phenylephrine-hydrochloride and Fish-Diseases

Like terrestrial vertebrates, bony fishes have a nasopharynx-associated lymphoid tissue (NALT) that protects the host against invading pathogens. Despite nasal immunity being a relatively new field in fish immunology, the investigation of nasal immune systems has already illuminated fundamental aspects of teleost mucosal immune systems as well as neuroimmunology. In this review, we highlight the importance of nasal infections in bony fish and the progress that has been made towards understanding how fish respond locally and systemically to nasal infection or vaccination. We also want to highlight the complex interactions between neurons and immune cells that occur in the olfactory organ during the course of an immune response. We predict that similar neuroimmune interactions govern immune responses at all mucosal tissues in bony fish. Understanding the principles of mucosal immune responses in teleost NALT has therefore revealed important aspects of fish mucosal immunity that are critical for mucosal vaccination in aquaculture.

Topics: Animals; Fish Diseases; Fishes; Immunity, Mucosal; Neuroimmunomodulation; Nose; Nose Diseases; Vaccination; Vaccines

Bony fish represent the most basal vertebrate branch with a dedicated mucosal immune system, which comprises immunologically heterogeneous microenvironments armed with innate and adaptive components. In rainbow trout (

Topics: Animals; Antibodies; Bacterial Vaccines; Fish Diseases; Immunity, Mucosal; Immunoglobulin M; Lymphocytes; Myeloid Cells; Nose; Oncorhynchus mykiss; Spleen; Vaccination

Copepods are common components in all types of fish assemblages, being present in fishes of all ecosystems. The Ergasilidae Burmeister, 1835 is one of the biggest families in the order Cyclopoida Burmeister, 1834, with the majority of species found on freshwater fishes.. Ergasilus tipurus n. sp. is described from the nasal fossae of Calophysus macropterus and Sorubim lima captured in the rivers Guaporé and Mamoré in the State of Rondônia, Brazil, and from the nasal fossae and the gills of Rhaphiodon vulpinus collected from floodplain lakes of the Solimões River in the State of Amazonas, Brazil.. The new species differs from all known species of Ergasilus from Brazilian waters by: (1) antennule setal formula 3:7:3:4:2:5; (2), having three-segmented first endopod of leg I; and (3) having leg V with a single well-developed segment with one middle distal setae, two distal setae placed laterally and two basal papillae, each provided with a simple seta.. From all Ergasilus species described in the neotropics, this is the first species that can be found parasitizing the gills and nasal fossae of the reported hosts.

Topics: Animals; Brazil; Catfishes; Copepoda; Ectoparasitic Infestations; Fish Diseases; Gills; Microscopy; Nose; Rivers

Goldfish Carassius auratus are commonly used in scientific research and have a significant economic value in the pet trade. In this study, two cell lines were established from the snout and kidney tissue of goldfish, in order to create a biological monitoring tool for viral diseases. Cell lines were optimally maintained at 25 °C in M199 medium supplemented with 15-20 % fetal bovine serum. Chromosomal analysis indicated that both cell lines remained diploid, with a mean chromosomal count of 100. Results of viral inoculation assays revealed that both cell lines shared similar patterns of viral susceptibility and production to infectious pancreatic necrosis virus (IPNV). The viral titers of IPNV in goldfish snout cell line (GFSe) and goldfish kidney cell line (GFKf) reached 10(6.8) and 10(5.9) TCID50/0.1 mL, respectively, within 7 days. The cytopathic effect could be observed when Cyprinid herpesvirus 2 was inoculated into these cells; however, the CPE disappeared after four passages. No CPE was observed in the cells infected by spring viremia carp virus or grass carp reovirus. These newly established cell lines will be a useful diagnostic tool for viral diseases in this fish species and also for the isolation and study of goldfish viruses in future.

Topics: Animals; Birnaviridae Infections; Cell Line; Cell Proliferation; Cells, Cultured; Chromosomes; Fish Diseases; Goldfish; Infectious pancreatic necrosis virus; Kidney; Nose

The olfactory sacs of 488 specimens belonging to 18 species of rajid and arhynchobatid skates from the Argentine Sea were sampled for parasites. No parasitic copepods were found in 11 host species, but siphonostomatoid specimens referable to Kroeyerina Wilson, 1932 (Kroyeriidae) and Brianella corniger Wilson, 1915 (Lernaeopodidae) were found on the spotback skate Atlantoraja castelnaui (Miranda Ribeiro, 1907), the smallnose fanskate Sympterygia bonapartii Müller & Henle, 1841, the bignose fanskate Sympterygia acuta Garman, 1877 and the zipper sand skate Psammobatis extenta (Garman, 1913) (Rajiformes: Arhynchobatidae). Additionally, specimens of B. corniger were found in the olfactory sacs of the Rio skate Rioraja agassizii (Müller & Henle, 1841) and attached to the pectoral fins of the Magellan skate Bathyraja magellanica (Philippi, 1902) and the smallthorn sand skate Psammobatis rudis Günther, 1870. A new species, Kroeyerina sudamericana sp. nov., is described and illustrated. The new species most closely resembles Kroeyerina nasuta Wilson, 1932, but can be distinguished from it by the different armature of the antennule, a proportionally shorter genital complex and the chela of the antenna which, when closed, leaves a gap between the corpus and claw, the latter having no spines. The new species represents the first record of Kroeyerina in South American marine waters. The present study also extends the distribution range of B. corniger, previously known only from the Pacific, to include Atlantic waters, and records seven new host species, all of which are members of the Arhynchobatidae.

