papel de peces dulceacuícolas y oligohalinos como vectores de la Gnatostomiasis humana en la cuenca baja del Río Papaloapan, Oaxaca- Veracruz, México. An Inst Cienc del Mar y Limnol Univ Nac Autón Mex 1991; 18(2): 37-155., who reported the occurrence of G. binucleatum as a parasite of O. aureus, and Álvarez-Guerrero & Lamothe-Argumedo (2000)Álvarez-Guerrero C, Lamothe-Argumedo R. Larvas de Gnathostoma sp. en peces estuarinos de Nayarit. An Inst Biol Ser Zool Univ Nac Autón Mex 2000; 71(2): 179-184., who recorded the presence of Gnathostoma spp. larvae in Cathorops fuerthii and Dormitator latifrons in Mexico. Cole et al. (2014)Cole RA, Choudhury A, Nico LG, Griffin KM. Gnathostoma spinigerum in live Asian swamp eels (Monopterus spp.) from food markets and wild populations, United States. US Emerg Infect Dis J 2014; 20(4): 634-642. PMid:24661441. http://dx.doi.org/10.3201/eid2004.131566.
http://dx.doi.org/10.3201/eid2004.131566... described the parasitism of live Asian swamp eels (Monopterus spp.) by Gnathostoma spinigerum.

Species of Gnathostoma have been studied frequently in experimental infections. Ash (1962)Ash LR. Development of Gnathostoma procyonis Chandler, 1942, in the first and second intermediate hosts. J Parasitol 1962; 48(2): 298-305. PMid:13862797. http://dx.doi.org/10.2307/3275591.
http://dx.doi.org/10.2307/3275591... performed experimental infections in fish of the genus Poecilia Bloch & Schneider, 1801 and in the water snake Natrix rhombifera (Hallowell, 1852) and also reported the development of third-stage larvae in G. procyonis. In Mexico, Gaspar-Navarro et al. (2013)Gaspar-Navarro J, Almeyda-Artigas RJ, Sánchez-Miranda E, Carranza-Calderón L, Mosqueda-Cabrera MÁ. Description of advanced third-stage larvae of Gnathostoma lamothei Bertoni-Ruiz et al. 2005 (Nematoda: Gnathostomatidae) from experimental hosts and contributions to its life cycle. Parasitol Res 2013; 112(1): 169-175. PMid:23007726. http://dx.doi.org/10.1007/s00436-012-3122-4.
http://dx.doi.org/10.1007/s00436-012-312... obtained larvae of G. lamothei from Poeciliopsis gracilis (Heckel, 1848) by experimental infection.

Miyazaki (1954)Miyazaki I. Studies on Gnathostoma occurring in Japan (Nematoda: Gnathostomatidae). II. Life history of Gnathostoma and morphological comparison of its larval forms. Kyushu Mem Med Sci 1954; 5(2): 123-139. reported that the number, shape, and size of the spines; the shape of the cephalic bulb; and the location of the cephalic papillae and excretory pore are specific characteristics that distinguish different species of Gnathostoma. The morphological characterization and morphometry of the cephalic bulb are some of the main characteristics used for the differentiation of members of Gnathostomatidae (MIYAZAKI, 1960Miyazaki I. On the genus Gnathostoma and Gnathostomiasis, with special reference to Japan. Exp Parasitol 1960; 9(3): 338-370. PMid:14423082. http://dx.doi.org/10.1016/0014-4894(60)90040-0.
http://dx.doi.org/10.1016/0014-4894(60)9... ; MOSQUEDA-CABRERA & OCAMPO-JAIMES, 2009Mosqueda-Cabrera MA, Ocampo-Jaimes A. Abnormalities on cephalic hooklets of advanced third-stage larvae from Gnathostoma Owen, 1836 (Nematoda: Gnathostomidae) collected from Mexican rivulus Millerichthys robustus Costa, 1995 (Ciprinodontiformes: Rivulidae) in Tlacotalpan, Veracruz, Mexico. Parasitol Res 2009; 105(6): 1637-1642. PMid:20162840. http://dx.doi.org/10.1007/s00436-009-1604-9.
http://dx.doi.org/10.1007/s00436-009-160... ). The larvae collected from of C. psittacus in this study were morphologically different from other species that had been previously described as parasitizing fish by size, absence of spines along the body, length and number of circles of spine in the cephalic bulb, size of the esophagus, presence of three pairs of dorsal and ventral spines situated in the cephalic bulb, presence of phasmids, and a tail with a terminal mucron. The specimens found in the present study had a larger cephalic bulb (313 × 340) compared to that reported for the third-stage larvae of G. binucleatum (120 × 240), G. turgidum (46.6 × 110.3), G. spinigerum (93 × 221), G. procyonis (180 × 200), and G. lamothei (84 × 188).

