This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
AGUDELO HIGUITA, N.I., BRUNETTI, E., MCCLOSKEY, C. (2016): Cystic Echinococcosis. J Clin Microbiol, 54(3): 518–523. DOI: 10.1128/JCM.02420-15AGUDELO HIGUITAN.I.BRUNETTIE.MCCLOSKEYC.2016Cystic Echinococcosis54351852310.1128/JCM.02420-15476795126677245Open DOISearch in Google Scholar
BARENNES, H., SAYASONE, S., ODERMATT, P., DE BRUYNE, A., HONGSAKHONE, S., NEWTON, P.N., DUPOUY-CAMET, J. (2008): A major trichinellosis outbreak suggesting a high endemicity of Trichinella infection in northern Laos. Am J Trop Med Hyg, 78(1): 40–44BARENNESH.SAYASONES.ODERMATTP.DE BRUYNEA.HONGSAKHONES.NEWTONP.N.DUPOUY-CAMETJ.2008A major trichinellosis outbreak suggesting a high endemicity of Trichinella infection in northern Laos781404410.4269/ajtmh.2008.78.40Search in Google Scholar
BELAUNZARAN, M.L. (2015): Enfermedad de Chagas: Globalización y nuevas esperanzas para su cura [Chagasdisease:Globalizatio-nandnewhopeforitscure]. Rev. Argent. Microbiol., 47(2): 85–87. DOI: 10.1016/j.ram.2015.04.001 (In Spanish)BELAUNZARANM.L.2015Enfermedad de Chagas: Globalización y nuevas esperanzas para su cura [Chagasdisease:Globalizatio-nandnewhopeforitscure]472858710.1016/j.ram.2015.04.001(In Spanish)26028584Open DOISearch in Google Scholar
BERGER, S.A. (2017): Trichinosis: Global Status: 2017 edition. GIDEON Informatics Inc, e-books. ISBN: 978-1-4988-1680-9. pp. 1-114BERGERS.A.20172017 edition. GIDEON Informatics Inc, e-books. ISBN: 978-1-4988-1680-9. pp1114Search in Google Scholar
BERROUCH, S., ESCOTTE-BINET, S., HARRAK, R., HUGUENIN, A., PIERRE, F. (2020): Detection methods and prevalence of transmission stages of Toxoplasma gondiiGiardia duodenalis and Cryptosporidium spp. in fresh vegetables: a review. Parasitology, 147(5): 516–532. DOI: 10.1017/S0031182020000086BERROUCHS.ESCOTTE-BINETS.HARRAKR.HUGUENINA.PIERREF.2020Detection methods and prevalence of transmission stages of Toxoplasma gondii Giardia duodenalis and Cryptosporidium spp147551653210.1017/S003118202000008631965956Open DOISearch in Google Scholar
BETSON, M., NEJSUM, P., BENDALL, R.P., DEB, R.M., STOTHARD, J.R. (2014): Molecular epidemiology of ascariasis: a global perspective on the transmission dynamics of Ascaris in people and pigs. J Infect Dis, 210(6): 932–941. DOI: 10.1093/infdis/jiu193BETSONM.NEJSUMP.BENDALLR.P.DEBR.M.STOTHARDJ.R.2014Molecular epidemiology of ascariasis: a global perspective on the transmission dynamics of Ascaris in people and pigs210693294110.1093/infdis/jiu193413680224688073Open DOISearch in Google Scholar
BRAE, U.C., DEVLEESSCHAUWER, B., SITHOLE, F., WANG, Z., WILLINGHAM, A.L. (2017): Mapping occurrence of Taenia solium taeniosis/ cysticercosis and areas at risk of porcine cysticercosis in Central America and the Caribbean basin. Parasit Vectors, 10(1): 424. DOI: 10.1186/s13071-017-2362-7BRAEU.C.DEVLEESSCHAUWERB.SITHOLEF.WANGZ.WILLINGHAMA.L.2017Mapping occurrence of Taenia solium taeniosis/ cysticercosis and areas at risk of porcine cysticercosis in Central America and the Caribbean basin10142410.1186/s13071-017-2362-7560449228923090Open DOISearch in Google Scholar
BRUSCHI, F., MURRELL, K.D. (2002): New aspects of human trichinellosis: the impact of new Trichinella species. Postgrad Med J, 78(915): 15–22. DOI: 10.1136/pmj.78.915.15BRUSCHIF.MURRELLK.D.2002New aspects of human trichinellosis: the impact of new Trichinella species78915152210.1136/pmj.78.915.15174223611796866Open DOISearch in Google Scholar
