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An assessment of the use of drug and non-drug interventions in the treatment of Ichthyophthirius multifiliis Fouquet, 1876, a protozoan parasite of freshwater fish

Published online by Cambridge University Press:  14 November 2011

S. M. PICÓN-CAMACHO*
Affiliation:
Institute of Aquaculture, University of Stirling, FK9 4LA Stirling, UK
M. MARCOS-LOPEZ
Affiliation:
Marine Laboratory, 375 Victoria Rd, AB11 9DB Aberdeen, UK
J. E. BRON
Affiliation:
Institute of Aquaculture, University of Stirling, FK9 4LA Stirling, UK
A. P. SHINN
Affiliation:
Institute of Aquaculture, University of Stirling, FK9 4LA Stirling, UK
*
*Corresponding author: Gulf Coast Research Laboratory, University of Southern Mississippi, Ocean Springs, MS 39564, USA. Tel: +228 818 8807. E-mail: [email protected]

Summary

Infection by the ciliate protozoan Ichthyophthirius multifiliis Fouquet, 1876 causes significant economic losses in freshwater aquaculture worldwide. Following the ban on the use of malachite green for treating food fish, there has been extensive research aimed at identifying suitable replacements. In this paper we critically assess drug and non-drug interventions, which have been tested for use or have been employed against this parasite and evaluate possibilities for their application in farm systems. Current treatments include the administration of formaldehyde, sodium chloride (salt), copper sulphate and potassium permanganate. However, purportedly more environmentally friendly drugs such as humic acid, potassium ferrate (VI), bronopol and the peracetic acid-based products have recently been tested and represent promising alternatives. Further investigation, is required to optimize the treatments and to establish precise protocols in order to minimize the quantity of drug employed whilst ensuring the most efficacious performance. At the same time, there needs to be a greater emphasis placed on the non-drug aspects of management strategies, including the use of non-chemical interventions focusing on the removal of free-swimming stages and tomocysts of I. multifiliis from farm culture systems. Use of such strategies provides the hope of more environmentally friendly alternatives for the control of I. multifiliis infections.

Type
Review Article
Copyright
Copyright © Cambridge University Press 2011

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References

REFERENCES

Aihua, L. and Buchmann, K. (2001). Temperature and salinity-dependent development of a Nordic strain of Ichthyophthirius multifiliis from rainbow trout. Journal of Applied Ichthyology 17, 173276.CrossRefGoogle Scholar
Alderman, D. J. (1985). Malachite green: a review. Journal of Fish Diseases 8, 289298.CrossRefGoogle Scholar
Balta, F., Kayis, S. and Altinok, I. (2008). External protozoan parasites in three trout species in the Eastern Black Sea region of the Turkey: intensity, seasonality and their treatments. Bulletin of European Association of Fish Pathologists 28, 157162.Google Scholar
Bisharyan, Y., Chen, Q., Hossain, M. M., Papoyan, A. and Clark, T. G. (2003). Cadmium effects on Ichthyophthirius: evidence for metal-sequestration in fish tissues following administration of recombinant vaccines. Parasitology 123 (Suppl.) S87S93.CrossRefGoogle Scholar
Bodensteiner, L. R., Sheenan, R. J., Willis, P. S., Brandenburg, A. M. and Lewis, W. M. (2000). Flowing water: an effective treatment for ichthyophthiriasis. Journal of Aquatic Animal Health 12, 209219.2.0.CO;2>CrossRefGoogle Scholar
Boyd, C. E. (1990). Water Quality In Ponds For Aquaculture. Alabama Agricultural Experiment Station, Auburn University, Auburn, AL, USA.Google Scholar