Chai et al. (2015)Chai JY, Sohn WM, Na BK, Park JB, Jeoung HG, Hoang EH, et al. Larval Gnathostoma spinigerum detected in Asian swamp eels, Monopterus albus, purchased from a local market in Yangon, Myanmar. Korean J Parasitol 2015; 53(5): 619-625. PMid:26537042. http://dx.doi.org/10.3347/kjp.2015.53.5.619.
http://dx.doi.org/10.3347/kjp.2015.53.5.... suggested that the differentiation of larvae of Gnathostoma depends mainly on the number and distribution of spines on the cephalic bulb. The number of spines in each circle of the larvae in the present study ranged from 36 to 40, but the number of spines in the proximal and distal circles was constant and not, as observed by Miyazaki (1991)Miyazaki I. An illustrated book of helmintic zoonoses. Fukuoka: International Medical Foundation of Japan; 1991. variable in number.

The number of circles and the average number of spines in the cephalic bulb differentiate the specimens in our study from other species of Gnathostoma because those described herein had six discontinuous circles of spines (I: 35, II: 39, III: 40, IV: 37, V: 35, and VI: 33), which increase in size with distance from the oral cavity. In contrast, third-stage larvae of G. spinigerum, G. binucleatum, G. turgidum, G. procyonis, and G. lamothei each have four circles of spines although.

The larvae of Gnathostoma collected from C. psittacus did not have spines transversally distributed along the body as shown in photographs taken using the scanning electron microscope. However, this characteristic has been reported in different larvae of different species of the genus. Morphological and morphometric variations in the number of spines on the body also can be used to differentiate species of the genus Gnathostoma. Therefore, the specimens found in the present study differ from G. binucleatum (242-285), G. turgidum (182-202), G. spinigerum (225-256), and G. lamothei (137-258) because these species have transverse rows of spines along their bodies. Ash (1962)Ash LR. Development of Gnathostoma procyonis Chandler, 1942, in the first and second intermediate hosts. J Parasitol 1962; 48(2): 298-305. PMid:13862797. http://dx.doi.org/10.2307/3275591.
http://dx.doi.org/10.2307/3275591... , recovered larvae of G. procyonis from Poecilia spp. and Natrix rhombifera and reported the presence of small spines distributed over the body of the parasites, but the author did not specify the number of spines. Further morphometric comparisons among the larvae of Gnathostoma species are shown in Table 1.

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Table 1
Morphometric comparison of advanced third-stage larvae of Gnathostoma spp. and Gnathostoma sp. larvae collected from C. psittacus in this study.

For the first time in Brazil, Gnathostoma sp. is reported as a natural parasite of C. psittacus. Some of the morphological characteristics, including the three pairs of spines surrounding the lips, the six discontinuous circles of spines on the cephalic bulb, and the tail with a terminal mucron, are morphological data reported for the first time for larvae of this genus. Knowledge of the occurrence of larvae of Gnathostoma in fish in Brazil is relatively uncommon.

Fish have been reported as intermediate hosts of larvae of Gnathostoma (see MORAVEC, 1998Moravec F. Nematodes of freshwater fishes of the neotropical region. Praha: Academia; 1998.). However, few reports exist of these parasites in Brazilian fauna. Among the species reported in Brazil are G. gracile, an intestinal parasite of Arapaima gigas (fish) in the Amazon River Basin; G. americanum, which parasitizes the stomach of Leopardus tigrinus (mammal) in the state of Rio de Janeiro; and G. brasiliense, a parasite of the liver of Lutreolina crassicaudata (mammal).