BUSHURA, R. (2019): Review on Hydatidosis in Small Ruminant and its Economic and Public Health Significance. Dairy and Vet Sci J, 11(2): 555808. DOI: 10.19080/JDVS.2019.11.555808BUSHURAR.2019Review on Hydatidosis in Small Ruminant and its Economic and Public Health Significance11255580810.19080/JDVS.2019.11.555808Open DOISearch in Google Scholar
CEBALLOS-PALMARES, J.C., CUÉLLAR-RUFINO, S., VÁZQUEZ-ORTEGA, M.T., LÓPEZ-DOMÍNGUEZ, J., ROMERO-CRUZ, V., CALDERÓN-GARCIDUEÑAS, A.L. (2017): Inmunología de la Enfermedad de Chagas congénita [Immunology of congenital Chagas disease]. Perinatal Reprod. Hum., 31(3): 144–150. DOI: 10.1016/j.rprh.2018.01.001 CHILE, N., CLARK, T., ARANA, Y., ORTEGA, Y.R., PALMA, S., MEJIA, A., ANGULO, N., KOSEK, J.C., KOSEK, M., GOMEZ-PUERTA, L. A., GARCIA, H.H., GAVIDIA, C.M., GILMAN, R.H., VERASTEGUI, M., CYSTICERCOSIS WORKING GROUP IN PERU. (2016): In Vitro Study of Taenia solium Postoncospheral Form. PLoS Negl Trop Dis10(2), e0004396. DOI: 10.1371/journal.pntd.0004396CEBALLOS-PALMARESJ.C.CUÉLLAR-RUFINOS.VÁZQUEZ-ORTEGAM.T.LÓPEZ-DOMÍNGUEZJ.ROMERO-CRUZV.CALDERÓN-GARCIDUEÑASA.L.2017Inmunología de la Enfermedad de Chagas congénita [Immunology of congenital Chagas disease]31314415010.1016/j.rprh.2018.01.001CHILE, N., CLARK, T., ARANA, Y., ORTEGA, Y.R., PALMA, S., MEJIA, A., ANGULO, N., KOSEK, J.C., KOSEK, M., GOMEZ-PUERTA, L. A., GARCIA, H.H., GAVIDIA, C.M., GILMAN, R.H., VERASTEGUI, M., CYSTICERCOSIS WORKING GROUP IN PERU. (2016): In Vitro Study of Taenia solium Postoncospheral Form. PLoS Negl Trop Dis, 10(2), e0004396. 10.1371/journal.pntd.0004396Open DOISearch in Google Scholar
CHIQUE, C., HYNDS, P.D., ANDRADE, L., BURKE, L., MORRIS, D., RYAN, M.P., O`DWYER, J. (2020): Cryptosporidium spp. in groundwater supplies intended for human consumption – A descriptive review of global prevalence, risk factors and knowledge gaps. Water Res, 176: 115726. DOI: 10.1016/j.watres.2020.115726CHIQUEC.HYNDSP.D.ANDRADEL.BURKEL.MORRISD.RYANM.P.O`DWYERJ.2020Cryptosporidium spp17611572610.1016/j.watres.2020.11572632247994Open DOISearch in Google Scholar
CYSTITEAM GROUP FOR EPIDEMIOLOGY AND MODELLING OF TAENIA SOLIUM TAENIASIS/CYSTICERCOSIS (2019): The World Health Organization 2030 goals for Taenia solium: Insights and perspectives from transmission dynamics modelling: CystiTeam Group for Epidemiology and Modelling of Taenia solium Taeniasis/Cysticercosis. Gates Open Res, 3: 1546. DOI: 10.12688/gatesopenres.13068.2CYSTITEAM GROUP FOR EPIDEMIOLOGY AND MODELLING OF TAENIA SOLIUM TAENIASIS/CYSTICERCOSIS2019The World Health Organization 2030 goals for Taenia solium: Insights and perspectives from transmission dynamics modelling: CystiTeam Group for Epidemiology and Modelling of Taenia solium Taeniasis/Cysticercosis3154610.12688/gatesopenres.13068.2682045331701092Open DOISearch in Google Scholar
CORAL-ALMEIDA, M., GABRIËL, S., ABATIH, E.N., PRAET, N., BENITEZ, W., DORNY, P. (2015): Taenia solium Human Cysticercosis: A Systematic Review of Sero-epidemiological Data from Endemic Zones around the World. PLoS neglected tropical diseases9(7): e0003919. DOI: 10.1371/journal.pntd.0003919CORAL-ALMEIDAM.GABRIËLS.ABATIHE.N.PRAETN.BENITEZW.DORNYP.2015Taenia solium Human Cysticercosis: A Systematic Review of Sero-epidemiological Data from Endemic Zones around the World97e000391910.1371/journal.pntd.0003919449306426147942Open DOISearch in Google Scholar