Boyd, C. E. (2005). Copper treatment controls phytoplankton. Global Aquaculture Alliance 8, 6970.Google Scholar
Brown, E. M. and Gratzek, J. B. (1980). Fish Farming Handbook. Food, Bait, Tropicals and Goldfish. AVI Publishing Company, Westport, USA.Google Scholar
Bruzio, M. and Buchmann, K. (2010). The effect of peracetic acid products on parasites causing white spot diseases. Fish Farmer 33, 2527.Google Scholar
Bryce, D. I. M., Croshaw, B., Hall, J. E., Holland, V. R. and Lessel, B. (1978). The activity and safety of the antimicrobial agent bronopol (2-bromo-2-nitropropan-1,3-diol). Journal of the Society of Cosmetic Chemists 29, 324.Google Scholar
Buchmann, K. and Bresciani, J. (1997). Parasitic infections in pond-reared rainbow trout Oncorhynchus mykiss in Denmark. Diseases of Aquatic Organisms 28, 125138.CrossRefGoogle Scholar
Buchmann, K., Jensen, P. B. and Kruse, K. D. (2003). Effects of sodium percarbonate and garlic extract on Ichthyophthirius multifiliis theronts and tomocysts: In vitro experiments. North American Journal of Aquaculture 65, 2124.2.0.CO;2>CrossRefGoogle Scholar
Buchmann, K., Bresciani, J. and Jappe, C. (2004). Effects of formalin treatment on epithelial structure and mucous cell densities in rainbow trout, Oncorhynchus mykiss (Walbaum), skin. Journal of Fish Diseases 27, 99104.CrossRefGoogle ScholarPubMed
Burkart, M. A., Clark, T. G. and Dickerson, H. W. (1990). Immunization of channel catfish, Ictalurus punctatus Rafinesque, against Ichthyophthirius multifiliis (Fouquet): killed versus live vaccines. Journal of Fish Diseases 13, 401410.CrossRefGoogle Scholar
Cardeilhac, P. and Whitaker, B. (1988). Copper treatments: uses and precautions. Veterinary Clinics of North America 18, 435448.CrossRefGoogle ScholarPubMed
Colorni, A., Ullal, A., Heinisch, G. and Noga, E. J. (2008). Activity of the antimicrobial polypeptide piscidin 2 against fish ectoparasites. Journal of Fish Diseases 31, 423432.CrossRefGoogle ScholarPubMed
Cross, D. G. (1972). A review of the methods to control ichthyophthiriasis. Progressive Fish Culturist 34, 165170.CrossRefGoogle Scholar
Culp, S. J. (2004). NTP technical report on the toxicity studies on malachite green chloride and leucomalachite green administered in feed to F344/N rats and B6C3F1 mice. US Department of Health and Human Services June 2004. National Toxicology Program, Toxicity report series. NIH Publication No. 04-4416.Google Scholar
Culp, S. J. and Beland, F. A. (1996). Malachite green: a toxicological review. Journal of American College Toxicology 15, 219238.CrossRefGoogle Scholar
Deilhac, P. and Whitaker, B. (1988). Copper treatments: uses and precautions. Veterinary Clinics of North America 18, 435448.Google Scholar
Dickerson, H. W. (2006). Ichthyophthirius multifiliis and Cryptocaryon irritans (Phylum Ciliophora) In Fish Diseases and Disorders, Vol. 1: Protozoan and Metazoan infections (ed. Woo, P. T. K.), pp. 116153. CAB International, Cambridge, MA, USA.Google Scholar
Dolezelova, P., Macova, S., Plhalova, L., Pistekova, V., Svobodova, Z., Bedanova, I. and Voslarova, E. (2009). Comparison of the sensitivity of different fish species to medical substances. Neuroendocrinology Letters 30, 248–52.Google ScholarPubMed
Duffort, G., Houeix, N., Manier, N. and Troise, A. (2010). Institut National de l'EnviRonnement Industriel et des risSques (INERIS)- Fiche de donnees toxicologiques et environnementales des substances chimiques. Formaldéhyde. INERIS.Google Scholar
Ekamen, A. P., Obiekezie, A., Kloas, W. and Knopf, K. (2004). Effects of crude extracts of Mucuna pruriens (Fabaceae) and Carica papaya (Caricaceae) against the protozoan fish parasite Ichthyophthirius multifiliis. Parasitology Research 92, 361366.Google Scholar
