SEARCH

SEARCH BY CITATION

LITERATURE CITED

  • Bannister LH. 1966. Is Rhabdospora thelohani (Laguesse) a sporozoan parasite or a tissue cell of lower vertebrates? Parasitology 56: 633638.
  • Barrington EJW. 1957. The alimentary canal and digestion. In: BrownM, editor. The physiology of fishes. New York: Academic Press. p 109162.
  • Bielek E. 2002. Rodlet cells in teleosts: new ultrastructural observations on the distribution of the cores in trout (Oncorhynchus mykiss, Salmo trutta L.). J Submicrosc Cytol Pathol 34: 271278.
  • Bielek E. 2005. Development of the endoplasmic reticulum in the Rodlet Cell of two teleost species. Anat Rec 283: 239249.
  • Bishop CM,Odense PH. 1966. Morphology of the digestive tract of the cod Gadus morhua. J Fish Res Board Can 23: 16071615.
  • Bullock WL. 1963. Intestinal histology of some salmonid fishes with particular reference to the histopathology of acanthocephalan infections. J Morphol 112: 2335.
  • Calzada A,Medina A,Gonzales De Canales ML. 1998. Fine structure of the intestine development in cultured sea bream larvae. J Fish Biol 53: 340365.
  • Catton WT. 1951. Blood cell formation in certain teleost fishes. Blood 6: 3960.
  • Coombs S,Janssen J,Webb J. 1988. Diversity of lateral line systems: evolutionary and functional considerations. In: AtemaJ,FayRR,PopperAN,TavolgaWN, editors. Sensory biology of aquatic animals. New York: Springer. p 553593.
  • Dezfuli BS,Capuano S,Manera M. 1998. A description of rodlet cells from the alimentary canal of Anguilla anguilla and their relationship with parasitic helminths. J Fish Biol 53: 10841095.
  • Dezfuli BS,Simoni E,Rossi R,Manera M. 2000. Rodlet cells and other inflammatory cells of Phoxinus phoxinus infected with Raphidascaris acus (Nematoda). Dis Aquat Org 43: 6169.
  • Dezfuli BS,Giari L,Konecny R,Jaeger P,Manera M. 2003a. Immunohistochemistry, ultrastructure and pathology of gills of Abramis brama (L.) from lake Mondsee (Austria) due to Ergasilus sieboldi (Copepoda). Dis Aquat Org 53: 257262.
  • Dezfuli BS,Giari L,Simoni E,Palazzi D,Manera M. 2003b. Alteration of rodlet cells in chub caused by the herbicide Stam® M-4 (Propanil). J Fish Biol 63: 232239.
  • Dezfuli BS,Simoni E,Giari L,Manera M, 2006. Effects of experimental terbuthylazine exposure on the cells of Dicentrarchus labrax (L.). Chemosphere 64: 16841694.
  • Dezfuli BS,Giari L,Shinn AP. 2007. The role of rodlet cells in the inflammatory response in Diplostomum infected Phoxinus phoxinus brains. Fish Shellfish Immunol (in press).
  • Døving KB.1986. Functional properties of the fish olfactory system. In: AutrumH,OttosonD,PerlER,SchmidtRF,ShimazuH,WillsWD, editors. Progress in sensory physiology. Berlin: Springer. p 39104.
  • Fernhead EA,Fabian BL. 1971. The ultrastructure of the gill of Monodactylus argenteus (an euryhaline teleost fish) with particular reference to morphological changes associated with changes in salinity. South Afr Assoc Marine Biol Res Oceanogr Res Inst Invest Rep 26: 139.
  • Flood MT,Nigrelli RF,Gennaro JFJr. 1975. Some aspects of the ultrastructure of the “Stäbchendrüsenzellen,” a peculiar cell associated with the endothelium of the bulbus arteriosus and with other fish tissue. J Fish Biol 7: 129138.
  • Giari L,Manera M,Simoni E,Dezfuli BS. 2006. Cellular alterations in different organs of European sea bass Dicentrarchus labrax (L.) exposed to cadmium. Chemosphere (in press).