CORAL-ALMEIDA, M., HENRIQUEZ-TRUJILLO, A.R., ASANZA, S., ERAZO, C., PAUCAR, M., CALVOPIÑA, M. (2020): Assessing the burden and spatial distribution of Taenia solium human neurocysticercosis in Ecuador (2013–2017). PLoS Negl Trop Dis, 14(6): e0008384. DOI: 10.1371/journal.pntd.0008384CORAL-ALMEIDAM.HENRIQUEZ-TRUJILLOA.R.ASANZAS.ERAZOC.PAUCARM.CALVOPIÑAM.2020Assessing the burden and spatial distribution of Taenia solium human neurocysticercosis in Ecuador (2013–2017)146e000838410.1371/journal.pntd.0008384730280032511228Open DOISearch in Google Scholar
CUI, Z., LI, J., CHEN, Y., ZHANG, L. (2019): Molecular epidemiology, evolution, and phylogeny of Entamoeba spp. Infect Genet Evol, 75: 104018. DOI: 10.1016/j.meegid.2019.104018CUIZ.LIJ.CHENY.ZHANGL.2019Molecular epidemiology, evolution, and phylogeny of Entamoeba spp7510401810.1016/j.meegid.2019.10401831465857Open DOISearch in Google Scholar
D’ALESSANDRO, A., RAUSCH, R.L. (2008): New aspects of neotropical polycystic (Echinococcus vogeli) and unicystic (Echinococcus oligarthrus) echinococcosis. Clin Microbiol Rev, 21(2): 380–401. DOI: 10.1128/CMR.00050-07D’ALESSANDROA.RAUSCHR.L.2008New aspects of neotropical polycystic (Echinococcus vogeli) and unicystic (Echinococcus oligarthrus) echinococcosis21238040110.1128/CMR.00050-07229257718400802Open DOISearch in Google Scholar
DEBNATH, A. (2015): Drug Development: Old Drugs and New Lead. In: NOZAKI T., BHATTACHARYA A. (Eds) Amebiasis. Springer, Tokyo. DOI: 10.1007/978-4-431-55200-0_32DEBNATHA.2015Drug Development: Old Drugs and New LeadInNOZAKIT.BHATTACHARYAA.EdsSpringer, Tokyo10.1007/978-4-431-55200-0_32Open DOISearch in Google Scholar
DE COSTER, T., VAN DAME, I., BAUW, J., GABRIËL, S. (2018): Recent advancements in the control of Taenia solium: A systematic review. Food Waterborne Parasitol, 13: e00030. DOI: 10.1016/j.fawpar.2018.e00030DE COSTERT.VAN DAMEI.BAUWJ.GABRIËLS.2018Recent advancements in the control of Taenia solium: A systematic review13e0003010.1016/j.fawpar.2018.e00030703401332095601Open DOISearch in Google Scholar
DE LIMA CORVINO, D.F., HORRALL, S. (2020): Ascariasis. [Updated 2020 Mar 16]. In: StatPearls [Internet]. Treasure Island (FL): Stat-Pearls Publishing. Retrieved from: https://www.ncbi.nlm.nih.gov/books/NBK430796/DE LIMA CORVINOD.F.HORRALLS.2020Ascariasis. [Updated 2020 Mar 16]InStat-Pearls PublishingRetrieved fromhttps://www.ncbi.nlm.nih.gov/books/NBK430796/Search in Google Scholar
DESPOMIER, D.D, GWADZ, R.W, HOTEZ, P.J, CHARLES, A.K. (2005): Parasitic Diseases. Fifth edition. Apple Trees Productions. 135–142 pp.DESPOMIERD.DGWADZR.WHOTEZP.JCHARLESA.K.2005135–142ppSearch in Google Scholar
DEVLEESSCHAUWER, B., PRAET, N., SPEYBROECK, N., TORGERSON, P.R., HAGSMA, J.A., DE SMET, K., MURRELL, K.D., POZIO, E., DORNY, P. (2015): The low global burden of trichinellosis: evidence and implications. Int J Parasitol, 45(2-3): 95–99. DOI: 10.1016/j.ijpara.2014.05.006DEVLEESSCHAUWERB.PRAETN.SPEYBROECKN.TORGERSONP.R.HAGSMAJ.A.DE SMETK.MURRELLK.D.POZIOE.DORNYP.2015The low global burden of trichinellosis: evidence and implications452-3959910.1016/j.ijpara.2014.05.00624953055Open DOISearch in Google Scholar