Elsayed, E. E., El Dien, N. E. and Mahmoud, M. A. (2006). Ichthyophthiriasis: various fish susceptibility or presence of more than one strain of the parasite? Nature and Science 4, 513.Google Scholar
Ewing, M. S., Kocan, K. M. and Ewing, S. A. (1983). Ichthyophthirius multifiliis: morphology of the cyst wall. Transactions of the American Microscopical Society 102, 122128.CrossRefGoogle Scholar
Fallang, A., Ramsay, J. M., Sevatdal, S., Burka, J. F., Jewess, P., Hammell, K. L. and Horsbergs, T. E. (2004). Evidence for occurrence of an organophosphate-resistant type of acetylcholinesterase in strains of sea lice (Lepeophtheirus salmonis Krøyer). Pest Management Science 60, 11631170.CrossRefGoogle ScholarPubMed
Farley, D. G. and Heckmann, R. (1980). Attempts to control Ichthyophthirius multifiliis Fouquet (Ciliophora: Orphryoglnidae) by chemotherapy and electrotherapy. Journal of Fish Diseases 3, 203212.CrossRefGoogle Scholar
From, J., Karas, N. and Vordermeier, T. (1992). Trials with toltrazuril against Ichthyophthirius multifiliis Fouquet, 1876. Bulletin of European Association of Fish Pathologists 12, 137138.Google Scholar
Gaikowski, M. P., Densmore, C. L. and Blazer, V. S. (2009). Histopathology of repeated, intermittent exposure of chloramine-T to walleye (Sander vitreum) and (Ictalurus punctalus) channel catfish. Aquaculture 287, 2834.CrossRefGoogle Scholar
Garcia, L., Becker, A. G., Copatti, C. E. and Baldisserotto, B. (2007). Salt in food and water as a supportive therapy of Ichthyophthirius multifiliis infestation on silver catfish, Rhamdia quelen, fingerlings. Journal of World Aquaculture Society 38, 111.CrossRefGoogle Scholar
Goodwin, A. E. and Straus, D. L. (2006). Solid and liquid formulations of copper sulphate: efficacy at high and low alkalinities. North American Journal of Aquaculture 68, 359363.CrossRefGoogle Scholar
Gratzek, J. B., Gilbert, J. P., Lohr, A. L., Shotts, E. B. and Brown, J. (1983). Ultraviolet light control of Ichthyophthirius multifiliis Fouquet in a closed fish culture recirculation system. Journal of Fish Diseases 6, 145153.CrossRefGoogle Scholar
Guest, C. W. (1983). Control of Ichthyophthirius in peacock bass fingerlings. Progressive Fish Culturist 45, 57.CrossRefGoogle Scholar
Heinecke, R. D. and Buchmann, K. (2009). Control of Ichthyophthirius multifiliis using a combination of water filtration and sodium percarbonate: dose-response studies. Aquaculture 288, 3235.CrossRefGoogle Scholar
Henderson, A. L., Schmitt, T. C., Heinze, T. M. and Cerniglia, C. E. (1997). Reduction of malachite green to leucomalachite green by intestinal bacteria. Applied Environmental Microbiology 63, 40994101.CrossRefGoogle ScholarPubMed
Herber, T. (2009). Organic compounds used in aquaculture. In Hormones and Pharmaceuticals Generated by Concentrated Animal Feeding Operations, Emerging Topics in Ecotoxicology 1 (ed. Shore, L. S. and Pruden, A.), pp. 95120. Springer Science and Business Media, New York, USA.CrossRefGoogle Scholar
Herwig, N. (1979). Handbook of Drugs and Chemicals used in the Treatment of Fish Diseases. Charles C. Thomas Publisher, Springfield, USA.Google Scholar
Heuer, O. E., Kruse, H., Grave, K., Collignon, P., Karunasagar, I. and Angulo, F. J. (2009). Human health consequences of use of antimicrobial agents in aquaculture. Clinical Infectious Diseases 49, 12481253.CrossRefGoogle ScholarPubMed
Hines, R. S. and Spira, D. T. (1974). Ichthyophthiriasis in the mirror carp Cyprinus carpio L. V. Acquired immunity. Journal of Fish Biology 6, 373378.CrossRefGoogle Scholar
Hoffman, G. L. and Meyer, F. P. (1974). Parasites of Freshwater Fishes. A Review of their Control Treatment. TFH Publication, Inc Neptune City, USA.Google Scholar
Hohreiter, D. W. and Rigg, D. K. (2001). Derivation of ambient water quality criteria for formaldehyde. Chemosphere 45, 471486.CrossRefGoogle ScholarPubMed
