Pathogenic Potential of Fresh, Frozen, and Thermally Treated Anisakis spp. Type II (L3) (Nematoda: Anisakidae) after Oral Inoculation into Wistar Rats: A Histopathological Study
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Abdel-Ghaffar, F., Abdel-Gaber, R., Bashtar, A. R., Morsy, K., Mehlhorn, H., Al-Quraishy, S., and Saleh, R. 2015. Hysterothylacium aduncum (Nematoda, Anisakidae) with a new host record from the common sole Solea solea (Soleidae) and its role as a biological indicator of pollution. Parasitology Research 14:513–522.Abdel-GhaffarF.Abdel-GaberR.BashtarA. R.MorsyK.MehlhornH.Al-QuraishyS., and SalehR.2015. Hysterothylacium aduncum (Nematoda, Anisakidae) with a new host record from the common sole Solea solea (Soleidae) and its role as a biological indicator of pollution. Parasitology Research14:513–522.10.1007/s00436-014-4213-1Search in Google Scholar
Abdel-Ghaffar, F., Bashtar, A. R., Abdel-Gaber, R., Morsy, K., Mehlhorn, H., Al Quraishy, S., and Mohammed, S. 2014. Cucullanus egyptae sp. nov. (Nematoda, Cucullanidae) infecting the European eel Anguilla anguilla in Egypt. Morphological and molecular phylogenetic studies. Parasitology Research 113:3457–3465.Abdel-GhaffarF.BashtarA. R.Abdel-GaberR.MorsyK.MehlhornH.Al QuraishyS., and MohammedS.2014. Cucullanus egyptae sp. nov. (Nematoda, Cucullanidae) infecting the European eel Anguilla anguilla in Egypt. Morphological and molecular phylogenetic studies. Parasitology Research113:3457–3465.10.1007/s00436-014-4016-4Search in Google Scholar
AL-Kindi, H., Devi, L., and George, M. 2009. Splenic pathology in traumatic rupture of the spleen: A five year study. Oman Medical Journal 24:81–83.AL-KindiH.DeviL., and GeorgeM.2009. Splenic pathology in traumatic rupture of the spleen: A five year study. Oman Medical Journal24:81–83.Search in Google Scholar
Audicana, M., Fernández de Corres, L., Muñoz, D., Fernández, E., Navarro, J. A., and Del Pozo, M. D. 1995. Recurrent anaphylaxis due to Anisakis simplex parasitizing sea-fish. Journal of Allergy and Clinical Immunology 96:558–560.AudicanaM.Fernández de CorresL.MuñozD.FernándezE.NavarroJ. A., and Del PozoM. D.1995. Recurrent anaphylaxis due to Anisakis simplex parasitizing sea-fish. Journal of Allergy and Clinical Immunology96:558–560.10.1016/S0091-6749(95)70301-2Search in Google Scholar
Audicana, M. T., Ansotegui, I. J., De Corres, L. F., and Kennedy, M. W. 2002. Anisakis simplex: Dangerous–dead and alive? Trends in Parasitology 18:20–25.AudicanaM. T.AnsoteguiI. J.De CorresL. F., and KennedyM. W.2002. Anisakis simplex: Dangerous–dead and alive?Trends in Parasitology18:20–25.10.1016/S1471-4922(01)02152-3Search in Google Scholar
Audicana, M. T., and Kennedy, M. W. 2008. Anisakis simplex: From obscure infectious worm to inducer of immune hypersensitivity. Clinical Microbiology Reviews 21:360–379.AudicanaM. T., and KennedyM. W.2008. Anisakis simplex: From obscure infectious worm to inducer of immune hypersensitivity. Clinical Microbiology Reviews21:360–379.10.1128/CMR.00012-07229257218400801Search in Google Scholar
Baeza, M. L., Conejero, L., Higaki, Y., Martín, E., Pérez, C., Infante, S., Rubio, M., and Zubeldia, J. M. 2005. Anisakis simplex allergy: A murine model of anaphylaxis induced by parasitic proteins displays a mixed Th1/Th2 pattern. Clinical & Experimental Immunology 142:433–440.BaezaM. L.ConejeroL.HigakiY.MartínE.PérezC.InfanteS.RubioM., and ZubeldiaJ. M.2005. Anisakis simplex allergy: A murine model of anaphylaxis induced by parasitic proteins displays a mixed Th1/Th2 pattern. Clinical & Experimental Immunology142:433–440.10.1111/j.1365-2249.2005.02952.x180952616297154Search in Google Scholar
Balogh, P., Horvath, G., and Szakal, A. K. 2004. Immunoarchitecture of distinct reticular fibroblastic domains in the white pulp of mouse spleen. Journal of Histochemistry & Cytochemistry 52:1287–1298.BaloghP.HorvathG., and SzakalA. K.2004. Immunoarchitecture of distinct reticular fibroblastic domains in the white pulp of mouse spleen. Journal of Histochemistry & Cytochemistry52:1287–1298.10.1177/00221554040520100515385575Search in Google Scholar
