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Previous issue date: 2016-02-23 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico - CNPq / The nematode Angiostrongylus cantonensis has gained notoriety under the public health point of view out of its endemic area in Asia, since in recent years cases of eosinophilic meningoencephalitis have been reported in other continents, such as in the Americas. In Brazil over thirty cases of this zoonotic disease have been recorded and there are reports of the presence of this nematode in 11 states. In its life cycle A. cantonensis has, along their development, need for intermediate and final host, involving predominantly molluscs and rodents, respectively, and different paratenic hosts, humans are accidental hosts. They can also infect a rich variety of terrestrial and aquatic molluscs and in this study, there were used specimens of neotropical planorbids transmitters of schistosomiasis, Biomphalaria straminea and Biomphalaria tenagophila, born and reared in the laboratoryfor experimental infection by A. cantonensis. In order to characterize the resulting physiological profile that host-parasite relationship, the host molluscs were separated into groups of infected and uninfected containing thirty molluscs per group, all made in triplicates. The investigation lasted 21 days, after the pre-patent period molluscs were dissected to collect hemolymph, removal of tissues and use the shell for calcium concentration check. The reproductive biology of both species was observed on the viability of the eggs, as well as (A) Number of eggs/ eggs mass; (B) Number of eggs/mollusc; (C) Number of eggs mass/mollusc and (D) Number of hatched molluscs/mollusc. In the hemolymph there were quantified total protein, glucose, uric acid, urea, the activity of transaminases AST and ALT, lactate dehydrogenase - LDH, and organic acids (oxalic, pyruvic, succinic and lactic). In the cephalopedal mass and digestive gland the glycogen content was measured and in the albumen gland, it was measured the galactogen. The results showed that the snails infected, of both species showed significant reduction in the viability of eggs, 50% for B. straminea and 10% for B. tenagophila. The metabolic status was also strongly affected, with mobilization of glycogen and hemolymph glucose reduction of 68% to B. straminea and 6.48% for B. tenagophila, followed by anincrease of LDH activity of 518.25% to 320.14% B. straminea and to B. tenagophila as well as the concentration of lactic acid, 5,7mM to B. straminea and 0.34 mM for B. tenagophila, and reduction in the concentration of pyruvic and succinic acids. The intense release of gluconeogenic amino acids from protein catabolism reversed the excretory pattern from uricotelic to ureotelic in both B. tenagophila and B. straminea. The tissue injury showed increase of 69% in the concentration of total proteins in the hemolymph of B. straminea and the intense activity of aminotransferases, ALT and AST, an increase of 241.26% and 360%, respectively, compared to the control group. The infection reduced by 51.57% the concentration of total circulating proteins to B. tenagophila, and increased ALT and AST activity at 310% and 280% compared to uninfected snails. The results of this study indicate that the energetic and structural metabolism of both species is strongly affected by the infection, showing the activation of an anaerobic to compensate for the depletion of glicidics stores as well as the change in the excretory pattern depending on the use of substrates protein for the production of ATP. Although studies on clinical, pathological and epidemiological neural angiostrongyliasis have been extensively carried
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out, data on the metabolic and reproductive profile of snails infected by A. cantonensis are scarce. This pioneering study focused on species of host-parasite relationship certainly contribute to the knowledge of this interaction, as well as to the epidemiology of transmission A. cantonensis in addition to providing new subsidies which can be used in prevention and control of eosinophilic meningitis, zoonosis considered emerging in Brazil. / O nemat?deo Angiostrongylus cantonensis tem ganhado notoriedade sob o ponto de vista da sa?de p?blica fora de sua ?rea end?mica na ?sia, uma vez que nos ?ltimos anos casos de meningoencefal?te eosinof?lica v?m sendo reportados em outros continentes, como nas Am?ricas. No Brasil mais de trinta casos dessa zoonose j? foram registrados e h? relatos da presen?a desse nemat?deo em 11 estados. Em seu ciclo de vida heteroxeno A. cantonensis tem, ao longo do seu desenvolvimento, a necessidade de hospedeiro intermedi?rio e definitivo, envolvendo predominantemente, moluscos e roedores, respectivamente, al?m de v?rios hospedeiros parat?nicos, sendo o homem um hospedeiro acidental. Pode infectar uma rica variedade de moluscos terrestres e aqu?ticos e neste estudo, foram utilizadas para infec??o experimental popula??es nascidas e criadas em laborat?rio de duas esp?cies de planorb?deos neotropicais transmissores da esquistossomose mans?nica, Biomphalaria straminea e Biomphalaria tenagophila. Com a finalidade de caracterizar o perfil fisiol?gico resultante dessa rela??o hospedeiro-parasito, os moluscos hospedeiros foram separados em grupos de infectados e n?o infectados, contendo trinta moluscos por grupo, todos feitos em triplicatas. A investiga??o durou 21 dias, ao fim do per?odo pr?