Jensen, P. B., Kruse, K. D., Kristensson, R. T. and Buchmann, K. (2001). The effect of sodium percabonate (BioCare SPC) on Ichthyophthirius multifiliis and Gyrodactylus in rainbow trout. Biomar Newsletter 3, 2.Google Scholar
Jørgensen, T. R., Larsen, T. B. and Buchmann, K. (2009). Parasite infections in recirculated rainbow trout (Oncorhynchus mykiss) farms. Aquaculture 289, 9194.CrossRefGoogle Scholar
Johnson, M. D. and Sharma, K. D. (1999). Kinetic and mechanism of the reduction of ferrate by one-electron reductants. Inorganica Chimica Acta 293, 229233.CrossRefGoogle Scholar
Kayis, S., Ozcelep, T., Capkin, E. and Altinok, I. (2009). Protozoan and metazoan parasites of cultured fish in Turkey and their applied treatments. The Israeli Journal of Aquaculture 61, 93102.Google Scholar
Kurovskaya, L. Y. (2005). Effect of violet C antiseptic on the numbers of ectoparasites and some physiological and biochemical indices of carps. Hydrobiological Journal 41, 95102.CrossRefGoogle Scholar
Lauridsen, J. H. and Buchmann, K. (2010). Effects of short and long-term glucan feeding of rainbow trout (Salmonidae) on the susceptibility to Ichthyophthirius multifiliis infections. Acta Ichthyologica et Piscatoria 40, 6166.CrossRefGoogle Scholar
Lahnsteiner, F. and Weismann, T. (2007). Treatment of ichthyophthiriasis in rainbow trout and common carp with common and alternative therapeutics. Journal of Aquatic Animal Health 19, 186194.CrossRefGoogle ScholarPubMed
Lees, F., Baillie, M., Gettinby, G. and Revie, C. W. (2008). The efficacy of emamectin benzoate against infestations of Lepeophtheirus salmonis on farmed Atlantic salmon (Salmo salar L.) in Scotland, 2002–2006. PLoS ONE 3, e1549.CrossRefGoogle ScholarPubMed
Ling, F., Luo, Q., Wang, J. L., Wang, Y. P., Wang, W. B. and Gong, X. N. (2009). Effects of the ‘all-fish’ GH (growth hormone) transgene expression on resistance to Ichthyophthirius multifiliis infections in common carp, Cyprinus carpio L. Aquaculture 292, 15.CrossRefGoogle Scholar
Ling, F., Wang, J. G., Liu, Q. F., Li, M., Ye, L. T. and Gong, X. N. (2010). Prevention of Ichthyophthirius multifiliis infestation in goldfish (Carassius auratus) by postassium ferrate (VI) treatment. Veterinary Parasitology 168, 212216.CrossRefGoogle Scholar
Ling, K. H., Sin, Y. M. and Lam, T. J. (1993). Effect of copper sulfate on ichthyophthiriasis (white spot disease) in goldfish (Carassius auratus). Aquaculture 118, 2325.CrossRefGoogle Scholar
Lom, J. and Dyková, I. (1992). Protozoan Parasites of Fishes. Developments in Aquaculture and Fisheries Science, Vol. 26. Elsevier, Amsterdam.Google Scholar
Luzardo-Álvarez, A., Martínez-Mazagatos, J., Santamarina-Fernández, M. T., Otero-Espinar, F. J. and Blanco-Méndez, J. (2003). Oral pharmacological treatments for Ichthyophthirius of rainbow trout (Oncorhynchus mykiss). Aquaculture 220, 1525.CrossRefGoogle Scholar
Ma, J. and Liu, W. (2002). Effectiveness and mechanism of potassium ferrate (VI) preoxidation for algae removal by coagulation. Water Research 36, 871878.CrossRefGoogle ScholarPubMed
Matthews, R. A. (1994). Ichthyophthirius multifiliis Fouquet, 1876: infection and proactive response within the fish host. In Parasitic Diseases of Fish (ed. Pike, A. W. and Lewis, J. W.), Samara Publishing Ltd., Dyfed.Google Scholar
Matthews, R. A. (2005). Ichthyophthirius multifiliis Fouquet and ichthyophthiriosis in freshwater teleosts. Advances in Parasitology 59, 159241.CrossRefGoogle ScholarPubMed
Mehlhorn, H., Schmahl, G. and Heberkorn, A. (1988). Toltrazuril effective against a broad spectrum of protozoan parasites. Parasitology Research 75, 6466.CrossRefGoogle ScholarPubMed