There remains much to be studied in the ecology and systematics of Gnathostoma in Brazil. The species G. gracile was described by Diesing (1839)Diesing CM. Neue gattungen von binnenwurmern nebst einem nachtrage zur monographie der amphistomen. Ann Wiener Mus Naturgesch 1839; 2: 219-242. and redescribed from original material by Drasche (1884) as a parasite of the intestine of Arapaima gigas (Schinz, 1822) in Brazil. According to Moravec (1998)Moravec F. Nematodes of freshwater fishes of the neotropical region. Praha: Academia; 1998., the morphology of this parasite is still little known because it has been found only once, in an unusual host for parasites that are usually observed in the stomach of carnivores; thus, the species needs to be redescribed. Additionally, Miyazaki (1960Miyazaki I. On the genus Gnathostoma and Gnathostomiasis, with special reference to Japan. Exp Parasitol 1960; 9(3): 338-370. PMid:14423082. http://dx.doi.org/10.1016/0014-4894(60)90040-0.
http://dx.doi.org/10.1016/0014-4894(60)9... , 1991Miyazaki I. An illustrated book of helmintic zoonoses. Fukuoka: International Medical Foundation of Japan; 1991.), and Bertoni-Ruiz et al. (2011)Bertoni-Ruiz F, Lamothe y Argumedo MR, García-Prieto L, Osorio-Sarabia D. León- Régagnon V. Systematics of the genus Gnathostoma (Nematoda: Gnathostomatidae) in the Americas. Rev Mex Biodivers 2011; 82: 453-464. consider the species G. brasiliense and G. didelphis to be synonyms of G. turgidum.

At this time, there is no evidence leading to a hypothesis on the introduction of this species to Ilha de Marajó. Bufalos (Bubalus bubalis Linnaeus, 1758), pigs (Sus scofa Linnaeus 1758), dogs (Canis lupus familiaris Linnaeus 1758), and domestic cats (Felis catus Linnaeus 1758) have been introduced to the island. Migratory birds such as Egretta thula (Molina, 1782), Phalacrocorax brasilianus (Gmelin, 1789) also can serve as paratenic hosts of gnathostomids (NAWA & NAKAMURA-UCHIYAMA, 2004Nawa Y, Nakamura-Uchiyama F. An overview of gnathostomiasis in the world. Southeast Asian J Trop Med Public Health 2004; 35(S1): 87-91.). In this island, these migratory birds are common predators of C. psittacus so it is possible that they are part of the life cycle of this helminth. However, preliminary studies of the helminths of the animals mentioned above were negative for this parasite. Almeyda-Artigas et al. (2010)Almeyda-Artigas RJ, Mosqueda-Cabrera MÁ, Sánchez-Núñez E. Precocity of Gnathostoma turgidum in naturally infected four-eyed opossum Philander opossum pallidus from Temascal, Oaxaca, Mexico. Parasitol Res 2010; 106(2): 439-443. PMid:19936791. http://dx.doi.org/10.1007/s00436-009-1682-8.
http://dx.doi.org/10.1007/s00436-009-168... reported finding individuals of Philander opossum Linnaeus 1758, a species found on the island, infected with G. turgidum in Mexico, but no studies of this possible host have been made.

In the family Gnathostomatidae, Luque et al. (2011)Luque JL, Aguiar JC, Vieira FM, Gibson DI, Santos CP. Checklist of Nematoda associated with the fishes of Brazil. Zootaxa 2011; 3082: 1-88. reported the presence of Echinocephalus daileyi (DEARDORFF et al., 1981Deardorff TL, Brooks DR, Thorson TB. A new species of Echinocephalus (Nematoda: Gnathostomidae) from neotropical stingrays with comments on E. diazi. J Parasitol 1981; 67(3): 433-439. http://dx.doi.org/10.2307/3280568.
http://dx.doi.org/10.2307/3280568... ), a parasite of the intestine of Potamotrygon hystrix (Müller & Henle, 1841) and P. motoro (Müller & Henle, 1841); Echinocephalus sp. (parasite of spiral valve of Potamotrygon falkneri Castex & Maciel, 1963); and G. gracile (Diesing, 1839Diesing CM. Neue gattungen von binnenwurmern nebst einem nachtrage zur monographie der amphistomen. Ann Wiener Mus Naturgesch 1839; 2: 219-242.), parasite of the intestine of A. gigas in the Brazilian Amazon.