-patente os moluscos foram dissecados para a coleta de hemolinfa, retirada de tecidos e utiliza??o da concha para verifica??o de concentra??o de c?lcio. A oviposi??o dos moluscos de ambas as esp?cies foi observada quanto ? viabilidade dos ovos, assim como (A) N?mero de massas ov?geras/molusco; (B) N?mero de ovos/molusco; (C) N?mero de ovos/massa ov?gera e (D) N?mero de moluscos eclodidos/molusco. Na hemolinfa foram quantificadas as prote?nas totais, glicose, ?cido ?rico, ureia, a atividade das transaminases ALT e AST, lactato desidrogenase - LDH, e os ?cidos org?nicos (ox?lico, pir?vico, succ?nico e l?tico). Na massa cefalopediosa e gl?ndula digestiva, foram mensurados os conte?dos de glicog?nio e na gl?ndula de alb?men, foi mensurado o galactog?nio. Os resultados obtidos mostraram que os moluscos infectados, de ambas as esp?cies, apresentaram redu??o significativa na viabilidade dos ovos, de 50% para B. straminea e de 10% para B. tenagophila. O estado energ?tico tamb?m foi vigorosamente afetado, com mobiliza??o das reservas de glicog?nio, e queda da glicemia de 68% para B. straminea e de 6,48% para B. tenagophila, seguida de uma eleva??o na atividade da LDH de 518,25% para B. straminea e 320,14% para B. tenagophila, bem como na concentra??o do ?cido l?tico, 5,7mM para B. straminea e 0,34 mM para B. tenagophila, e redu??o na concentra??o dos ?cidos pir?vico e succ?nico. A intensa libera??o de amino?cidos gliconeog?nicos a partir do catabolismo proteico inverteu o padr?o excretor de uricot?lico para ureot?lico tanto em B. tenagophila quanto em B. straminea. A les?o tecidual mostrou eleva??o de 69% na concentra??o das prote?nas totais na hemolinfa de B. straminea, bem como a intensa atividade das aminotransferases, AST e ALT, com aumento de 241,26% e 360%, respectivamente, em rela??o ao grupo controle. A infec??o reduziu em 51,57% a concentra??o de prote?nas totais circulantes para B. tenagophila, e elevou a atividade de ALT e AST em 310% e
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280% em compara??o com os moluscos n?o infectados. Os resultados observados neste estudo indicam que o metabolismo energ?tico e estrutural de ambas as esp?cies foi vigorosamente afetado pela infec??o, mostrando a ativa??o de uma via anaer?bia para compensar a exaust?o das reservas glic?dicas, assim como a mudan?a no padr?o excretor em fun??o da utiliza??o de substratos proteicos para produ??o de ATP. Embora, estudos sobre aspectos cl?nicos, patol?gicos e epidemiol?gicos da angiostrongil?ase neural t?m sido extensivamente realizados, dados acerca do perfil metab?lico e reprodutivo de moluscos infectados por A. cantonensis s?o escassos. Este estudo pioneiro na rela??o parasito-hospedeiro das esp?cies focadas seguramente contribuir? tanto para o conhecimento dessa intera??o, quanto da epidemiologia da transmiss?o de A. cantonensis, al?m de fornecer novos subs?dios que poder?o ser utilizados em medidas de preven??o e controle da meningite eosinof?lica, zoonose considerada emergente no Brasil
| Identifer | oai:union.ndltd.org:IBICT/oai:localhost:jspui/1474 |
| Date | 23 February 2016 |
| Creators | Lima, Mariana Gomes |
| Contributors | Silva, Jairo Pinheiro da, McIntosh, Douglas, Thiengo, Silvana Aparecida Rogel Carvalho, Brandolini, Solange Viana Paschoal Blanco, Montresor, L?ngia Colli, Costa, Cl?lia Christina Mello Silva Almeida da, Maldonado J?nior, Arnaldo |
| Publisher | Universidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Ci?ncias Veterin?rias, UFRRJ, Brasil, Instituto de Veterin?ria |
| Source Sets | IBICT Brazilian ETDs |
| Language | Portuguese |
| Detected Language | Unknown |
| Type | info:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/doctoralThesis |
| Format | application/pdf |
| Source | reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ |
| Rights | info:eu-repo/semantics/openAccess |