Meinelt, T., Pietrock, M., Burnison, K. and Steinberg, C. (2005). Formaldehyde toxicity is altered by calcium and organic matter. Journal of Applied Ichthyology 21, 121124.CrossRefGoogle Scholar
Meinelt, T., Matzke, S., Stüber, A., Pietrock, M., Wienke, A., Mitchell, A. J. and Straus, D. L. (2009). Toxicity of peracetic acid (PAA) to tomonts of Ichthyophthirius multifiliis. Diseases of Aquatic Organisms 86, 5156.CrossRefGoogle Scholar
Mifsud, C. and Rowland, S. J. (2008). Use of salt to control ichthyophthiriosis and prevent saprolegniosis in silver perch, Bidyanus bidyanus. Aquaculture Research 39, 11751180.CrossRefGoogle Scholar
Miron, D. S., Silva, L. V. F., Golombieski, J. I. and Baldisserotto, B. (2003). Efficacy of different salt (NaCl) concentrations in the treatment of Ichthyophthirius multifiliis-infected silver catfish, Rhamdia quelen, fingerlings. Journal of Applied Aquaculture 14, 155161.CrossRefGoogle Scholar
Moore, J. M. (2005). Comparison of copper toxicity to channel catfish, Ictalurus punctatus, and blue catfish, I. furcatus, fingerlings. Journal of Applied Aquaculture 17, 7784.CrossRefGoogle Scholar
Noble, A. C. and Summerfelt, S. T. (1996). Diseases encountered in rainbow trout cultured in recirculating systems. Annual Review of Fish Diseases 6, 6592.CrossRefGoogle Scholar
Noga, E. J. (2010). Fish Disease: Diagnosis and Treatment. Wiley-Blackwell.CrossRefGoogle Scholar
Novartis (2002). Pyceze: Technical dossier. Information for Farmers. Novartis Animal Vaccines. UK.Google Scholar
Pedersen, L. F., Pedersen, P. B., Nielsen, J. L. and Nielsen, P. H. (2009). Peracetic acid degradation and effects on nitrification in recirculating aquaculture systems. Aquaculture 296, 246254.CrossRefGoogle Scholar
Picón-Camacho, S. M., Taylor, N. G. H., Bron, J. E., Guo, F. C. and Shinn, A. P. (2011 a). Effects of continuous exposure to low doses of bronopol on the infection dynamics of Ichthyophthirius multifiliis (Ciliophora), parasitising rainbow trout (Oncorhynchus mykiss Walbaum). Veterinary Parasitology (in the Press).Google Scholar
Picón-Camacho, S. M., Marcos-Lopez, M., Beljean, A., Debeaume, S. and Shinn, A. P. (2011 b). In vitro assessment of the chemotherapeutic action of a specific hydrogen peroxide, peracetic and peroctanoic acid based formulation against the free-living stages of Ichthyophthirius multifiliis (Ciliophora). Parasitology Research.Google ScholarPubMed
Pieters, N., Brunt, J., Austin, B. and Lyndon, A. R. (2008). Efficacy of in-feed probiotics against Aeromonas bestiarum and Ichthyophthirius multifiliis skin infections in rainbow trout (Oncorhynchus mykiss, Walbaum). Journal of Applied Microbiology 105, 723732.CrossRefGoogle ScholarPubMed
Pillay, T. V. R. and Kutty, M. N. (2005). Aquaculture: Principles and Practices. Blackwell Publishing, Oxford.Google Scholar
Post, G. and Vesely, K. R. (1983). Administration of drugs by hyperosmotic or vacuum infiltration or surfactant immersion ineffective for control of intradermally encysted Ichthyophthirius multifiliis. Progressive Fish Culturist 45, 164166.CrossRefGoogle Scholar
Pottinger, T. G. and Day, J. G. (1999). A Saprolegnia parasitica challenge system for rainbow trout: assessment of Pyceze as an anti-fungal control agent for both fish and ova. Diseases of Aquatic Organisms 36, 129141.CrossRefGoogle Scholar
Powell, M. and Harris, J. (2004). Influence of oxygen on the toxicity of chloramine-T to Atlantic salmon smolts in freshwater and seawater. Journal of Aquatic Animal Health 16, 8392.CrossRefGoogle Scholar
Rábago-Castro, J. L., Sanchez, J. G., Pérez-Castaneda, R. and González-González, A. (2006). Effects of the prophylactic use of Romet®-30 and copper sulfate on growth, condition and feeding indices in channel catfish (Ictalurus punctatus). Aquaculture 253, 343349.CrossRefGoogle Scholar