DIXON, M.A., BRAE, U.C., WINSKILL, P., WALKER, M., DEVLEESSCHAUWER, B., GABRIËL, S., BASÁÑEZ, M.G. (2019): Strategies for tackling Taenia solium taeniosis/cysticercosis: A systematic review and comparison of transmission models, including an assessment of the wider Taeniidae family transmission models. PLoS Negl Trop Dis, 13(4): e0007301. DOI: 10.1371/journal.pntd.0007301DIXONM.A.BRAEU.C.WINSKILLP.WALKERM.DEVLEESSCHAUWERB.GABRIËLS.BASÁÑEZM.G.2019Strategies for tackling Taenia solium taeniosis/cysticercosis: A systematic review and comparison of transmission models, including an assessment of the wider Taeniidae family transmission models134e000730110.1371/journal.pntd.0007301647652330969966Open DOISearch in Google Scholar
DUBEY, J.P., LAGO, E.G., GENARO, S.M., SU, C. (2012): Toxoplasmosis in humans and animals in Brazil: High prevalence, high burden of disease, and epidemiology. Parasitology, 139(11): 1375–1424. DOI: 10.1017/S0031182012000765DUBEYJ.P.LAGOE.G.GENAROS.M.SUC.2012Toxoplasmosis in humans and animals in Brazil: High prevalence, high burden of disease, and epidemiology139111375142410.1017/S003118201200076522776427Open DOISearch in Google Scholar
ESTRADA, P.J., AGREDA, I.S., RINCONES, E.G. (2020): Identification of ecological niches of liver fluke in the Guapan and Bayas parishes, Cañar province. Dom. Cien., (3)6: 965–980. DOI: 10.23857/dc.v6i3.1446ESTRADAP.J.AGREDAI.S.RINCONESE.G.2020Identification of ecological niches of liver fluke in the Guapan and Bayas parishes, Cañar province3696598010.23857/dc.v6i3.1446Open DOISearch in Google Scholar
GAJADHAR, A.A., POZIO, E., GAMBLE, H.R., NÖCKLER, K., MADDOX-HYT-TEL, C., FORBES, L.B., VALLÉE, I., ROSSI, P., MARINCULIĆ, A., BOIREAU, P. (2009): Trichinella diagnostics and control: mandatory and best practices for ensuring food safety. Vet Parasitol, 159(3-4): 197–205. DOI: 10.1016/j.vetpar.2008.10.063GAJADHARA.A.POZIOE.GAMBLEH.R.NÖCKLERK.MADDOX-HYT-TELC.FORBESL.B.VALLÉEI.ROSSIP.MARINCULIĆA.BOIREAUP.2009Trichinella diagnostics and control: mandatory and best practices for ensuring food safety1593-419720510.1016/j.vetpar.2008.10.06319108955Open DOISearch in Google Scholar
GARCIA L.S. (2017): Diagnostic Medical Parasitology. ASM Press. 381–393. DOI: 10.1016/s0169-4758(97)01175-7GARCIA L.S2017ASM Press381–39310.1016/s0169-4758(97)01175-717040721Open DOISearch in Google Scholar
GARCIA, H.H., RODRIGUEZ, S., FRIEDLAND, J.S., CYSTICERCOSIS WORKING GROUP IN PERU (2014). Immunology of Taenia solium taeniasis and human cysticercosis. Parasite Immunol, 36(8): 388–396. DOI: 10.1111/pim.12126GARCIAH.H.RODRIGUEZS.FRIEDLANDJ.S.CYSTICERCOSIS WORKING GROUP IN PERU2014Immunology of Taenia solium taeniasis and human cysticercosis36838839610.1111/pim.12126576172624962350Open DOISearch in Google Scholar
GOTTSTEIN, B., POZIO, E., NÖCKLER, K. (2009): Epidemiology, diagnosis, treatment, and control of trichinellosis. Clin Microbiol Rev, 22(1): 127–145. DOI: 10.1128/CMR.00026-08GOTTSTEINB.POZIOE.NÖCKLERK.2009Epidemiology, diagnosis, treatment, and control of trichinellosis22112714510.1128/CMR.00026-08262063519136437Open DOISearch in Google Scholar
HABY, M.M., SOSA LEON, L.A., LUCIAÑEZ, A., NICHOLLS, R.S., REVEIZ, L., DONADEU, M. (2020): Systematic review of the effectiveness of selected drugs for preventive chemotherapy for Taenia solium taeniasis. PLoS Negl Trop Dis, 14(1): e0007873. DOI: 10.1371/journal.pntd.0007873HABYM.M.SOSA LEONL.A.LUCIAÑEZA.NICHOLLSR.S.REVEIZL.DONADEUM.2020Systematic review of the effectiveness of selected drugs for preventive chemotherapy for Taenia solium taeniasis141e000787310.1371/journal.pntd.0007873696483131945055Open DOISearch in Google Scholar