| Relation | 10. REFER?NCIAS BIBLIOGR?FICAS ALICATA, J. E. The presence of Angiostrongylus cantonensis in island of Indian Ocean and probable role of the giant African snail, Achatina fulica, in dispersal of the parasite to the Pacific Island. Canadian Journal of Zoology, v. 44, p. 1041-1049, 1966. ALICATA, J.E.; JINDRAK, K. Angiostrongylosis in the Pacific and Southeast Asia. Springfield, Illinois: Charles C. Thomas, 1970. ALICATA, J.E The discovery of Angiostrongylus cantonensis as a cause of human eosinophilic meningitis. Parasitology Today, v. 7, p. 151-153, 1991. ANDERSON, R. C. The systematics andtransmission of new and previously describedMetastrongyles (Nematoda: Metastrongylidae) fromMustela vison. Canadian Journal of Zoology, v. 40, p. 893?920, 1962. ANDERSON, R.C. Nematode parasites of vertebrates: Their development and transmission. Wallingford, UK: CABI Publishing, 2000. AGUIAR, P.H.; MORERA , P; PASCUAL, J. First record of Angiostrongylus cantonensis in Cuba. American Journal of Tropical Medicine and Hygiene, v. 30, p. 963-965, 1981. ASH, L. R. The occurrence of Angiostrongylus cantonensis in frogs of New Caledonia with observationson paratenic host of metastrongyles. Journal of Parasitology, v. 54, p. 432?436, 1968. ASH, L. R. Observations on the role of mollusks and planarians in the transmission of Angiostrongylus cantonensis infection to man in New Caledonia. Reviews of Biological and Tropical, v. 24, p. 163-174, 1976 AVELAR, P.M.F.; GIACOMETTI, D.; BACILA, M. Comparative levels of muscle glycolytic enzymes in mammals, fish, echinoderm and molluscs. Comparative Biochemistry and Physiology, v. 60B, p. 143-148, 1978. AZZAM, K. M.; BELAL, M. H. Surveyon the nematodes isolated from aquaticsnails andtheir potential as biocontrol agents of snails. Bulletin of the Faculty of Agriculture, Cairo University, v. 57, p. 185?198, 2006. BACILA, M. Anapletropic mechanisms nad metabolic regulation in Biomphalaria glabrata. Anais Acad?mico Brasileiro de Ci?ncia, v 42, 161-169, 1970. BARCANTE, T. A.; BARCANTE, J. M. P.; DIAS, S. R. C.; LIMA, W. S. Angiostrongylus vasorum (Baillet, 1866) Kamensky, 1905: Emergence of third-stage larvae from infected Biomphalaria glabrata snails. Parasitology Research, v. 91, p. 471?475, 2003. 76 BARTSCHI E, BORDMANN G, BLUM J, et al. Eosinophilic meningitis due to Angiostrongylus cantonensisin Switzerland. Infection, v 32, p.116-118, 2004. BAUDOIN, M. Host Castration as a Parasitic Strategy. Evolution, v.29, p. 335-353, 1975. BECKER, W. Metabolic interrelationship of parasite trematodes and molluscs, especially Schistosoma mansoni in Biomphalaria glabrata. Zeitschrift fur Parasitenkunde, v. 63, p.101-111, 1980. BECKER, W. Purinemetabolism in Biomphalaria glabrata under starvation and infection with Schistosoma mansoni. Comparative Biochemistry and Phisiology, v.76B, p.215-219, 1983. BECKER, W., SCHMALE, H. The ammonia and urea excretion of Biomphalaria glabrata under different physiological conditions: starvation, infection with Schistosoma mansoni, dry keeping. Comparative Biochemistry and Physiology, v.59B, p. 75-79, 1978. BENNET, R. Jr.; NAKADA, H.I. Comparative carbohydrate metabolism of marine mollusk. The intermediary metabolism of Mytilus Californians and Haliotus rufescens. Comparative Biochemistry and Physiology, v. 24, p. 787-797, 1968. BHAIBULAYA, M. Comparative studies on the life history of Angiostrongylusmackerrasae Bhaibulaya, 1968 and Angiostrongylus cantonensis (Cheng, 1935). International Journal for Parasitology, v.5, p. 7-20, 1975. BLASCO, J.; PUPPO, J. Effect of heavy metals (Cu, Cd and Pb) on aspartate and alanine aminotransferase in Ruditapes philippinarum (Mollusca: Bivalvia). Comparative Biochemistry Physiology Part C: Pharmacology, Toxicology and Endocrinology, v. 122, p. 253-263, 1999. BOEV, S. N. Protostrongylids. Fundamentalsof Nematology 25, Academy of Science of the USSR.(Translated by Amerind Publishing Co., New Delhi,1984), 1975. BOLT, G.; MONRAD, J.; FRANDSEN, F.; HENRIKSEN, P.; DIETZ, H. H. The common frog(Rana temporaria) as a potential paratenic andintermediate host for Angiostrongylus vasorum.Parasitology Research, v. 79, p. 428?430, 1993. BOYCOTT, A. E. The habitats of land mollusca inBritain. Journal of Ecology, v. 22, p. 1?38, 1934. BROOKS, D. R.; HOBERG, E. P. How willglobal climate change affect parasite-host assemblages.Trends in Parasitology, v. 23, p. 571?574, 2007. BRYANT, C.; HINES, W,JW.; SMITH, M.JH. Intermediary metabolism in some terrestrial molluscs (Pomatia, Helix and Cepaea). Comparative Biochemistry and Physiology, v. 11, p. 147-153, 1964. 77 CALDEIRA, R.L.; MENDON?A, C.L.G.; GOVEIA, C.O.; LENZI, H.L.; GRAEFF-TEIXEIRA, C.; LIMA, W.S.; MOTA, E.M.; PECORA, I.L.; MEDEIROS, A.MZ.; CARVALHO, O.S. First record of molluscs naturally infected with Angiostrongylus cantonensis (Chen, 1935) (Nematoda: Metastrongylidae) in Brazil. Mem?rias do Instituto Oswaldo Cruz, v. 102, p. 887-889, 2007. CARVALHO, O.S.; SCHOLTE, R.G.; MENDON?A, C.L.F.; JANNOTTI-PASSOS, L.K. CALDEIRA, R.L. Angiostrongylus cantonensis (Nematode: Metastrongylidae) in molluscs from harbor areas in Brazil. Mem?rias do Instituto Oswaldo Cruz, v. 107, p. 740-746, 2012. CHANG, S. H.; TANG, P.; WANG, L.C. A transcriptomic study on the pepsine-activated infective larvae of Angiostrongylus cantonensis. Molecular and Biochemical Parasitology, v. 179, p. 47-50, 2011. CHIANG, P.K. Glycogen metabolism in the snail, Biomphalaria