Rahkonen, R. and Koski, P. (2002). Post malachite green: alternative strategies for fungal infections and white spot disease. Bulletin of European Association of Fish Pathologists 22, 152157.Google Scholar
Rapp, J. (1995). Treatments of rainbow trout (Oncorhynchus mykiss Walb.) fry infected with Ichthyophthirius multifiliis by oral administration of dimetrazole. Bulletin of European Association of Fish Pathologists 15, 6769.Google Scholar
Rintamäki-Kinnunen, P. and Valtonen, E. T. (1997). Epizootiology of protozoans in farmed salmonids in northern latitudes. International Journal of Parasitology 27, 8999.CrossRefGoogle ScholarPubMed
Rintamäki-Kinnunen, P., Rahkonen, M., Mannermaa-Keränen, A. L., Suomalainen, L. R., Mykrä, H. and Valtonen, E. T. (2005 a). Treatment of ichthyophthiriasis after malachite green. I. Concrete tanks at salmonid farms. Diseases of Aquatic Organisms 64, 6976.CrossRefGoogle ScholarPubMed
Rintamäki-Kinnunen, P., Rahkonen, M., Mykrä, H. and Valtonen, E. T. (2005 b). Treatment of ichthyophthiriasis after malachite green. II. Earth ponds at salmonids farms. Diseases of Aquatic Organisms 66, 1520.CrossRefGoogle ScholarPubMed
Rowland, S. J., Misfud, C., Nixon, M., Read, P. and Landos, M. (2009). Use of formalin and copper to control ichthyophthiriosis in the Australian freshwater fish silver perch (Bidyanus bidyanus Mitchell). Aquaculture Research 40, 4454.CrossRefGoogle Scholar
Ruider, S., Schmal, G., Mehlhorn, H., Scmidt, H. and Ritter, G. (1997). Effects of different malachite green derivates and metabolites on the fish ectoparasite, Ichthyophthirius multifiliis, Fouquet 1876 (Hymenostomatida, Ciliophora). European Journal of Protistology 33, 375388.CrossRefGoogle Scholar
Sanabria, C., Diamant, A. and Zilberg, D. (2009). Effects of commonly used disinfectants and temperature on swim bladder non-inflation in freshwater angelfish, Pterophyllum scalare (Lichtenstein). Aquaculture 292, 158165.CrossRefGoogle Scholar
Schmidt, L. J., Gaikowski, M. P. and Gingerich, W. H. (2006). Environmental Assessment for the Use of Hydrogen Peroxide in Aquaculture for Treating External Fungal and Bacterial Diseases of Cultured Fish and Fish Eggs. USGS. Science for a Changing World. pp. 180.Google Scholar
Schlenk, D., Gollon, J. L. and Griffin, B. R. (1998). Efficacy of copper sulfate for the treatment of ichthyophthiriasis in channel catfish. Journal of Aquatic Animal Health 10, 390396.2.0.CO;2>CrossRefGoogle Scholar
Schlotfeld, H. J. (1993). Chemikalien zur therapie bei nutzfischen nun zugelassen! Standard-Zulassungen. Fisch Teichwirt 12, 421424.Google Scholar
Schlotfeld, H. J. (1998). Therapienotstand bei fischen in der Bundesrepublik Deutschland. Fisch Teichwirt 2, 4247.Google Scholar
Schmahl, G., Mehlhorn, H. and Taraschewski, H. (1989). Treatment of fish parasites. 5. The effects of sym. triazinone (toltrazuril) on fish parasitic Ciliophora (Ichthyophthirius multifiliis Fouquet, 1876, Apiosoma amoebea Grenfell, 1884, Trichodina sp. Ehrenberg, 1831). European Journal of Protistology 24, 152161.CrossRefGoogle ScholarPubMed
Schmahl, G., Schmidt, H. and Ritter, G. (1996). The control of ichthyopthiriasis by a medicated food containing quinine: efficacy test and ultrastructure investigations. Parasitology Research 82, 697705.CrossRefGoogle Scholar
Schnick, R. A. (1988). The impetus to register new therapeutants for aquaculture. Progressive Fish Culturist 50, 190196.2.3.CO;2>CrossRefGoogle Scholar
Selosse, P. M. and Rowland, S. J. (1990). Use of common salt to treat ichthyophthiriasis in Australian warm water fishes. Progressive Fish Culturist 52, 124127.2.3.CO;2>CrossRefGoogle Scholar