Berland, B. 1961. Nematodes from some Norwegian marine fishes. Sarsia 2:1–50.BerlandB.1961. Nematodes from some Norwegian marine fishes. Sarsia2:1–50.10.1080/00364827.1961.10410245Search in Google Scholar
Caballero, M. L., and Moneo, I. 2004. Several allergens from Anisakis simplex are highly resistant to heat and pepsin treatments. Parasitology Research 93:248–251.CaballeroM. L., and MoneoI.2004. Several allergens from Anisakis simplex are highly resistant to heat and pepsin treatments. Parasitology Research93:248–251.10.1007/s00436-004-1099-315138891Search in Google Scholar
Carleton, H. 1967. Carleton’s histological technique. 4th ed. New York: Oxford University Press.CarletonH.1967. Carleton’s histological technique. 4th ed. New York: Oxford University Press.Search in Google Scholar
Cesta, M. F. 2006. Normal structure, function, and histology of the spleen. Toxicologic Pathology 34:455–465.CestaM. F.2006. Normal structure, function, and histology of the spleen. Toxicologic Pathology34:455–465.10.1080/0192623060086774317067939Search in Google Scholar
Chai, J., Murrell, K. D., and Lymbery, A. J. 2005. Fish-borne parasitic zoonoses: Status and issues. International Journal Parasitology 35:1233–1254.ChaiJ.MurrellK. D., and LymberyA. J.2005. Fish-borne parasitic zoonoses: Status and issues. International Journal Parasitology35:1233–1254.10.1016/j.ijpara.2005.07.01316143336Search in Google Scholar
Drury, R. A., and Wallington, A. 1967. Carleton’s histological techniques. 4th ed. New York: Oxford University Press.DruryR. A., and WallingtonA.1967. Carleton’s histological techniques. 4th ed. New York: Oxford University Press.Search in Google Scholar
Dutz, W., Azadeh, B., Kohout, E., and Vessal, K. 1973. Infantile enteritis as a cause of thymolymphatic atrophy. Monatsschrift Kinderheilkunde 115:155–161.DutzW.AzadehB.KohoutE., and VessalK.1973. Infantile enteritis as a cause of thymolymphatic atrophy. Monatsschrift Kinderheilkunde115:155–161.10.1007/BF004405404542747Search in Google Scholar
Elmore, S. A. 2006. Enhanced histopathology of the thymus. Toxicologic Pathology 34:656–665.ElmoreS. A.2006. Enhanced histopathology of the thymus. Toxicologic Pathology34:656–665.10.1080/01926230600865556180058917067951Search in Google Scholar
Figueiredo, I., Jr., Cardoso, L., Teixeira, G., Lopes, L., São Clemente, S. C., and Vericimo, M. A. A. 2012. Technique for the intragastric administration of live larvae of Anisakis simplex in mice. Experimental Parasitology 130:285–287.FigueiredoI.Jr.CardosoL.TeixeiraG.LopesL.São ClementeS. C., and VericimoM. A. A.2012. Technique for the intragastric administration of live larvae of Anisakis simplex in mice. Experimental Parasitology130:285–287.10.1016/j.exppara.2012.01.00422269442Search in Google Scholar
Haley, P., Perry, R., Ennulat, D., Frame, S., Johnson, C., Lapointe, J. M., Nyska, A., Snyder, P., Walker, D., and Walter, G. 2005. STP position paper: Best practice guideline for the routine pathology evaluation of the immune system. Toxicologic Pathology 33:404–407.HaleyP.PerryR.EnnulatD.FrameS.JohnsonC.LapointeJ. M.NyskaA.SnyderP.WalkerD., and WalterG.2005. STP position paper: Best practice guideline for the routine pathology evaluation of the immune system. Toxicologic Pathology33:404–407.10.1080/0192623059093430415805080Search in Google Scholar
Klimpel, S., Abdel-Ghaffar, F., Al-Rasheid, K. A., Aksu, G., Fischer, K., Strassen, B., and Mehlhorn, H. 2011. The effects of different plant extracts on nematodes. Parasitology Research 108:1047–1054.KlimpelS.Abdel-GhaffarF.Al-RasheidK. A.AksuG.FischerK.StrassenB., and MehlhornH.2011. The effects of different plant extracts on nematodes. Parasitology Research108:1047–1054.10.1007/s00436-010-2168-421110041Search in Google Scholar