glabrata. Comparative Biochemistry and Physiology, v. 58B, p. 9-12, 1977. CHITWOOD, J.D; CHITWOOD, M.B. Snails as host and carries of nematodes and Nematomorpha. The Nautilus, v. 50, p. 130-135, 1937. CHEN HT. Un nouveau n?matode pulmonaire, Pulmonema cantonensis n.g., n.sp., des rats de Canton. Annais of Parasitism Hum Comp. v. 13, p. 312-370, 1935. CHEN, S.N. Enzyme-linked immunosorbent assay (ELISA) for thedetection of antibodies to Angiostrongylus cantonensis. Transactions of the Royal Society of Tropical Medicine & Hygiene, v. 80,p. 398-405, 1986. CHEN D, ZHANG Y, SHEN H, WEI Y, HUANG D, et al. Epidemiologicalsurvey of Angiostrongylus cantonensis in the west-central region of GuangdongProvince, China. Parasitology Research, v. 10,p. 305?314, 2011a. COWIE, R.H.; ROBINSON, D.G. Pathways of introduction of nonindigenousland and freshwater snails and slugs. In: RUIZ GM, CARLTON JT, editors. Invasive species: Vectors and Management Strategies. Washington (DC): Island Press.pp. 93?122, 2003a. COWIE, R.H. Biology, systematics, life cycle, and distribution ofAngiostrongylus cantonensis, the cause of rat lungworm disease. Hawaii Journal of Medical and Public Health, v. 72 (Supplement 2): 6?9, 2013a. CROLL, N. A. Behavioural analysis of nematodemovement. Advances inParasitology, v. 13, p. 71?122, 1975. CROOK, J. R.; FULTON, S. E.; SUPANWONG, K.The infectivity of third stage Angiostrongylus cantonensislarvae shed from drowned Achatina fulica snails and theeffect of chemical agents on infectivity. Transactions of the Royal Society of Tropical Medicine & Hygiene, v. 65, p. 602?605. 78 CROSS, J.H.; CHEN, E.R. Angiostrongyliasis. In: Murrell KD, Fried B, eds. Food-borne Parasitic Zoonoses: Fish and Plant-borne Parasites. New York: Springer, p. 263-290, 2007. de JONG-BRINK, M.; ELSAADANY, M.M.; BOER, H.H. Trichobilharzi ocellata interference with endocrine control of female reproduction of Lymnaea stagnalis. Experimental Parasitology, v.65, p.91-100, 1988. DICTUS, W.J; DE JONG-BRINK, M.; BOER, H.H. A neuropeptide (Calfluxin) is involved in the influx of calcium into mitochondria of the albumen gland of the freshwater snail Lymneae stagnalis.General and Comparative Endocrinology, v. 65, p. 439-450, 1987. DROZDZ, J.; GORECKA, T.; BINH, N.H. The occurrence of nematodes of the subfamily Angiostrongylinae in Vietinam and the question of geographical origin of Parastrongylus cantonensis (chen, 1935). Acta Parasitologica Polonica, v.23, p. 115-126, 1975. EAMSOMBHANA, P. Eosinophilic meningitis caused by Angiostrongylus cantonensis ? a neglected disease with escalating importance. Tropical Biomedicine, v 31, p. 569-578, 2014. ESP?RITO-SANTO, M.C.; PINTO, P.L.; DA MOTA, D.J.; GRYSCHEK, R.C. The first case of Angiostrongylus cantonensiseosinophilic meningitis diagnosed in the city of S?o Paulo, Brazil. Revista Insternacional de Medicina Tropical, v. 55, p. 129-132, 2013. el-SAADANY, M.M.; MOHAMED, A.M. Effect of infection with Thricobilharzia oceollata and Schistosoma mansoni on the ultrastructure of the albumen gland of their respective host, Lymneae stagnalis and Biomphalaria glabrata. Folia Morphologica, v. 37, p. 264-273, 1989. FAULKNER, L. R.; BOLANDER, W. J. Acquisitionand distribution of nematodes in irrigation waterwaysof the Columbia basin in eastern Washington. Journal of Nematology, v. 2, p. 362?367, 1970. FERNANDES, M.C. M?todos Escolhidos de T?cnicas Microsc?picas, second ed.Imprensa Nacional, Rio de Janeiro, RJ, 1949 FERNANDO, R.L. Angiostrongyliasis. In: FERNANDO, R.L. Tropical Infectious Diseases. London, Greenwich Medical Media, 2001, p.107-110. 2001. FRIED, B.; SCHATER, S.; KIM, S. Effects of Echinostoma caproni infection on the lipid composition of Biomphalaria glabrata. International Journal of Parasitology, v. 19, p.53?354, 1989. 79 GARAERTS, W.P. Neurohormonal control pf growth and carbohydrate metabolism by the light green cells in Lymnaea stagnalis. General and Comparative Endocrinology, v.86, p. 433-444, 1922. GOUDSMIT, E.M. Carbohydrate and carbohydrate matebolism in molluscs, p. 219-243. In: FLORKIN, M.; SCHEER, B.T. (ed). Chemical Zoology, Mollusca, v. 7. Academic Press, New York, 567 p. 1972. GOUDSMIT, E.M. The role of galactogen in pulmonate snails. Malacology, v. 6, p. 58-59, 1973. GRAEFF-TEIXEIRA, C.; DA SILVA, A.C.; YOSHIMURA, K. Update on eosinophilicmeningoencephalitis and its clinical relevance. Clinical and Microbiology Reviews, v 22, p. 322-348, 2009. GREEN, P.; DUSSART, G. B. J.; GIBSON, C. Surfacing and water leaving behaviour of thefreshwater pulmonate snails Lymnaea peregra (Muller),Biomphalaria glabrata (Say) and Bulinus jousseaumei(Dautzenberg). Journal of Molluscan Studies, v. 58, p. 169?179, 1992. GREWAL, P.S.; GREWAL, S.K.; TAN, L.; ADAMS, B.J. Parasitism of Molluscs by Nematodes: types of Associations and Evolutionary Trends. Journal of Nematology, v. 35, p.146-156, 2003. GUILHON, J.; GAALON, A. ?volution larvaire d?un