HEREDÍA, N., GARCÍA, S. (2018): Animals as sources of food-borne pathogens: A review. Anim Nutr, 4(3): 250–255. DOI: 10.1016/j.aninu.2018.04.006HEREDÍAN.GARCÍAS.2018Animals as sources of food-borne pathogens: A review4325025510.1016/j.aninu.2018.04.006611632930175252Open DOISearch in Google Scholar
HILL, D., DUBEY, J.P. (2002): Toxoplasma gondii: transmission, diagnosis, and prevention. Clinical Microbiology and infection. 8(10): 634–640. DOI: 10.1046/j.1469-0691.2002.00485.xHILLD.DUBEYJ.P.2002Toxoplasma gondii: transmission, diagnosis, and prevention81063464010.1046/j.1469-0691.2002.00485.x12390281Open DOISearch in Google Scholar
KANTOR, M., ABRANTES, A., ESTEVEZ, A., SCHILLER, A., TORRENT, J., GASCON, J., HERNANDEZ, R., OCHNER, C. (2018): Entamoeba histolytica: updates in clinical manifestation, pathogenesis, and vaccine development. Can J Gastroenterol Hepatol, 2018: 4601420. DOI: 10.1155/2018/4601420KANTORM.ABRANTESA.ESTEVEZA.SCHILLERA.TORRENTJ.GASCONJ.HERNANDEZR.OCHNERC.2018Entamoeba histolytica: updates in clinical manifestation, pathogenesis, and vaccine development2018460142010.1155/2018/4601420630461530631758Open DOISearch in Google Scholar
KARADJIAN, G., BILSKA-ZAJĄC, E., BAHN, P. (2020): Species identification of Trichinella originated from various host and different geographical location by MALDI-TOF. Exp Parasitol, 213: 107890. DOI: 10.1016/j.exppara.2020.107890KARADJIANG.BILSKA-ZAJĄCE.BAHNP.2020Species identification of Trichinella originated from various host and different geographical location by MALDI-TOF21310789010.1016/j.exppara.2020.10789032272128Open DOISearch in Google Scholar
LARRIEU, E., ZANINI, F. (2012): Critical analysis of cystic echinococcosis control programs and praziquantel use in South America, 1974–2010. Rev Panam Salud Publica, 31(1): 81–87. DOI: 10.1590/s1020-49892012000100012LARRIEUE.ZANINIF.2012Critical analysis of cystic echinococcosis control programs and praziquantel use in South America, 1974–2010311818710.1590/s1020-4989201200010001222427169Open DOISearch in Google Scholar
LAVERDE, L.M., BUILES, L.M., MASSO, C.J. (2009): Detección de Trichinella spiralis en cerdos faenados en dos plantas de beneficio en el municipio de bello [Detection of Trichinella spiralis on slaughtering domestic pigs from two slaughterhouses located in the Municipality of Bello]. Ces. Med. Vet. Zootec., 4(2): 47–56. DOI: 10.21615/1028 (In Spanish)LAVERDEL.M.BUILESL.M.MASSOC.J.2009Detección de Trichinella spiralis en cerdos faenados en dos plantas de beneficio en el municipio de bello [Detection of Trichinella spiralis on slaughtering domestic pigs from two slaughterhouses located in the Municipality of Bello]42475610.21615/1028(In Spanish)Open DOISearch in Google Scholar
LIGHTOWLERS, M.W., GARCIA, H.H., GAUCI, C.G., DONADEU, M., ABELE-RIDDER, B. (2016): Monitoring the outcomes of interventions against Taenia solium: options and suggestions. Parasite Immunol, 38(3): 158–169. DOI: 10.1111/pim.12291LIGHTOWLERSM.W.GARCIAH.H.GAUCIC.G.DONADEUM.ABELE-RIDDERB.2016Monitoring the outcomes of interventions against Taenia solium: options and suggestions38315816910.1111/pim.12291481969426538513Open DOISearch in Google Scholar
MARIN, A., MINA, L., ZAYAS, E., SOLER, R. (2020): Characterization of bacterial agents isolated in diseases outbreaks transmitted by foods. MediSan, 24(2): 235–251MARINA.MINAL.ZAYASE.SOLERR.2020Characterization of bacterial agents isolated in diseases outbreaks transmitted by foods242235251Search in Google Scholar