Levin, S., Bucci, T. J., Cohen, S. M., Fix, A. S., Hardisty, J. F., Legrand, E. K., Maronpot, R. R., and Trump, B. F. 1999. The nomenclature of cell death: Recommendations of an ad hoc Committee of the Society of Toxicologic Pathologists. Toxicologic Pathology 27:484–90.LevinS.BucciT. J.CohenS. M.FixA. S.HardistyJ. F.LegrandE. K.MaronpotR. R., and TrumpB. F.1999. The nomenclature of cell death: Recommendations of an ad hoc Committee of the Society of Toxicologic Pathologists. Toxicologic Pathology27:484–90.10.1177/01926233990270041910485836Search in Google Scholar
Madden, P. A., and Tromba, F. G. 1976. Scanning electron microscopy of the lip denticles of Ascaris suurn adults of known ages. Journal of Parasitology 62:265–271.MaddenP. A., and TrombaF. G.1976. Scanning electron microscopy of the lip denticles of Ascaris suurn adults of known ages. Journal of Parasitology62:265–271.10.2307/3279282Search in Google Scholar
Mebius, R. E., and Kraal, G. 2005. Structure and function of the spleen. Nature Reviews Immunology 5:606–16.MebiusR. E., and KraalG.2005. Structure and function of the spleen. Nature Reviews Immunology5:606–16.10.1038/nri166916056254Search in Google Scholar
Mehlhorn, H., AL-Quraishy, S., AL-Rasheid, K. A., Jatzlau, A., and Abdel-Ghaffar, F. 2011. Addition of a combination of onion (Allium cepa) and coconut (Cocos nucifera) to food of sheep stops gastrointestinal helminthic infections. Parasitology Research 108:1041–1046.MehlhornH.AL-QuraishyS.AL-RasheidK. A.JatzlauA., and Abdel-GhaffarF.2011. Addition of a combination of onion (Allium cepa) and coconut (Cocos nucifera) to food of sheep stops gastrointestinal helminthic infections. Parasitology Research108:1041–1046.10.1007/s00436-010-2169-321120531Search in Google Scholar
Morsy, K., Bashtar, A. R., Abdel-Ghaffar, F., and Mostafa, N. 2013. New host and locality records of two nematode parasites Dujardinnascaris mujibii (Heterocheilidae) and Hysterothylacium aduncum (Anisakidae) from the common seabream Pagrus pagrus: A light and scanning electron microscopic study. Parasitology Research 112:807–815.MorsyK.BashtarA. R.Abdel-GhaffarF., and MostafaN.2013. New host and locality records of two nematode parasites Dujardinnascaris mujibii (Heterocheilidae) and Hysterothylacium aduncum (Anisakidae) from the common seabream Pagrus pagrus: A light and scanning electron microscopic study. Parasitology Research112:807–815.10.1007/s00436-012-3270-6Search in Google Scholar
Morsy, K., Bashtar, A. R., Mostafa, N., El Deeb, S., and Thabet, S. 2015. New host records of three juvenile nematodes in Egypt: Anisakis sp. (Type II), Hysterothylacium patagonense (Anisakidae), and Echinocephalus overstreeti (Gnathostomatidae) from the greater lizard fish Saurida undosquamis of the Red Sea. Parasitology Research 114:513–522.MorsyK.BashtarA. R.MostafaN.El DeebS., and ThabetS.2015. New host records of three juvenile nematodes in Egypt: Anisakis sp. (Type II), Hysterothylacium patagonense (Anisakidae), and Echinocephalus overstreeti (Gnathostomatidae) from the greater lizard fish Saurida undosquamis of the Red Sea. Parasitology Research114:513–522.Search in Google Scholar
Nolte, M. A., Hamann, A., Kraal, G., and Mebius, R. E. 2002. The strict regulation of lymphocyte migration to splenic white pulp does not involve common homing receptors. Immunology 106:299–307.NolteM. A.HamannA.KraalG., and MebiusR. E.2002. The strict regulation of lymphocyte migration to splenic white pulp does not involve common homing receptors. Immunology106:299–307.10.1046/j.1365-2567.2002.01443.xSearch in Google Scholar
Pearse, G. 2006. Histopathology of the thymus. Toxicologic Patholology 34:515–547.PearseG.2006. Histopathology of the thymus. Toxicologic Patholology34:515–547.10.1080/01926230600978458Search in Google Scholar