nematode parasite de appariel circulatoire du chien dans l?organisme de mollusques dul?aquicoles. Comptes Rendus de l?Acad?mie des Sciences, v.268, p.612-615, 1969. HAMMARSTEIN, O. Studies ?ber Mucin und mucin?hnliche Substanzen. Pfl?gers Archiv fur die gesamte Physiologie des Menschen und der Tiere, v. 36, p. 373, 1885. HARRIS, K. R.; CHENG, T. C. Theencapsulation process in Biomphalaria glabrataexperimentally infected with the metastrongylidAngiostrongylus cantonensis: light microscopy.International Journal for Parasitology, v. 5, p. 521?528, 1975a. HARRIS, K. R. AND CHENG, T. C. Theencapsulation process in Biomphalaria glabrataexperimentally infected with the metastrongylidAngiostrongylus cantonensis: enzyme histochemistry.Journal of Invertebrate Pathology, v. 26, p. 367?374, 1975b. HINKLE, P.C.; MCCARTHY, R.E. How cell make ATP. Scientific American, v. 238, p. 104-123, 1978. HOBERG, E. P.; POLLEY, L.; JENKINS, E. J.; KUTZ, S. J. Pathogens of domestic andfree-rangingungulates: global climate change in temperate to boreallatitudes across North America. OIE Revue de Scientifique et Technique, v. 27, p. 511?528, 2008. HOLLINGSWORTH, R.G.; COWIE, R.H. Apple snails as disease vectors. In: Joshi RC, Sebastian LC, eds. Global Advances in Ecology and Management of Golden 80 AppleSnails. Mu?oz, Nueva Ecija, Philippines: Philippine Rice Research Institute, p. 121-132, 2006. HORSAK, M.; CERNOHORSKY, N. Molluscdiversity patterns in Central European fens: hotspotsand conservation priorities. Journal of Biogeography, v. 35, p. 1215?1225, 2008. HUMASON, G.L Animal Tissue Techniques, 4th ed. W.H. Freeman, SanFrancisco, USA, 1979. HUNG, T.P.; CHEN, E.R. Angiostrongyliasis (Angiostrongylus cantonensis). Handbook of Clinal Neurology, v. 52, p. 545-562, 1988. HURD, H. Host fecundity reduction: a strategy for damage limitation? Trends in Parasitology, v. 17, p. 193-197, 2001. HWANG, K.P.; CHANG, S.H.; WANG, L.C. Alterations in the expression level of a putativeaspartic protease in the development of Angiostrongylus cantonensis. Acta Tropica, v.113, p. 289?94, 2010. ISHAK M.M.; MOHAMED A.M.; SHRAF A. A. Carbohydrate metabolism in uninfected and trematode-infected snails Biomphalaria alexandrina and Bulinus truncatus. Comparative Biochemistry and Physiology, v53B, p.499-505, 1975. JONES, M.; MOHANRAJ, R.; SHAUNAK, S. Eosiniphilic Meningitis due to Angiostrongylus cantonensis: First Reported Case in the UK. Advances in Clinic Neurosciences and Rehabilitation, v 6, p. 20-21, 2007. JOOSSE, J. The hormone molluscs, p. 89-140. In:JANFER, H; DWNER, R.G.H.. (eds). Vertebrate Endocrinology, v.2. Academic Press, New York, 452p. 1988. JOOSSE, J., van ELK, R. Trichobilharzia ocellata: physiological characterization of giant growth, glycogen depletion, and absence of reproductive activity in the intermediate snails host, Lymnaea stagnalis. Experimental Parasitology, v.62, p. 1-16, 1986. KAPLAN, L.A.; PESCE, A.J. Clinical chemistry, Thirdth ed. Mosby, St. Lous, 1996. KILKS, M.M.; PALUMBO, N.E. Eosinophilic meningitis beyond the Pacific Basin: tha global dispersal of a peridomestic zoonosis caused by Angiostrongylus cantonensis, the nematode lung-worm of rats. Social Scienc and Medicine, v. 34, p. 199-212, 1992. KIM, D.Y.; STEWART, T.B.; BAUER, R.W.; MITCHELL, M. Parastrongylus(= Angiostrongylus) cantonensis now endemic in Louisiana wildlife.Journal of Parasitology, v88, p. 1024-1026, 2002. KIM, S.; FRIED, B. Pathology effects of Echinostma caproni (Trematoda) in the domestic chick. Journal of Helminthology, v.63, p. 227-230, 2007. 81 KIM, J.R., HAYES, K.A., YEUNG, N.W., COWIE, R.H.. Diverse Gastropod Host of Angiostrongulys cantonensis, the Rat Lungworm, Globally and with a Focus on the Hawaiian Island. PLoS ONE 9(5): e94969. doi:10.1371/journal.pone.0094969, 2014. KONTRIMAVICHUS, V. L.; DELYAMURE, S. L.; BOEV, S. N. Metastrongyloids of Domestic andWild Animals. Fundamentals of Nematology, Academy of Science of the USSR. (Translated byAmerind Publishing Co., New Delhi, India, 1985), 1976. KURELEC, B. Catabolic Path of Arginine and NAD Regeneration in the Parasite Fasciola hepatica. Comparative Biochemistry and Physiology, v. 51B, p. 151-156, 1975. KUTZ, S.J.; HOBERG, E.P.; POLLEY, L.A. A new lungworm in muskoxen: Na exploration in Artic parasitology. Trends in Parasitology, v. 17, p. 2760280, 2001. LEE, J.D.; YEN, C.M. Protease secreted by the infective larvae of Angiostrongylus cantonensis and its role in the penetration of mouse intestine. American Journal of Tropical Medicine & Hygiene, v.72, p. 831?6, 2005. LEVENE, P.A. The mucoproteins of the snail Helix aspersa and Helix pomatia. The Journal of Biological Chemistry, v65, p. 638, 1925. LIMA, A.R.; MESQUITA, S.D.; SANTOS, S.S.; AQUINO, E.R; ROSA, L DA R.; DUARTE, F.S.; TEIXEIRA, A.O.; COSTA, Z.R.; FERREIRA, M.L. Alicata disease: neuroinfestation by Angiostrongylus cantonensis in Recife, Pernambuco, Brasil. Arquivos de Neuropsiquiatria, v.67, p. 