MAS-COMA, S., BARGUES, M., VALERO, M. (2018): Human fascioliasis infection sources, their diversity, incidence factors, analytical methods, and prevention measures. Parasitology, 145(13): 1665–1699. DOI: 10.1017/S0031182018000914MAS-COMAS.BARGUESM.VALEROM.2018Human fascioliasis infection sources, their diversity, incidence factors, analytical methods, and prevention measures145131665–169910.1017/S003118201800091429991363Open DOISearch in Google Scholar
MAS-COMA, S., BUCHON, P., FUNATSU, I.R., ANGLES, R., ARTIGAS, P., VALERO, A., BARGUES, M.D. (2020): Sheep and Cattle Reservoirs in the Highest Human Fascioliasis Hyperendemic Area: Experimental Transmission Capacity, Field Epidemiology, and Control Within a One Health Initiative in Bolivia. Front Vet Sci, (27): 7. DOI: 10.3389/fvets.2020.583204MAS-COMAS.BUCHONP.FUNATSUI.R.ANGLESR.ARTIGASP.VALEROA.BARGUESM.D.2020Sheep and Cattle Reservoirs in the Highest Human Fascioliasis Hyperendemic Area: Experimental Transmission Capacity, Field Epidemiology, and Control Within a One Health Initiative in Bolivia27710.3389/fvets.2020.583204765513533195605Open DOISearch in Google Scholar
MEHMOOD, K., ZHANG, H., JAWAD, A., ABAS, Z., MUHAMAD, I., ANEELA, Z.D., MUHAMAD, H., MUJEEB, U., YAJING, W., HAFIZ, I., TARIQ, A., RIAZ, H., MUHAMAD, T., SADAQAT, A., AMAN, U., JIAKUI, L. (2017): A review on epidemiology, global prevalence, and economical losses of fasciolosis in ruminants. Microb Pathog, (109): 253–262. DOI: 10.1016/j.micpath.2017.06.006MEHMOODK.ZHANGH.JAWADA.ABASZ.MUHAMADI.ANEELAZ.D.MUHAMADH.MUJEEBU.YAJINGW.HAFIZI.TARIQA.RIAZH.MUHAMADT.SADAQATA.AMANU.JIAKUIL.2017A review on epidemiology, global prevalence, and economical losses of fasciolosis in ruminants109253–26210.1016/j.micpath.2017.06.00628602837Open DOISearch in Google Scholar
MILLER, L.A., COLBY, K., MANING, S.E., HOENIG, D., MCEVOY, E., MONTGOMERY, S., MATHISON, B., DE ALMEIDA, M., BISHOP, H., DASILVA, A., SEARS, S. (2015): Ascariasis in humans and pigs on small-scale farms, Maine, USA, 2010–2013. Emerging infectious diseases. 21(2): 332–334. DOI: 10.3201/eid2102.140048MILLERL.A.COLBYK.MANINGS.E.HOENIGD.MCEVOYE.MONTGOMERYS.MATHISONB.DE ALMEIDAM.BISHOPH.DASILVAA.SEARSS.2015Ascariasis in humans and pigs on small-scale farms, Maine, USA, 2010–201321233233410.3201/eid2102.140048431362925626125Open DOISearch in Google Scholar
MITREVA, M., JASMER, D.P. (2006): Biology and genome of Trichinella spiralis. WormBook. 23: 1–21MITREVAM.JASMERD.P.2006Biology and genome of Trichinella spiralis2312110.1895/wormbook.1.124.1478140918050431Search in Google Scholar
MOLINA, I., SALVADOR, F., SÁNCHEZ-MOLTALVÁ, A. (2016): Actualización en enfermedad de Chagas [UpdateChagasdisease]. Enferm Infecc Microbiol Clin, 34 (2): 132–138. DOI: 10.1016/j.eimc.2015.12.008 (In Spanish)MOLINAI.SALVADORF.SÁNCHEZ-MOLTALVÁA.2016Actualización en enfermedad de Chagas [UpdateChagasdisease]34213213810.1016/j.eimc.2015.12.008(In Spanish)26827133Open DOISearch in Google Scholar
MURRELL, K.D. (2016): The dynamics of Trichinella spiralis epidemiology: out to pasture?. Vet Parasitol, 231: 92–96. DOI: 10.1016/j.vetpar.2016.03.020MURRELLK.D.2016The dynamics of Trichinella spiralis epidemiology: out to pasture?231929610.1016/j.vetpar.2016.03.02027061788Open DOISearch in Google Scholar
MURILLO-GODÍNEZ, G. (2018): Chagas Disease (American Trypanosomiasis). Med. Int. Mex., 34 (6): 959–970. DOI: 10.24245/mim.v3462217MURILLO-GODÍNEZG.2018Chagas Disease (American Trypanosomiasis)34695997010.24245/mim.v3462217Open DOISearch in Google Scholar