Shinn, A., Wootten, R., Sommerville, C. and Conway, D. (2001). Putting the squeeze on whitespot. Trout News 32, 2025.Google Scholar
Shinn, A. P., Wootten, R. and Sommerville, C. (2003a). Alternative compounds for the treatment of Ichthyophthirius multifiliis infecting rainbow trout. Trout News 35, 3841.Google Scholar
Shinn, A. P., Wootten, R., Côte, I. and Sommerville, C. (2003 b). Efficacy of selected oral chemotherapeutants against Ichthyophthirius multifiliis (Ciliophora: Ophyroglenidae) infecting rainbow trout Oncorhynchus mykiss. Diseases of Aquatic Organisms 55, 1722.CrossRefGoogle ScholarPubMed
Shinn, A., Taylor, N. and Wootten, R. (2005). Development of a management system for the control of Ichthyophthirius multifiliis. Trout News 40, 2125.Google Scholar
Shinn, A. P., Picón-Camacho, S. M., Bawden, R. and Taylor, N. G. H. (2009). Mechanical control of Ichthyophthirius multifiliis Fouquet, 1876 (Ciliophora) in a rainbow trout hatchery. Aquaculture Engineering 41, 152157.CrossRefGoogle Scholar
Shinn, A. P., Picón-Camacho, S. M., Bron, J. E., Conway, D., Yoon, G. H., Guo, F. C. and Taylor, N. G. H. (2011). The anti-protozoal activity of bronopol on the key life-stages of Ichthyophthirius multifiliis Fouquet, 1876 (Ciliophora). Veterinary Parasitology (in press).Google ScholarPubMed
Sommerset, I., Krossøy, B., Biering, E. and Frost, P. (2005). Vaccines for fish in aquaculture. Expert Reviews of Vaccines 4, 89101.CrossRefGoogle ScholarPubMed
Straus, D. L. and Griffin, B. R. (2001). Prevention of an initial infestation of Ichthyophthirius multifiliis in channel catfish and blue tilapia by potassium permanganate treatment. North American Journal of Aquaculture 63, 1116.2.0.CO;2>CrossRefGoogle Scholar
Srivastava, S., Sinha, R. and Roy, D. (2004). Toxicological effects of malachite green. Aquatic Toxicology 66, 319329.CrossRefGoogle ScholarPubMed
Straus, D. L. and Griffin, B. R. (2002). Efficacy of potassium permanganate in treating ichthyophthiriasis in channel catfish. Journal of Aquatic Animal Health 14, 145148.2.0.CO;2>CrossRefGoogle Scholar
Straus, D. L. (1993). Prevention of Ichthyophthirius multifiliis infestation in channel catfish fingerlings by copper sulfate treatment. Journal of Aquatic Animal Health 5, 152154.2.3.CO;2>CrossRefGoogle Scholar
Straus, D. L. (2008). Comparison of copper sulphate concentrations to control ichthyophthiriasis in fingerling channel catfish. Journal of Applied Aquaculture 20, 272284.CrossRefGoogle Scholar
Straus, D. L. and Meinelt, T. (2009). Acute toxicity of peracetic acid (PAA) formulations to Ichthyophthirius multifiliis theronts. Parasitology Research 104, 12371241.CrossRefGoogle ScholarPubMed
Straus, D. L., Hossain, M. M. and Clark, T. G. (2009). Strain differences in Ichthyophthirius multifiliis to copper toxicity. Diseases of Aquatic Organisms 83, 3136.CrossRefGoogle Scholar
Sudová, E., Straus, D. L., Wienke, A. and Meinelt, T. (2010). Evaluation of continuous 4-day exposure to peracetic acid as a treatment for Ichthyophthirius multifiliis. Parasitology Research 106, 539542.CrossRefGoogle ScholarPubMed
Swennes, A. G., Findly, R. C. and Dickerson, H. W. (2007). Cross-immunity and antibody responses to different immobilisation serotypes of Ichthyophthirius multifiliis. Fish Shellfish Immunology 22, 589597.CrossRefGoogle ScholarPubMed
Tieman, D. M. and Goodwin, A. E. (2001). Treatments of ich infestations in channel catfish evaluated under static and flow-through water conditions. North American Journal of Aquaculture 63, 293299.2.0.CO;2>CrossRefGoogle Scholar
Tojo, J. L., Santamarina, M. T., Ubeira, F. M., Leiro, J. and Sanmartin, M. L. (1994). Trials for the control of ichthyophthiriosis in rainbow trout (Oncorhynchus mykiss). Bulletin of European Association of Fish Pathologists 14, 148152.Google Scholar