1093-1096, 2009. LIRA, C.R.S.; GOMES, E.M.; CHAGAS, G.M.; PINHEIRO, J. Influ?ncia do jejum severo sobre o conte?do de prote?nas totais e de am?nia na hemolinfa de Bradybaena similares (F?russac, 1821) (Gastropoda). Revista Brasileira de Zoologia, v.17, p. 907-913, 2000. LIVINGSTONE, D.R.; de ZWAAN, A. Carbohydrate Metablismo of Gastropods, p. 177-242. In: HOCHACHKA, P.W. (Ed). The Mollusca Metabolic Biochemistry and Molecular Biomechanics, v. 1. Academic Press, New York, 510p., 1983. LV, S.; ZHANG, Y.; STEINMANN, P; ZHOU, X.N.Emerging angiostrongyliasis inmainland China. Emerging Infectious Diseases,v. 14, p. 161-164, 2009. LV, S. Epidemiology of Angiostrongylus cantonensis and eosinophilic meningitis in the People?s Republic of China. PhD Thesis. Basel: University of Basel, 2011. MACKERRAS, M.J.; SANDARS, D.F. The life-history of the rat lungworm, Angiostrongylus cantonensis (Chen) (Nematoda: Metastrongylidae). Australian Journal of Zoology, v. 3, p. 1-21, pls 1-6, 1955. MALEK, E.A.; CHENG, T.C. Medical and economic malacology. Academic Press, New York, 398pp., 1974. 82 MALDONADO, A.; SIM?ES, R.O.; OLIVEIRA, A.P.; MOTA, E.M.; FERNADEZ, M.A.; PEREIRA, Z.M.; MONTEIRO, S.S.; TORRES, E.J.; THIENGO, S.C. First reporto f Angiostrongylus cantonensis (Nematoda: Metrastrongylidae) in Achatina fulica (Mollusca: Gastropoda) from Southeast and South Brazil. Mem?rias do Instituto Oswaldo Cruz, v. 105, p. 1-4, 2010. MALDONADO, A.; SIM?ES, R.O.; THIENGO, S.C. Angiostrongyliasis in the Americas. In:LORENZO-MORALES J, ed. Zoonosis. Rijeka, Croatia: InTech;303-320, 2012. MALM, A.W. Om Cirripeder funna vid Bohuslans Kust. Goteborgs Naturhist. Museum Zool-zoot Afdelningarna, v. 3, p. 26-32, 1881. MARSHALL, I.; Mc MANUS, D.P.; JAMES, B.L. Glycolysis in the digestive gland of health and parasitized Littorina saxatilis (maton) and in the daughter sporocysts of Microphallus similis (J?g) (digenea: Microphallidae). Comparative Biochemistry and Physiology, v49, p. 291-299, 1974. MAY, F. Beitrage zur Kenntnis des tierschen Sinistrins. Zeitschrift fur biologia, v. 91, p. 215, 1931. MINCHELA, D. J. Host-history variation in response to parasitism. Parasitology, V. 90, P. 205-216. 1985. MINIST?RIO DA SA?DE. Vigil?ncia e Controle de Moluscos de Import?ncia Epidemiol?gica. 2? Edi??o. Eitora MS ? Bras?lia ?Distrito Federal, 178 pp., 2008. MOORE, M.N.; HALTON, D.W. Histological change in the digestive gland of Lymnaea truncatula infected with Fasciola hepatica. Zeitschrift f?r Parasitenkunde, v.43, p. 1-16, 1973. MOLL, A.; ZANINI, G.; RAEFF-TEIXEIRA, C. Primeiro caso de meningite eosionof?lica por Angiostrongylus cantonensis no Brasil. In: V Congresso Paulista de Infectologia, Resumo ID:CI.20, Brasil P 2006. MOR?N, A.; GONZ?LEZ, R. Exploration of the carbohydrate metabolism in Concholepas concholepa. II ? Glyconeogenesis and utilization of some glucidic metabolites and amino acid. Archives of Biological and Medical Experiment, v.4, p. 219, 1967. MORASSUTTI, A.L.; THIENGO, S.C.; FERNANDEZ, M,; SAWANAYAWISUTH, K.; GRAEFF-TEIXEIRA, C.Eosinophilic meningitis caused by Angiostrongylus cantonensis: an emergent disease in Brazil. Mem?rias do Instituto Oswaldo Cruz, v. 109, p. 399-407, 2014. MORLEY, N.J. Aquatic molluscs as auxiliary hosts for terrestrial nematode parasites: implications for pathogen transmission in a changing climate. Parasitology, v. 137, p. 1041-1056,2010 83 MOTT, J. B.; HARRISON, A. D. Nematodes fromriver drift and surface water supplies in southernOntario. Hydrobiologia, v. 102, p. 27?38, 1983. NIELAND, M.L; GOUDSMIT, E.M. Ultrastructural observations on galactogen formation and secretion in the albumin gland of Helix pomatia. Journal of Investigation of dermatology, v. 52, p. 392, 1969. NOMURA,S.; LIN, H.H. First clinical case of Haemostrongylus ratti. Taiwan Ni Ikai, v.3, p.589-592, 1945. ODAIBO, A.B.; DEHINBO, A.J.; OLOFINTOYE, L.K.; FALODE, A.O. Occurrence and distribution of Rhabditis axei (Rhabdita: Rhabdidae) in African giant snails in southwestern Nigeria. Helminthology, v. 37, p. 233-235, 2000. PARAENSE, W.L. Apertural lamellae in Australobis glabratus. Proceedings of Malacology Society of London, v. 32, p. 175-179, 1957. PARAENSE, W.L. Fauna planorb?dica do Brasil. In: LACAZ, C.S.; BARUZZI, R.G.; SIQUEIRA, JR. W. Introdu??o ? Geografia M?dica do Brasil. S?o Paulo: Universidade de S?o Paulo, 1972. PARAENSE, W.L. A natural population of Helisoma duryi in Brazil. Malacology, v.15, p. 369-376, 1976. PARAENSE, W.L. Hist?rico do G?nero Biomphalaria, Morfologia e Sistem?tica Morfol?gica. In: CARVALHO, O.S.; ZECH-COELHO, P.M.; LENZI, H.L. Schistosoma mansoni e Esquistossomose: Uma vis?o multidisciplinar. 