Gnathostomosis in humans is a food-borne zoonosis caused by the ingestion of raw fish parasitized with third-stage larvae of nematodes of the genus Gnathostoma. Only six species have been reported parasitizing humans; these include G. spinigerum, mainly in Thailand and Mexico, and G. dorolesi, G. hispidum, G. malaysiae, G. nipponicum, and G. binucleatum in other parts of the world (CHAICUMPA, 2010Chaicumpa DVMW. Immunodiagnosis of Gnathostomiasis. Siriraj Med J 2010; 62(2): 79-83.). Chaicumpa (2010)Chaicumpa DVMW. Immunodiagnosis of Gnathostomiasis. Siriraj Med J 2010; 62(2): 79-83. also reported that humans become infected by ingesting raw or undercooked fish, which can be include intermediate or paratenic host of the parasite.

Finally, several species of the genus Gnathostoma have been described or redescribed with the aid of SEM during recent decades. Deardorff & Ko (1983)Deardorff TL, Ko RC. Echinocephalus overstreeti sp. n. (Nematoda: Gnathostomatidae) in the stingray, Taeniura melanopilos Bleeker, from the Marquesas Islands, with comments on E. sinensis Ko, 1975. Proc Helminthol Soc Wash 1983; 50(2): 285-293., Beveridge (1985Beveridge I. A redescription of Echinocephalus uncinatus Molin, 1858 (Nematoda, Gnathostomatoidea) from European rays, Dasyatis pastinaca (Linnaeus, 1758). Bull Mus Natl Hist Nat Paris Sér 4. Sect A 1985; 7: 781-790., 1987Beveridge I. Echinocephalus overstreeti Deardorff & Ko, 1983 (Nematoda: Gnathostomatoidea) from elasmobranchs and molluscs in South Australia. Trans R Soc S Aust 1987; 111: 79-92.), Hoberg et al. (1998)Hoberg EP, Brooks DR, Molina-Ureña H, Erbe E. Echinocephalus janzeni n. sp. (Nematoda: Gnathostomatidae) in Himantura pacifica (Chondrichthyes: Myliobatiformes) from the Pacific coast of Costa Rica and Mexico, with historical biogeographic analysis of the genus. J Parasitol 1998; 84(3): 571-581. PMid:9645860. http://dx.doi.org/10.2307/3284726.
http://dx.doi.org/10.2307/3284726... , and Moravec & Justine (2006)Moravec F, Justine JL. Three nematode species from elasmobranchs off New Caledonia. Syst Parasitol 2006; 64(2): 131-145. PMid:16773474. http://dx.doi.org/10.1007/s11230-006-9034-x.
http://dx.doi.org/10.1007/s11230-006-903... stated that SEM is a very useful method for this type of study, especially to observe morphological structures such as pseudolips and to observe the morphology and distribution of spines present in the cephalic bulb and body, as well as to observe the genital papillae. Moravec & Justine (2006)Moravec F, Justine JL. Three nematode species from elasmobranchs off New Caledonia. Syst Parasitol 2006; 64(2): 131-145. PMid:16773474. http://dx.doi.org/10.1007/s11230-006-9034-x.
http://dx.doi.org/10.1007/s11230-006-903... suggested that the number and arrangement of the spines present in the cephalic bulb and throughout the body may be a very reliable taxonomic criterion, but their identification depends on the use of SEM.

The use of SEM in the present study aided in the morphological characterization of the larvae found parasitizing specimens of C. psittacus because it showed clearly the presence of six discontinuous circles of spines, the circular oral cavity surrounded by two lips with a pair of papillae on each, the three pairs of ventral and dorsal spines, the deirid just below the cephalic bulb, and the tail with a terminal mucron. These are features not discerned easily using only a light microscope. Among the most recent studies of the genus Gnathostoma, Bertoni-Ruiz et al. (2011)Bertoni-Ruiz F, Lamothe y Argumedo MR, García-Prieto L, Osorio-Sarabia D. León- Régagnon V. Systematics of the genus Gnathostoma (Nematoda: Gnathostomatidae) in the Americas. Rev Mex Biodivers 2011; 82: 453-464. used SEM to characterize morphologically the spines present along the body and caudal papillae in males of G. miyazakii, G. procyonis, G. turgidum, G. lamothei, and G. socialis, demonstrating that SEM is a crucial technique for the diagnoses of new species or for future redescriptions.

Conclusion

The morphological data of the parasites studied herein are of importance because the present study reports the finding of three pairs of dorsal and ventral spines in the cephalic bulb, an absence of spines along the body, and a tail with a terminal mucron for the first time in larvae of Gnathostoma. Additionally, this is the first report of the genus parasitizing fish of the family Tetraodontidae in northern Brazil.