  • Gompel N,Dambly-Chaudiere C,Ghisen A.2001.Neuronal differences prefigure somatotopy in the zebrafish lateral line.Development 128: 387393.
  • Grünberg GW,Hager G. 1978. Zur Ultrastruktur der “Stäbchendrüsenzellen” (rodlet cells, pear-shaped cells) im bulbus Arteriosus des Karpfen, Cyprinus carpio L. (Pices: Cyprinidae). Anat Anz 134: 277290.
  • Hansen A,Zeiske E. 1998. The peripheral olfactory organ of the zebrafish, Danio rerio: an ultrastructural study. Chem Senses 23: 3948.
  • Hara TJ. 1971. Chemoreception. In: HoarWS,RandallDJ, editors. Fish physiology: sensory system and electric organs. New York: Academic Press. p 79114.
  • Hara TJ. 1994. Olfaction and gestation in fish: an overview. Acta Physiol Scand 152: 207217.
  • Hawkins WE. 1984. Ultrastructure of rodlet cells: response to cadmium damage in the kidney of the spot Leiostomus xanthurus Lacépède. Gulf Res Rep 7: 365372.
  • Iger Y,Abraham M. 1997. Rodlet cells in the epidermis of fish exposed to stressors. Tissue Cell 29: 431438.
  • Imagawa T,Kltagawa H,Uehara M. 1998. An association between rodlet cells and the vascular endothelial cells in the head kidney of carp, Cyprinus carpio L.: ultrastructural observation. J Fish Dis 21: 153157.
  • Koponen K,Myers MS. 2000. Seasonal changes in intra and interorgan occurrence of rodlet cells in freshwater bream. J Fish Biol 56: 250263.
  • Kramer CR,Potter H. 2002. Ultrstructural observations on rodlet cell development in the head kidney of the southern platyfish, Xiphophorus maculatus. Can J Zool 80: 14221436.
  • Kramer CR,Potter H. 2003. Rodlet cells in the posterior intestine of embryos and neonates of two poecilid species. J Fish Biol 62: 12111216.
  • Laguesse E. 1895. Les “Stäbchendrüsenzellen” (M. Plehn) sont des sporozoares parasites. Anat Anz 28: 414416.
  • Leino RL. 1974. Ultrastructure of immature, developing, and secretory rodlet cells in fish. Cell Tissue Res 155: 367381.
  • Leino RL. 1996. Reaction of rodlet cells to a myxosporean infection in kidney of the bluegill, Lepomis macrochirus. Can J Zool 74: 217225.
  • Mandal DK,Roy D,Ghosh L. 2005. Structural organization of the olfactory epithelium of a spotted snakehead fish, Channa punctatus. Acta Ich Pisc 35: 4550.
  • Manera M,Simoni E,Dezfuli BS. 2001. Effect of dexamethasone administration on occurrence and ultrastructure of rodlet cells in Carassius auratus L. with particular reference to bulbus arteriosus. J Fish Biol 59: 12391248.
  • Manera M,Dezfuli BS. 2004. Rodlet cells in teleosts: a new insight into their nature and functions. J Fish Biol 65: 597619.
  • Mattey DL,Morgan M,Wright DE. 1979. Distribution and development of rodlet cells in the gills and pseudobranch of the bass, Dicentrarchus labrax (L). J Fish Biol 15: 363370.
  • Mayberry LF,Marchiondo AA,Ubelaker JE,Kazic D. 1979. Rhabdospora thelohani Laguesse, 1895 (Apicomplexa): new host and geographic records with taxonomic consideration. J Protozool 26: 168178.
  • Mazon AF,Huising MO,Taverne-Thiele AJ,Bastiaans J,Verburg-van Kemenade BML. 2007. The first appearance of rodlet cells in carp (Cyprinus carpio L.) ontogeny and their possible roles during stress and parasite infection. Fish Shellfish Immunol 22: 2737.
  • Metcalfe W. 1989. Organization and development of the zebrafish posterior lateral line. In: MünzH, editor. The mechanosensory lateral line. New York: Springer. p 147.