1 (ed) Editora Fiocruz, Rio de Janeiro, p. 285-308, 2008. P?REZ, M.K.; FRIED, B.; SHERMA, J. Comparison of mobile phase and HPTLC qualitative and quantitative analyses, on preadsorbent silica gel plates, of phospholipids in Biomphalaria glabrata (Gastropoda) infected with Echinostoma caproni (Trematoda). Journal of Planar Chromatograph, v. 7, p. 340?343, 1995. PILSBRY, H.A. Review of Plarnobidae of Florida, with notes on other members of the family. Proceedings of the Academy of Natural Science of Philadelphia, v. 86 p. 29-66, 1934. PINCAY, T.; GARCIA, L.; DECKER, O.; MARTINI, L.; MOREIRA, J.M. Angiostrongiliasis por Parastrongylus (Angiostrongylus) cantonensis em Ecuador. Biological Epidemiology Ecuador, v.6, p. 25-32, 2009. PINHEIRO, J.; MALDONADO JUNIOR, A. ; LANFREDI, R. M. . Light and Scanning Electron Microscopy of the Miracidium of Echinostoma paraensei (Lie & Basch, 1967) (Trematoda, Echinostomatidae). Veterinary Parasitology, v. 26, p. 265-275, 2003. 84 PINHEIRO, J.; AMATO, S.B. Eurytrema coelomaticum (Digenea, Dicroceliidae): the effect of infection on carbohydrate contents of its intermediate snail host, Bradybaena similaris (gastropoda, Xanthnychidae). Mem?ria do Instituto Oswaldo Crzu, v. 89, p. 407-410, 1994. PINHEIRO, J., GOMES, E.M. A method for glycogen determination in molluscs.Brazilian Archives of Biology andTechnology, v. 37, p. 569?576, 1994. PINHEIRO, J.; GOMES, E.M.; CHAGAS, G.M Aminostransferases activity in the hemolymph of Bradybaena similares under starvation. Mem?rios do Instituto Oswaldo Cruz, v 96, p. 1161-1164, 2001. PINHEIRO, J.; MALDONADO, A.JR.; LANFREDI, R.M. Physiological changes in Lymnaea columela (Say, 1818) (Mollusca, gastropoda) in response to Echinostoma paraensei Lie and Basch, 1967 (Trematoda, Echinostomatidae) infection. Parasitology Reasearch, v. 106, p. 55-59, 2009. PLESH, B.; de JOHN-BRINK, M.; BOER, H.H. Histological and histochemical observations on the reproductive tract of the hermaphrodite pond snail host, Bradymaena stagnalis. Netherlands Journal of Zoology, v.21, p. 180-201, 1971. POKORA, Z.,; SZILMAN, P.;POKORA, I. Level of total protein and activities of selected enzymes in hemolymph of Lymnaea stagnalis (L.) (gastropoda:Pulmonata) naturally infected with digenetic fluke larvae. Wiadomosci Parazytologiczne, v. 39, p. 179-188, 1993. POULIN, R. Relative infection levels and taxonomicdistances among the host species used by a parasite:insights into parasite specialization. Parasitology, v. 130, p. 109?115, 2005. PROCIV, P. Angiostrongyliasis in Australia. Reviews of Infected Diseases,v. 12, p. 160-161, 1990. PROCIV, P.; SPRATT, D.M.; CARLISLE, M.S. Neuro-angiostrngyliasis: unresolved issues. International Journal for Parasitology, v. 30, p. 1295-1303, 2000. READER, T.A.J. The pathological effect of sporocysts, redia and metacercarie on the digestive gland of Bithynia tentaculata (Molusca, Gastropoda). Parasitology, v.63, p. 483-489, 1971. ROSEN, L.; CHAPPEL, R.; LAQUEUR, G.L. Eosinophilic Meningoencephalitis caused by a metastrongyloid lung-worm in rats. Journal of the American Medical Association, v. 179, p. 620-624, 1962. SCHMALE, H.; BECKER, W. Studies on the urea cycle of Biomphalaria glabrata during normal feeding activity in starvation and with infection of Schistosoma mansoni. Comparative Biochemistry and Physiology, v. 51B, p. 321-330, 1978. 85 SCHWART, K. Uber den Blutzucker der Weinbergschenecke. Biochemistry, v. 275, p. 262-269, 1934. SMINIA,T. Structure and function of blood and connective tissue cells of the freshwater pulmonate Lymneae stagnalis studies by electron microscopy and enzyme histochemistry. Zeitschrift fur Zellforschung und Mikroskopische Anatomie, v. 139, p. 497-526, 1972. SUMNER, J.B. The estimation of sugar in diabetic urine using dinitrosalicylicacid. Journal of Biology Chemistry, v. 62, p. 287?290, 1924. SLOM, T.J.; CORTESE, M.M.; GERBER, S.I.; JONES, R.C.; HOLTZ, T.H.; LOPEZ, A.S.; ZAMBRANO, C.H; SUFIT, R.L.; SAKOLVAREE, Y.; CHAICUMPA, W.; HIERWALDT, L.; JOHNSON, S. Na outbreak of eosinophilic meningitis caused by Angiostrongylus cantonensis in travelers returning from Caribbean. The New England Journal Medicine, v.346, p. 668-675, 2002 SNYDER, Jr. R.; CHENG, T.C. The effect of the larvae of Glypthelmints pennsylvaniensis (Trematoda: Brachycoeliidae) on glycogen deposition in the hepatopancreas of helisoma trivolvis. Journal of Parasitology, v. 47, p. 52, 1961. STANISLAWSKI, E.; BECKER, W.; MULLER, G. Alterations of free amino acid content in the hemolymph of Biomphalaria glabrata (Pulmonata) in starvation and after infection with Schistosoma mansoni (Trematoda). Comparative Biochemistry and Physiology, v. 63B, p. 477-482, 1979. SULLIVAN, J.T.; CHENG, T. C. & HOWLAND, K. H. Studies on parasitic castration of Lyanassa obsoleta (Mollusca, Gastropoda) by several marine trematodes. Transaction of the American Microscopical Society, v. 104, p. 154-171, 1985. TAN, L.; GREWAL, P.S. Pathogenicity of Moraxella osloensis, a bacterium associated with a nematode Phasmarhabditis to de slug, Deroceras reticulatum. Applies Environmental Microbiology, v. 67, p. 5010-5016, 2001b. THIENGO, S. Mode of infection of Molluscs with Angiostrongylus costaricensis larvae(Nematoda). Mem?rias do Instituto Oswaldo Cruz, V.91, p. 277-288, 1996. THIENGO, S.C.; MALDONADO, A.; MOTA, E.M.; TORRES. E.J.; CALDEIRA, R.; CARVALHO, O.S.; OLIVEIRA, A.P.; SIM?ES, R.O.; FERNADEZ, M.A.; LANFREDI, R.M. The giant African snail achatina fulica as natural intermediate host of Angiostrongylus cantonensis in Pernabuco, northeast Brazil. Acta Tropica, v. 115, p. 194-199, 2010. THOMPSON, S.N.; LEE, R.K.W Comparision of starvation and infection by Schistosoma mansoni on tissue viability and the 31P NMR spectrum of Biomphalaria glabrata. Zeitschrifit fur Parasitenkunde, v. 72, p. 417-421, 1986. 