The species C. psittacus is not part of the food base of Amazonians; however, large vertebrates that may serve as paratenic or definitive hosts of this parasite are used as food and are consumed by indigenous populations and traditional communities that practice hunting and fishing. The information provided in this study provides important additions to the knowledge of pathogens that may affect aquatic hosts in the Amazon. Further studies are needed to identify the parasite that is described in the present study taxonomically at the species level as well as to elucidate its life cycle and potential risks to local inhabitants.

Acknowledgements

The authors are grateful to the following the Laboratório de Histologia e Embriologia Animal and Laboratório de Microscópia Eletrônica de Varredura – Instituto da Saúde e Produção Animal – Universidade Federal Rural da Amazônia – UFRA, campus Belém, state of Pará, Brazil for the use of the scanning electron microscope. This study is part of the Ph.D. thesis of Raul Henrique da Silva Pinheiro, developed for the Programa de Pós-Graduação em Biologia de Agentes Infecciosos e Parasitários (Graduate Program in Biology of Infectious Agents and Parasites), Instituto de Ciências Biológicas (Biological Sciences Institute), Universidade Federal do Pará-UFPA. The revision of this ms. was carried out by Raul Henrique da Silva Pinheiro during a visit to the Laboratorio de Morfología Animal, Universidad Autónoma del Estado de Hidalgo, Pachuca, Hidalgo, México.

Financial support for this study was provided by the PAPQ2016/PROPESP/UFPA, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES, Ministério da Educação do Brasil (grant CAPES-PARASITOLOGIA BÁSICA/2010), and the Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq, (Productivity research grant for Jeannie Nascimento dos Santos).

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Publication Dates

Publication in this collection
Jul-Sep 2017

History

Received
29 May 2017
Accepted
16 Aug 2017

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.

[1] Almeyda-Artigas RJ, Mosqueda-Cabrera MÁ, Sánchez-Núñez E. Precocity of Gnathostoma turgidum in naturally infected four-eyed opossum Philander opossum pallidus from Temascal, Oaxaca, Mexico. Parasitol Res 2010; 106(2): 439-443. PMid:19936791. http://dx.doi.org/10.1007/s00436-009-1682-8
» http://dx.doi.org/10.1007/s00436-009-1682-8

[2] Almeyda-Artigas RJ. Hallazgo de Gnathostoma binucleatum n. sp. (Nematoda: Spirurida) en felinos silvestres y el papel de peces dulceacuícolas y oligohalinos como vectores de la Gnatostomiasis humana en la cuenca baja del Río Papaloapan, Oaxaca- Veracruz, México. An Inst Cienc del Mar y Limnol Univ Nac Autón Mex 1991; 18(2): 37-155.

[3] Álvarez-Guerrero C, Lamothe-Argumedo R. Larvas de Gnathostoma sp. en peces estuarinos de Nayarit. An Inst Biol Ser Zool Univ Nac Autón Mex 2000; 71(2): 179-184.

[4] Ash LR. Development of Gnathostoma procyonis Chandler, 1942, in the first and second intermediate hosts. J Parasitol 1962; 48(2): 298-305. PMid:13862797. http://dx.doi.org/10.2307/3275591
» http://dx.doi.org/10.2307/3275591

[5] Ash LR. Life cycle studies on Gnathostoma procyonis Chandler, 1942, a nematode parasite of the raccoon. J Parasitol 1960; 46(5): 37.

[6] Bertoni-Ruiz F, García-Prieto L, Osorio-Sarabia D, León-Règagnon V. A new species of Gnathostoma (Nematoda: Gnathostomatidae) in Procyon lotor hernandezii from Mexico. J Parasitol 2005; 91(5): 1143-1149. PMid:16419762. http://dx.doi.org/10.1645/GE-516R.1
» http://dx.doi.org/10.1645/GE-516R.1

[7] Bertoni-Ruiz F, Lamothe y Argumedo MR, García-Prieto L, Osorio-Sarabia D. León- Régagnon V. Systematics of the genus Gnathostoma (Nematoda: Gnathostomatidae) in the Americas. Rev Mex Biodivers 2011; 82: 453-464.

[8] Beveridge I. A redescription of Echinocephalus uncinatus Molin, 1858 (Nematoda, Gnathostomatoidea) from European rays, Dasyatis pastinaca (Linnaeus, 1758). Bull Mus Natl Hist Nat Paris Sér 4. Sect A 1985; 7: 781-790.