  • Morrison CM,Odense PH. 1978. Distribution and morphology of the rodlet cell in fish. J Fish Res Board Can 35: 101116.
  • Münz H. 1989. Functional organization of the lateral line periphery. In: CoombsS,GornerP,MünzH, editors. The mechanosensory lateral line. New York: Springer. p 285298.
  • Oliveira Ribeiro CA,Fernandes LM,Carvalho CS,Cardoso RI,Turcatti NM. 1995. Acute effects of mercuric chloride on the olfactory epithelium of Trichomycterus brasiliensis. Ecotox Environ Safe 31: 104109.
  • Paterson WB,Desser SS. 1981. Rhabdospora thelohani Laguesse, 1906 is not a member of the Apicomplexa. J Parasitol 67: 741744.
  • Plehn M. 1906a. Über eigentmüliche Drüsenzellen im Gefü und System und in aderen Organen bei Fischen. Anat Anz 28: 192203.
  • Plehn M. 1906b. Drüsenzellen oder parasiten? Anat Anz 29: 152157.
  • Reite OB. 1998. Mast cell eosinophilic granule cells of teleostean fish: a review focusing on staining properties and functional responses. Fish Shellfish Immunol 8: 489513.
  • Reite OB. 2005. The rodlet cells of teleostean fish: their potential role in host defence in relation to the role of mast cells/eosinophilic granule cells. Fish Shellfish Immunol 19: 253267.
  • Reite OB,Evensen Ø. 2006. Inflammatory cells of teleostean fish: a review focusing on mast cells/eosinophilic granule cells and rodlet cells. Fish Shellfish Immunol 20: 192208.
  • Richards DT,Hoole D,Arme C,Lewis JW,Ewens E. 1994. Phagocytosis of rodlet cells (Rhabdospora thelohani Laguesse, 1895) by carp (Cyprinus carpio L.) macrophages and neutrophils. Helminthologia 31: 2933.
  • Smith SA,Caceci T,Marei HE-S,El-Habback HA. 1995. Observations on rodlet cells found in the vascular system and extravascular space of angelfish. J Fish Biol 46: 241254.
  • Song J,Young Yan H.,Popper AN. 1995. Damage and recovery of hair in fish canal (but not superficial) neuromasts after gentamicin exposure. Hearing Res 91: 6371.
  • Sulimanović D,Ćurić S,Zeba L,Berc A. 1996. The possible role of rodlet cells in the immune system of carp (Cyprinus carpio L.). Vet Arhiv 66: 103109.
  • Thèlohan P. 1892. Sur des sporozoaires indéterminés parasites des poissons. J Anat Physiol Paris 28: 163171.
  • Uchiyama M,Iwasaki S,Murakami T. 1991. Surface and subsurface structures of neuromasts in tadpoles of the crab eating frog, Rana carnivora. J Morphol 207: 157163.
  • Vickers T. 1962. A study of the intestinal epithelium of the goldfish Carassius auratus: its normal structure, the dynamics of cell replacement, and the changes induced by salts of cobalt and manganese. Q J Micros Sci 103: 93110.
  • Viehberger G,Bielek E. 1982. Rodlet-cells: gland cell or protozoon? Experientia 38: 12161218.
  • Webb J. 1989. Neuromast morphology and lateral line trunk canal ontogeny in two species of cichlids: an SEM study. J Morphol 202: 5360.
  • Webb JF,Shirey JE. 2003. Postembryonic development of the cranial lateral line canals and neuromasts in zebrafish. Dev Dynam 228: 370385.
  • Weinreb EL,Bilstad NM. 1955. Histology of the digestive tract and adjacent structures of the rainbow trout, Salmo gairdneri irideus. Copeia 3: 194204.
  • Williams JA,Holder N. 2000. Cell turnover of zebrafish larvae. Hearing Res 143: 171181.
  • Wilson JAF,Westerman RA. 1967. The fine structure of the olfactory mucosa and nerve in the teleost Carassius auratus L. Z Zellforsch Mikrosk Anat 83: 196206.