Topics: Animals; Argentina; Atlantic Ocean; Copepoda; Ectoparasitic Infestations; Female; Fish Diseases; Gills; Male; Microscopy, Electron, Scanning; Nose; Skates, Fish; Species Specificity

A new species of Merizocotyle Cerfontaine, 1894 (Monogenea: Monocotylidae) is described from the nasal tissues of three deep sea rajid skates: the southern thorny skate, Amblyraja doellojuradoi (Pozzi), broadnose skate, Bathyraja brachyurops (Fowler), and yellownose skate, Zearaja chilensis (Guichenot), collected off Buenos Aires Province, Argentina, southwest Atlantic Ocean. Two additional species of sympatric rajid, the white-dotted skate, Bathyraja albomaculata (Norman), and the Patagonian skate, Bathyraja macloviana (Norman), were also examined but no merizocotylines were found. The taxonomy of the Merizocotylinae is not widely accepted and, as a result, the status of Thaumatocotyle and Mycteronastes, and their proposed synonymy with Merizocotyle are currently under discussion. The new species differs from its congeners by having a unique haptoral structure, 6 peripheral loculi that are asymmetrically arranged (one much smaller, indistinctly located in the left or right side of the haptor). The presence of the new species in three sympatric species of Rajidae belonging to distinct genera and subfamilies, as well as its absence in sympatric congenerics indicates the lack of phylogenetic host specificity. Host ecology and geographical distribution appear to be more important than host phylogeny in determining the distribution of this parasite across potential hosts in the region. This constitutes the first record of Merizocotyle in the southwestern Atlantic Ocean.

Topics: Animals; Atlantic Ocean; Fish Diseases; Nose; Skates, Fish; Species Specificity; Trematoda; Trematode Infections

Eggs of Huffmanela cf. carcharhini from the skin of an aquarium-held, juvenile sandbar shark, Carcharhinus plumbeus , from the Pacific Ocean were studied using light and scanning electron microscopy. Grossly, eggs imparted a scribble-like skin marking approximately 130 × 60 mm on the right side of the shark's snout adjacent to its eye and nostril. Fresh (unfixed) eggs were elliptical, 75-95 µm long (x¯  =  85 µm, SD  =  ±4.5; n  =  75), 48-63 µm wide (53 ± 3.4; 75), 8-10 µm in shell thickness (9 ± 1.3; 27), 45-68 µm in vitelline mass length (52 ± 6.9; 8); had a smooth shell surface and nonprotruding polar plugs 8-13 µm wide (10 ± 1.5; 73); lacked thin filaments, superficial envelope, and shell spines; sank in 35 ppt artificial seawater; and did not spontaneously hatch after 12 hr in 35 ppt artificial seawater. Formalin-fixed eggs measured 193 days postfixation were 75-95 µm long (84 ± 3.9; 150), 45-60 µm wide (50 ± 2.2; 150), 5-10 µm in shell thickness (8 ± 1.2; 87), 45-60 µm in vitelline mass length (51 ± 3.0; 92), and 30-40 µm in vitelline mass width (33 ± 2.0; 84), and had nonprotruding polar plugs that were 10-15 µm long (11 ± 1.4; 93) and 8-10 µm wide (9 ± 1.1; 108). Forcibly hatched first-stage larvae (unfixed) were filiform, 188-273 µm long (212 ± 25.5; 13), 8-13 µm wide (10 ± 1.2; 13), and had fine transverse striations. Eggs infected the epidermis only. Histology revealed intra-epithelial inflammation with eosinophilic granulocytes and hyperplasia, plus dermal lymphofollicular hyperplasia associated with the infection. The eggs of H. cf. carcharhini likely undergo considerable ex utero development before being sloughed (unhatched) from the host, along with epidermal cells.

Topics: Animals; Female; Fish Diseases; Microscopy, Electron, Scanning; Nematoda; Nematode Infections; Nose; Ovum; Sharks; Skin

Dermopristis cairae n. sp. (Monogenea: Microbothriidae) is described from the skin and possibly from the nasal fossae of the giant shovel-nosed ray Glaucostegus typus (Bennett). The new species is distinguished from D. paradoxus Kearn, Whittington & Evans-Gowing, 2010 by its larger size, body shape, lack of transverse ridges on the ventral surface and absence of a seminal receptacle. Extensive short gut branches lie dorsal to the testes and adjacent to the coiled region of the vas deferens and the oötype, possibly reflecting high metabolic demand in these areas. Denticles are present in the lining of the nasal fossae of G. typus, providing a firm substrate for the cement-based attachment of a microbothriid. However, confirmation that D. cairae inhabits the nasal fossae of G. typus is required.

Topics: Animals; Elasmobranchii; Female; Fish Diseases; Genitalia; Intestines; Male; Nose; Skin; Trematoda; Trematode Infections

Topics: Animals; Crustacea; Female; Fish Diseases; Fishes; North Carolina; Nose

Topics: Abscess; Animals; Fish Diseases; Fishes; Microscopy, Electron; Nose; Vibrio; Vibrio Infections