[9] Beveridge I. Echinocephalus overstreeti Deardorff & Ko, 1983 (Nematoda: Gnathostomatoidea) from elasmobranchs and molluscs in South Australia. Trans R Soc S Aust 1987; 111: 79-92.

[10] Camargo M, Maia T. Análise populacional do baiacu, Colomesus psittacus (Tetraodontiformes, Tetraodontidae), no estuário o rio Caeté, Costa Norte do Brasil. Uakari 2008; 4(1): 23-28.

[11] Cervigón F, Cipriani R, Fischer W, Garibaldi L, Hendrickx M, Lemus AJ, et al. Guia de Campo de las espécies comerciales marinas y de aguas salobres de la costa septentrional de Sur América Roma: FAO; 1992.

[12] Chai JY, Sohn WM, Na BK, Park JB, Jeoung HG, Hoang EH, et al. Larval Gnathostoma spinigerum detected in Asian swamp eels, Monopterus albus, purchased from a local market in Yangon, Myanmar. Korean J Parasitol 2015; 53(5): 619-625. PMid:26537042. http://dx.doi.org/10.3347/kjp.2015.53.5.619
» http://dx.doi.org/10.3347/kjp.2015.53.5.619

[13] Chaicumpa DVMW. Immunodiagnosis of Gnathostomiasis. Siriraj Med J 2010; 62(2): 79-83.

[14] Chandler AC. The helminths of raccoons in east Texas. J Parasitol 1942; 28(4): 255-268. http://dx.doi.org/10.2307/3272963
» http://dx.doi.org/10.2307/3272963

[15] Cole RA, Choudhury A, Nico LG, Griffin KM. Gnathostoma spinigerum in live Asian swamp eels (Monopterus spp.) from food markets and wild populations, United States. US Emerg Infect Dis J 2014; 20(4): 634-642. PMid:24661441. http://dx.doi.org/10.3201/eid2004.131566
» http://dx.doi.org/10.3201/eid2004.131566

[16] Deardorff TL, Brooks DR, Thorson TB. A new species of Echinocephalus (Nematoda: Gnathostomidae) from neotropical stingrays with comments on E. diazi. J Parasitol 1981; 67(3): 433-439. http://dx.doi.org/10.2307/3280568
» http://dx.doi.org/10.2307/3280568

[17] Deardorff TL, Ko RC. Echinocephalus overstreeti sp. n. (Nematoda: Gnathostomatidae) in the stingray, Taeniura melanopilos Bleeker, from the Marquesas Islands, with comments on E. sinensis Ko, 1975. Proc Helminthol Soc Wash 1983; 50(2): 285-293.

[18] Diesing CM. Neue gattungen von binnenwurmern nebst einem nachtrage zur monographie der amphistomen. Ann Wiener Mus Naturgesch 1839; 2: 219-242.