Tojo-Rodriguez, J. L. and Santamarina-Fernandez, M. T. (2001). Attempts at oral pharmacological treatment of Ichthyophthirius multifiliis in rainbow trout, Oncorhynchus mykiss (Walbaum). Journal of Fish Diseases 24, 249252.CrossRefGoogle Scholar
Tokşen, E. and Nemli, E. (2010). Oral treatment trials on telescope fish (Carassius auratus) experimentally infected with Ichthyophthirius multifiliis (Fouquet, 1876). Bulletin of European Association of Fish Pathologists 30, 4852.Google Scholar
Treves-Brown, K. M. (2000). Applied Fish Pharmacology. Kluwer Academic Publishers, Dordrecht.CrossRefGoogle Scholar
Tucker, C. S. (1987). Acute toxicity of potassium permanganate to channel catfish fingerlings. Aquaculture 60, 9398.CrossRefGoogle Scholar
Ullal, A. J., Litaker, R. W. and Noga, E. J. (2008). Antimicrobial peptides derived from haemoglobin are expressed in epithelium of channel catfish (Ictalurus punctatus, Rafinesque). Developmental and Comparative Immunology 32, 13011312.CrossRefGoogle ScholarPubMed
Ullal, A. J. and Noga, E. J. (2010). Antiparasitic activity of the antimicrobial pepetide HbβP-1, a member of the β-haemoglobin peptide family. Journal of Fish Diseases 33, 657664.CrossRefGoogle Scholar
Valtonen, E. T. and Koskivaara, M. (1994). Relationships between the parasites of some wild and cultured fishes in two lakes and a fish farm in central Finland. International Journal of Parasitology 24, 109118.CrossRefGoogle Scholar
Wagner, G. (1960). Der Entwicklungszyklus von Ichthyophthirius multifiliis Fouquet und der Einfluss physikalischer und chemischer aussenfaktoren. Zeitschrift Fisherei 9, 425443.Google Scholar
Wahli, T., Streiff, K. and Meier, W. (1985). Influence of ascorbic acid on Ichthyophthirius multifiliis infections in trout. Bulletin of European Association of Fish Pathologists 4, 8687.Google Scholar
Wahli, T., Schmitt, M. and Meier, W. (1993). Evaluation of alternatives to malachite green oxalate as a therapeutant for ichthyopthirius in ranbow trout, Oncorhynchus mykiss. Journal of Applied Ichthyology 9, 237249.CrossRefGoogle Scholar
Wahli, T., Frischknecht, R., Schmitt, M., Gabaudan, J., Verlhac, V. and Meier, W. (1995). A comparison of the effect of silicone coated ascorbic acid and ascorbyl phosphate on the course of ichthyophthiriosis in rainbow trout, Oncorhynchus mykiss (Walbaum). Journal of Fish Diseases 18, 347355.CrossRefGoogle Scholar
Wahli, T., Verlhac, V., Gabaudan, J., Schüep, W. and Meier, W. (1998). Influence of combined vitamins C and E on non-specific immunity and diseases resistance of rainbow trout, Oncorhynchus mykiss (Walbaum). Journal of Fish Diseases 21, 127137.CrossRefGoogle Scholar
Wooster, G. A., Martinez, C. M. and Bowser, P. R. (2005). Human health risks associated with formalin treatments used in aquaculture: Initial study. North American Journal of Aquaculture 67, 111113.CrossRefGoogle Scholar
World Health Organization, International Agency for Research on Cancer (2006). Formaldehyde, 2- butoxyethanol and 1-tert-butoxypropan-2-ol. IARC monographs on the evaluation of carcinogenic risks to humans Volume 88. World Health Organization, International Agency for Research on Cancer, Lyon.Google Scholar
Xu, D. H., Schoemaker, C. A. and Klesius, P. H. (2008). Effect of tricaine methanesulfonate on survival and reproduction of the fish ectoparasite Ichthyophthirius multifiliis. Parasitology Research 103, 979982.CrossRefGoogle ScholarPubMed
Yao, J. Y., Shen, J. Y., Li, X. L., Xu, Y., Hao, G. J., Pan, X. Y., Wang, G. X. and Yin, W. L. (2010). Effect of sanguinarine from the leaves of Macleaya cordata against Ichthyophthirius multifiliis in grass carp (Ctenopharyngodon idella). Parasitology Research 107, 10351042.CrossRefGoogle ScholarPubMed