86 THOMPSON, S.N.; MEJIA-SCALES, V.; BORCHARDT, D.B. Physiologic studies of snail-schistosome interactions and potential for improvement of in vitro culture of schistosomes. In Vitro Cell Development Biology, v. 27A, p.497?504, 1991. TUNHOLI, V. M. A; LUSTRINO, D.; TUNHOLII-ALVES, V.M.; GARCIA, J. S.; M?LLO-SILVA, C. C.; MALDONADO JR., A.; RODRIGUES, M. L. A.; PINHEIRO, J. . Influence of Echinostoma paraensei (Lie & Basch, 1967) infection on calcium content in Biomphalaria glabrata (Say, 1818). Experimental Parasitology, v. 129, p. 222-226, 2011. TUNHOLI, V. M. A.; TUNHOLII-ALVES, V.M.; LUSTRINO, D.; CASTRO, R.N.; SANT'ANA, L.; GARCIA, J.; MALDONADO JR., A.; SANTOS, M. A ; RODRIGUES, M. L. A.; PINHEIRO, J. Aerobic to anaerobic transition in Biomphalaria glabrata infected with different miracidial doses of Echinostoma paraensei by High-performance liquid chromatography. Experimental Parasitology, v. 133, p. 403-410, 2013. TUNHOLII-ALVES, V.M.; TUNHOLI, V. M. A.; G?LO, P.; LUSTRINO, D.; MALDONADO JR., A.; BITTENCOURT, V. R. E.; RODRIGUES, M. L. A.; PINHEIRO, J. Lipid levels in Biomphalaria glabrata infected with different doses of Echinostoma paraensei miracidia. Experimental Parasitology, v. 128, p. 212-216, 2011. TUNHOLI-ALVES, VM.; TUNHOLI, V. M. A.; G?LO, P.; LIMA, M.G.; GARCIA, J.; GUEDES, E.; MALDONADO JR., A.; PINHEIRO, J. Effects of infection by larvae of Angiostrongylus cantonensis (Nematoda, Metastrongylidae) on the lipid metabolism of the experimental intermediate host Biomphalaria glabrata (Mollusca: Gastropoda). Parasitology Research, v. 112, p. 2111-2116, 2013. TUNHOLII-ALVES, V.M.; TUNHOLI, V. M. A.; CASTRO, R.N.; SANT'ANA, L ; GARCIA, J.; THIENGO, S. C.; PINHEIRO, J.; MALDONADO JR., A. Activation of anaerobic metabolism in Biomphalaria glabrata (Mollusca: Gastropoda) experimentally infected by Angyostrongylus cantonensis (Nematoda, Metastrongylidae) by high-performance liquid chromatography. Parasitology International, v. 63, p. 64-68, 2014. van ELK, R.; JOOSSE, J. The UDP-galactose4-epimerase of the albumen gland of Lymneae stagnalis and the proteins from different snails albumin glands. Comparative Biochemistry and Physiology, v. 59B, p. 285-288, 1981. WALLACE, G. D.; ROSEN, L. Studies oneosinophilic meningitis. 2. Experimental infection ofshrimp and crabs with Angiostrongylus cantonensis.American Journal of Epidemiology, v. 84, p. 120?131, 1966. WALLACE, G. D.; ROSEN, L. Studies oneosinophilic meningitis. 4. Experimental infection offresh-water and marine fish with Angiostrongylus cantonensis. American Journal of Epidemiology, v. 85, p.395?402, 1967. 87 WANG, L.C.; CHAO, D.; CHEN, E.R. Acquired immunity in rats against Angiostrongylus cantonensis infection. International Journal of Parasitology, v. 19, p.617?20, 1989. WANG QP, DE-HUA L, XING-QUAN Z, XIAO-GUANG C, ZHAO-RONG L. Human angiostrongyliasis. Lancet Infection Diseases, v. 8, p621-630, 2008. WANG, Q.P.; WU, Z.D.; WEI, J.; OWEN, R.L.; LUN, Z.R. Human Angiostrongylus cantonensis: an update. European Journal of Clinical Microbiology and Infectious Diseases, v 31, p. 389-395, 2012. WILLCOX, H.P., COURA, J.R. Nova concep??o para o m?todo de Baermann?Moraes ? Coutinho na pesquisa de larvas de nemat?deos. Mem?rias do Instituto Oswaldo Cruz, v. 84, p. 539?565, 1989. WRIGHT, C.A. Genetic nomenclature of the intermediate host of Schistosoma mansoni. Nature, v. 183, p. 907-907, 1959. WU Z, ZHU B. Characterization and function of CREB homologue from Crassostrea ariakensis stimulated by rickettsia-like organism. Development of Comp Immunology, v. 32, p. 1572?81, 2008. YOUSIF, F.; LAMMLER, G. The mode ofinfection with and distribution of Angiostrongylus cantonensis larvae in the experimental intermediatehost Biomphalaria glabrata. Zeitschrift f?r Parasitenkunde ? Parasitology Research, v. 53, p. 247?250, 1977. ZAMMIT, V.A.; NEWSHOLME, E.A. The maximum activities of hexokinase, phosphorylase, phosphofructokinase, glycerol phosphate dehydrogenases, lactate dehydrogenase, octopine dehydrogenase, phosphoenolpyruvate carboxykinase, nucleoside diphosphatekinase, glutamate-oxaloacetate transaminase and arginine kinase in relation to carbohydrate utilization in muscles from invertebrates. Biochemistry Journal, v. 160, p. 447-462, 1967a. |
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