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Character	*Third-stage larvae of Gnathostoma* spp.**
Character	Gnathostoma sp.	*G. binucleatum*	*G. turgidum*	*G. spinigerum*	*G. procyonis*	*G. lamothei*
Hosts—larvae	Colomesus psittacus	Oreochromis aureus	Lithobates zweifeli	Channa argus	Poecilia spp.	Poeciliopsis gracilis
Hosts—adults	-	Felis pardalis	Didelphis spp.	Felis tigris	Natrix rhombifera	Procyon lotor hernandezii
Type locality	Pará, Brazil	México	USA	Japan	Procyon l. lotor USA	México
Author	-	Almeyda-Artigas (1991)Almeyda-Artigas RJ. Hallazgo de Gnathostoma binucleatum n. sp. (Nematoda: Spirurida) en felinos silvestres y el papel de peces dulceacuícolas y oligohalinos como vectores de la Gnatostomiasis humana en la cuenca baja del Río Papaloapan, Oaxaca- Veracruz, México. An Inst Cienc del Mar y Limnol Univ Nac Autón Mex 1991; 18(2): 37-155.	Mosqueda-Cabrera et al. (2009)Mosqueda-Cabrera MA, Sanchez Miranda E, Calderon LC, Najera HEO. Finding advanced third-stage larvae of Gnathostoma turgidum Stossich, 1902 in Mexico from natural and experimental host and contributions to the life cycle description. Parasitol Res 2009; 104(5): 1219-1225. PMid:19130085. http://dx.doi.org/10.1007/s00436-008-1318-4. http://dx.doi.org/10.1007/s00436-008-131...	Miyazaki (1954)Miyazaki I. Studies on Gnathostoma occurring in Japan (Nematoda: Gnathostomatidae). II. Life history of Gnathostoma and morphological comparison of its larval forms. Kyushu Mem Med Sci 1954; 5(2): 123-139.	Ash (1960Ash LR. Life cycle studies on Gnathostoma procyonis Chandler, 1942, a nematode parasite of the raccoon. J Parasitol 1960; 46(5): 37., 1962Ash LR. Development of Gnathostoma procyonis Chandler, 1942, in the first and second intermediate hosts. J Parasitol 1962; 48(2): 298-305. PMid:13862797. http://dx.doi.org/10.2307/3275591. http://dx.doi.org/10.2307/3275591... )	Bertoni-Ruiz et al. (2005)Bertoni-Ruiz F, García-Prieto L, Osorio-Sarabia D, León-Règagnon V. A new species of Gnathostoma (Nematoda: Gnathostomatidae) in Procyon lotor hernandezii from Mexico. J Parasitol 2005; 91(5): 1143-1149. PMid:16419762. http://dx.doi.org/10.1645/GE-516R.1. http://dx.doi.org/10.1645/GE-516R.1...
Length (mm) ^* * Measurements in micrometers unless indicated. The parameter number of buds is given in amplitude;	12 (10-14)	4.3 (2.6-5.9)	1.67 (1.53-2)	5 (4.6-5.5)	5.2 (4.6-5.9)	4.48 (3.58-5.09)
Width	415 (333-480)	320 (310-320) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	140 (134.6-160.4)	366 (250-425) ^b b From Chai et al. (2015), based on measurements of 401 advanced third-stage larvae in Asian swamp eels (Monopterus albus) purchased from central Myanmar;	342 (283-382)	288.7 (236.6-318.2)
Cephalic bulb (L) ^ Abbreviations: L: length, W: width, Oe: esophagus;	313 (277-387)	120 (110-130) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	46.6 (36.7-65)	93 (75-115) ^b b From Chai et al. (2015), based on measurements of 401 advanced third-stage larvae in Asian swamp eels (Monopterus albus) purchased from central Myanmar;	180 ^e e From Ash (1962) based on measurements of 15 fully developed third-stage larvae collected from the muscles of Natrix rhombifera in Louisiana, USA.	84 (69.36-106.08)
Cephalic bulb (W) ^ Abbreviations: L: length, W: width, Oe: esophagus;	340 (293-386)	240 (230-250) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	110 (97.9-118.3)	221 (165-250) ^b b From Chai et al. (2015), based on measurements of 401 advanced third-stage larvae in Asian swamp eels (Monopterus albus) purchased from central Myanmar;	200 ^e e From Ash (1962) based on measurements of 15 fully developed third-stage larvae collected from the muscles of Natrix rhombifera in Louisiana, USA.	188 (167.28-216.24)
I row	35 (30-40)	39 (35-44)	30.8 (26-34)	44 (39-49)	32.70 (29-36)	339.33 (34-44)
II row	39 (36-42)	42 (38-47)	34 (29-38)	47 (42-54)	36.60 (32-40)	43.27 (38-47)
III row	40 (36-42)	45 (40-49)	36.7 (29-43)	50 (45-56)	41 (37-45)	44.20 (40-48)
IV row	37 (32-40)	48 (43-52)	39.6 (33-42)	52 (45-58)	45 (42-47)	47.33 (45-58)
V row	35 (30-38)	-	-	-	-	-
VI row	33 (26-38)	-	-	-	-	-
VI-I row	2	-	-	-	-	-
Rows in the body	-	271 (242-285)	188.6 (182-202)	244 (225-256) ^d d From Koga et al. (1994) based on measurements of eight advanced third-stage larvae from naturally infected eels, Fluta alba, from Thailand;	-	227 (137-258)