MUÑOZ-CARRILLO, J.L., MUÑOZ-LÓPEZ, J.L., MUÑOZ-ESCOBEDO, J.J., MALDONADO-TAPIA, C., GUTIÉRREZ-CORONADO, O., CONTRERAS-CORDERO, J.F., MORENO-GARCÍA, M.A. (2017): Therapeutic effects of resiniferatoxin related with immunological responses for intestinal inflammation in trichinellosis. Korean J Parasitol., 55(6): 587–599. DOI: 10.3347/kjp.2017.55.6.587MUÑOZ-CARRILLOJ.L.MUÑOZ-LÓPEZJ.L.MUÑOZ-ESCOBEDOJ.J.MALDONADO-TAPIAC.GUTIÉRREZ-CORONADOO.CONTRERAS-CORDEROJ.F.MORENO-GARCÍAM.A.2017Therapeutic effects of resiniferatoxin related with immunological responses for intestinal inflammation in trichinellosis55658759910.3347/kjp.2017.55.6.587577689129320813Open DOISearch in Google Scholar
NAGARAJA, S., ANKRI, S. (2019): Target identification and intervention strategies against amebiasis. Drug Resist Updat, 44: 1–14. DOI: 10.1016/j.drup.2019.04.003NAGARAJAS.ANKRIS.2019Target identification and intervention strategies against amebiasis4411410.1016/j.drup.2019.04.00331112766Open DOISearch in Google Scholar
NAIR, G., REBOLLEDO, M., WHITE, A.C., CRANELL, Z., RICHARDS-KORTUM, R.R., PINILLA, A.E., RAMÍREZ, J.D., LÓPEZ M.C., CASTELLANOS-GONZALEZ, A. (2015): Detection of Entamoeba histolytica by Recombinase Polymerase Amplification. Am J Trop Med Hyg., 93(3): 591–595. DOI: 10.4269/ajtmh.15-0276NAIRG.REBOLLEDOM.WHITEA.C.CRANELLZ.RICHARDS-KORTUMR.R.PINILLAA.E.RAMÍREZJ.D.LÓPEZ M.C. CASTELLANOS-GONZALEZA.2015Detection of Entamoeba histolytica by Recombinase Polymerase Amplification93359159510.4269/ajtmh.15-0276455970226123960Open DOISearch in Google Scholar
OJEDA, N.F., GONZÁLEZ, R., CORNELIO, S., LUNA, C., MACHAIN, C., TORRES, O.M., CHAY, A. (2020): Factores asociados al decomiso de hígados positivos a Fasciola sp en una zona endémica del sureste de México [Factors associated with the seizure of livers positive to Fasciola sp. in an endemic area of southeastern Mexico]. Rev. mex. de cienc. pecuarias., 11(2): 565–575. DOI: 10.22319/rmcp. v11i2.5173 (In Spanish)OJEDAN.F.GONZÁLEZR.CORNELIOS.LUNAC.MACHAINC.TORRESO.M.CHAYA.2020Factores asociados al decomiso de hígados positivos a Fasciola sp en una zona endémica del sureste de México [Factors associated with the seizure of livers positive to Fasciola sp11256557510.22319/rmcpv11i2.5173 (In Spanish)Open DOISearch in Google Scholar
PALMEZANO, J.M., PLAZAS, L.K., RIVERA, K.E., RUEDA, V.P. (2015): Enfermedad de Chagas: realidad de una patología frecuente en Santander, Colombia [Chagas disease: reality of a frequent pathology in Santander, Colombia]. MÉDICAS UIS, 28(1): 81–90. DOI: 10.18273/revmed (In Spanish)PALMEZANOJ.M.PLAZASL.K.RIVERAK.E.RUEDAV.P.2015Enfermedad de Chagas: realidad de una patología frecuente en Santander, Colombia [Chagas disease: reality of a frequent pathology in Santander, Colombia]281819010.18273/revmed(In Spanish)Open DOISearch in Google Scholar
POZIO, E., ZARLENGA, D.S. (2013): New pieces of the Trichinella puzzle. Int J Parasitol, 43(12–13): 983–997. DOI: 10.1016/j.ijpara.2013.05.010POZIOE.ZARLENGAD.S.2013New pieces of the Trichinella puzzle4312–1398399710.1016/j.ijpara.2013.05.01023816802Open DOISearch in Google Scholar
ROBERT-GANGNEUX, F., DARDÉ, M.L. (2012): Epidemiology of and diagnostic strategies for toxoplasmosis. Clinical microbiology reviews. 25(2): 264–296. DOI: 10.1128/CMR.05013-11ROBERT-GANGNEUXF.DARDÉM.L.2012Epidemiology of and diagnostic strategies for toxoplasmosis25226429610.1128/CMR.05013-11334629822491772Open DOISearch in Google Scholar