Pippy, J. H. C., and van Banning, P. 1975. Identification of Anisakis larva (1) as Anisakis simplex (Rudolphi, 1809 det. Krabbe, 1878) (Nematoda: Ascaridata). Journal of the Fisheries Research Board of Canada 32:29–32.PippyJ. H. C., and van BanningP.1975. Identification of Anisakis larva (1) as Anisakis simplex (Rudolphi, 1809 det. Krabbe, 1878) (Nematoda: Ascaridata). Journal of the Fisheries Research Board of Canada32:29–32.10.1139/f75-004Search in Google Scholar
Randall, J. E. 1992. Red Sea reef fishes. London, UK: Immel Publishing Limited.RandallJ. E.1992. Red Sea reef fishes. London, UK: Immel Publishing Limited.Search in Google Scholar
Rocka, A. 2004. Nematodes of the Antarctic fishes. Polish Polar Research 25(2):135–152.RockaA.2004. Nematodes of the Antarctic fishes. Polish Polar Research25(2):135–152.Search in Google Scholar
Smith, J. W. 1984. The abundance of Anisakis simplex L3 in the bodycavity and flesh of marine teleosts. International Journal Parasitology 14:491–495.SmithJ. W.1984. The abundance of Anisakis simplex L3 in the bodycavity and flesh of marine teleosts. International Journal Parasitology14:491–495.10.1016/0020-7519(84)90030-4Search in Google Scholar
Smythe, P. M., Brereton-Stiles, G. G., Grace, H. J., Mafoyane, A., Schonland, M., Coovadia, H. M., Loening, W. E., Parent, M. A., and Vos, G. H. 1971. Thymo-lymphatic deficiency and depression of cell mediated immunity in protein calorie malnutrition. Lancet 30:939–943.SmytheP. M.Brereton-StilesG. G.GraceH. J.MafoyaneA.SchonlandM.CoovadiaH. M.LoeningW. E.ParentM. A., and VosG. H.1971. Thymo-lymphatic deficiency and depression of cell mediated immunity in protein calorie malnutrition. Lancet30:939–943.10.1016/S0140-6736(71)90267-4Search in Google Scholar
Stefanski, S. A., Elwell, M. R., and Stromberg, P. C. 1990. Spleen, lymph nodes, and thymus. Pp. 369–394 in G. A. Boorman, S. L. Eustis, M. R. Elwell, C. A. Montgomery, and W. F. MacKenzie, eds. Pathology of the Fischer rat: Reference and Atlas. San Diego, CA: Academic Press.StefanskiS. A.ElwellM. R., and StrombergP. C.1990. Spleen, lymph nodes, and thymus. Pp. 369–394inG. A.BoormanS. L.EustisM. R.ElwellC. A.Montgomery, and W. F.MacKenzie, eds. Pathology of the Fischer rat: Reference and Atlas. San Diego, CA: Academic Press.Search in Google Scholar
Suttie, A. W. 2006. Histopathology of the spleen. Toxicologic Pathology 34:466–503.SuttieA. W.2006. Histopathology of the spleen. Toxicologic Pathology34:466–503.10.1080/0192623060086775017067940Search in Google Scholar
Takahashi, S., Ishikura, H., and Kikuchi, K. 1998. Anisakidosis: Global point of view. Pp. 109–120 in H. Ishikura, M. Aikawa, H. Itakura, and K. Kikuchi, eds. Host response to international parasitic zoonoses. Tokyo: Springer.TakahashiS.IshikuraH., and KikuchiK.1998. Anisakidosis: Global point of view. Pp. 109–120inH.IshikuraM.AikawaH.Itakura, and K.Kikuchi, eds. Host response to international parasitic zoonoses. Tokyo: Springer.10.1007/978-4-431-68281-3_9Search in Google Scholar
Van Thiel, P. H. 1962. Anisakiasis. Parasitology 52:16–17.Van ThielP. H.1962. Anisakiasis. Parasitology52:16–17.Search in Google Scholar
Verinaud, L., a Souto, P. C., and Brito de Souza, V. (2004). Thymic atrophy in infectious diseases. Brazilian Journal of Morphological Sciences 21:111–116.VerinaudL.a SoutoP. C., and Brito de SouzaV. (2004). Thymic atrophy in infectious diseases. Brazilian Journal of Morphological Sciences21:111–116.Search in Google Scholar
Ward, J. M., Mann, P. C., Morishima, H., and Frith, C. H. 1999. Thymus, spleen, and lymph nodes. Pp. 333–360 in R. R. Maronpot, ed. Pathology of the mouse. Vienna, IL: Cache River Press.WardJ. M.MannP. C.MorishimaH., and FrithC. H.1999. Thymus, spleen, and lymph nodes. Pp. 333–360inR. R.Maronpot, ed. Pathology of the mouse. Vienna, IL: Cache River Press.Search in Google Scholar
Yazdanbakhsh, M., Kremsner, P. G., and Van Ree, R. 2002. Allergy, parasites, and the hygiene hypothesis. Science 296:490.YazdanbakhshM.KremsnerP. G., and Van ReeR.2002. Allergy, parasites, and the hygiene hypothesis. Science296:490.10.1126/science.296.5567.49011964470Search in Google Scholar