I Cervical sac (mm) ^* * Measurements in micrometers unless indicated. The parameter number of buds is given in amplitude;	1 (1.18-1.84)	0.7 (0.6-0.8) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;			-	0.045-0.063
II Cervical sac (mm) ^* * Measurements in micrometers unless indicated. The parameter number of buds is given in amplitude;			0.350 (0.302-0.435)	0.574 (0.330-0.750) ^b b From Chai et al. (2015), based on measurements of 401 advanced third-stage larvae in Asian swamp eels (Monopterus albus) purchased from central Myanmar;
III Cervical sac (mm) ^* * Measurements in micrometers unless indicated. The parameter number of buds is given in amplitude;				0.43 ^c c From Jung et al. (2008) based on measurements of an advanced third-stage larva of G. spinigerum recovered from the muscle of a snakehead fish;
IV Cervical sac (mm) ^* * Measurements in micrometers unless indicated. The parameter number of buds is given in amplitude;
Deirid ^* ***** Location of deirid and excretory pore in relation to transverse rows of corporal spines;	-	14 ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	11.7 (10-14)	14 (11-16) ^d d From Koga et al. (1994) based on measurements of eight advanced third-stage larvae from naturally infected eels, Fluta alba, from Thailand;	13.5 (11-16)	11.73 (10-14)
Excretory pore ^* ***** Location of deirid and excretory pore in relation to transverse rows of corporal spines;	-	30 ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	19.7 (15-22)	25 (22-28) ^d d From Koga et al. (1994) based on measurements of eight advanced third-stage larvae from naturally infected eels, Fluta alba, from Thailand;	24.3 (19-27)	23.07 (20-29)
Nerve ring	260 (167-337)	-	-	-	-	-
Muscular oe. (L) ^ Abbreviations: L: length, W: width, Oe: esophagus;	313 (277-387)	1.22 (1.22-1.23) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	648 (579.4-722.2)	1,025 (0.630-1,220) ^b b From Chai et al. (2015), based on measurements of 401 advanced third-stage larvae in Asian swamp eels (Monopterus albus) purchased from central Myanmar; /800^c	1,200 (1,000-1,400)	970.8 (889.4-1,162.8)
Muscular oe. (W) ^ Abbreviations: L: length, W: width, Oe: esophagus;	340 (293-386)	200 (190-210) ^a a From García-Márquez et al. (2009), based on measurements of three AdvL3 of Gnathostoma found in the skeletal muscle of one specimen of Dormitator latifrons and five found in one specimen of Sciades guatemalensis; both fish specimens were from the Cuyutlán Lagoon;	80.8 (69.4-85.7)	-	124 (109-142)	117 (97.9-134.6)
Tail	175 (100-216)	-	29.2 (24.4-40.8)	-	70 ^e e From Ash (1962) based on measurements of 15 fully developed third-stage larvae collected from the muscles of Natrix rhombifera in Louisiana, USA.	59.16 (36.72-75.44)
Reference	From this study	Almeyda-Artigas (1991)Almeyda-Artigas RJ. Hallazgo de Gnathostoma binucleatum n. sp. (Nematoda: Spirurida) en felinos silvestres y el papel de peces dulceacuícolas y oligohalinos como vectores de la Gnatostomiasis humana en la cuenca baja del Río Papaloapan, Oaxaca- Veracruz, México. An Inst Cienc del Mar y Limnol Univ Nac Autón Mex 1991; 18(2): 37-155.	Stossich (1902)Stossich M. Sopra alcuni nematodi della collezione elmintogica del Prof. Dott. Corrado Parona. Boll Mus Zool Anat Comp Genova 1902; 116: 1-16.	Miyazaki (1954)Miyazaki I. Studies on Gnathostoma occurring in Japan (Nematoda: Gnathostomatidae). II. Life history of Gnathostoma and morphological comparison of its larval forms. Kyushu Mem Med Sci 1954; 5(2): 123-139.	Chandler (1942)Chandler AC. The helminths of raccoons in east Texas. J Parasitol 1942; 28(4): 255-268. http://dx.doi.org/10.2307/3272963. http://dx.doi.org/10.2307/3272963...	Gaspar-Navarro et al. (2013)Gaspar-Navarro J, Almeyda-Artigas RJ, Sánchez-Miranda E, Carranza-Calderón L, Mosqueda-Cabrera MÁ. Description of advanced third-stage larvae of Gnathostoma lamothei Bertoni-Ruiz et al. 2005 (Nematoda: Gnathostomatidae) from experimental hosts and contributions to its life cycle. Parasitol Res 2013; 112(1): 169-175. PMid:23007726. http://dx.doi.org/10.1007/s00436-012-3122-4. http://dx.doi.org/10.1007/s00436-012-312...

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