ROBERTSON, L.J., DEVLEESSCHAUWER, B., ALARCON DE NOYA, B., NOYA GONZALEZ, O., TORGERSON, P.R. (2016): Trypanosoma cruzi: time for international recognition as a foodborne parasite. PLoS Negl Trop Dis, 10(6): e0004656. DOI: 10.1371/journal.pntd.0004656ROBERTSONL.J.DEVLEESSCHAUWERB.ALARCON DE NOYAB.NOYA GONZALEZO.TORGERSONP.R.2016Trypanosoma cruzi: time for international recognition as a foodborne parasite106e000465610.1371/journal.pntd.0004656489075427253136Open DOISearch in Google Scholar
RODRIGUEZ-MORALES, A.J., CALVO-BETANCOURT, L.S., ALARCÓN-OLAVE, C., BOLÍVAR-MEJÍA, A. (2015): Echinococcosis in Colombia - A Neglected Zoonosis? In: Current Topics in Echinococcosis. IntechOpen. DOI: 10.5772/60731RODRIGUEZ-MORALESA.J.CALVO-BETANCOURTL.S.ALARCÓN-OLAVEC.BOLÍVAR-MEJÍAA.2015Echinococcosis in Colombia - A Neglected Zoonosis?In10.5772/60731Open DOISearch in Google Scholar
ROUSSEAU, A., LA CARBONA, S., DUMETRE, A., ROBERTSON, L.J., GARGALA, G., BINET, S.E., FAVENEC, L., VILLENA, I., GÉRARD, C., AUBERT, D. (2018): Assessing viability and infectivity of food borne and waterborne stages (cyst/oocysts) of Giardia duodenalis, Cryptosporodium spp., and Toxoplasma gondii: a review of methods. Parasite, 25: 14. DOI: 10.1051/parasite/2018009ROUSSEAUA.LA CARBONAS.DUMETREA.ROBERTSONL.J.GARGALAG.BINETS.E.FAVENECL.VILLENAI.GÉRARDC.AUBERTD.2018Assessing viability and infectivity of food borne and waterborne stages (cyst/oocysts) of Giardia duodenalis, Cryptosporodium spp., and Toxoplasma gondii: a review of methods251410.1051/parasite/2018009585852629553366Open DOISearch in Google Scholar
SALAZAR-SCHETTINO, P.M., BUCIO-TORRES, M.I., CABRERA BRAVO, M., FERNÁNDEZ-SANTOS, N.A., PEREA-SALAZAR, M.G. (2016): Enfermedad de Chagas en México [Chagas disease in Mexico]. Rev. de la Fac. de Med. (México), 59 (3): 6–16 (In Spanish)SALAZAR-SCHETTINOP.M.BUCIO-TORRESM.I.CABRERA BRAVOM.FERNÁNDEZ-SANTOSN.A.PEREA-SALAZARM.G.2016Enfermedad de Chagas en México [Chagas disease in Mexico]593616(In Spanish)Search in Google Scholar
SANDER, V., SANCHEZ, E., MENDOZA, L., RAMOS, V., CORIGLIANO, G., CLEMENTE, M. (2020): Use of Veterinary Vaccines for Livestock as a Strategy to Control Foodborne Parasitic Diseases. Front Cell Infect Microbiol, 10: 288. DOI: 10.3389/fcimb.2020.00288SANDERV.SANCHEZE.MENDOZAL.RAMOSV.CORIGLIANOG.CLEMENTEM.2020Use of Veterinary Vaccines for Livestock as a Strategy to Control Foodborne Parasitic Diseases1028810.3389/fcimb.2020.00288733255732670892Open DOISearch in Google Scholar
SHAH, J., SHAHIDULLAH, A. (2018): Ascaris lumbricoides: A Startling Discovery during Screening Colonoscopy. Case Rep Gastroenterol, 12(2): 224–229. DOI: 10.1159/000489486SHAHJ.SHAHIDULLAHA.2018Ascaris lumbricoides: A Startling Discovery during Screening Colonoscopy12222422910.1159/000489486600664129928187Open DOISearch in Google Scholar
SHIBAYAMA, M., DE JESÚS SERRANO-LUNA, J., AGUIRRE-GARCÍA, J., TSUTSUMI, V. (2015): Pathology, Pathogenesis, and Experimental Amebiasis. In: NOZAKI T., BHATTACHARYA A. (Eds) Amebiasis. Springer, Tokyo, pp. 411–431. DOI: 10.1007/978-4-431-55200-0SHIBAYAMAM.DE JESÚS SERRANO-LUNAJ.AGUIRRE-GARCÍAJ.TSUTSUMIV.2015Pathology, Pathogenesis, and Experimental AmebiasisInNOZAKI TBHATTACHARYA A.EdsSpringerTokyopp41143110.1007/978-4-431-55200-0Open DOISearch in Google Scholar
SHIRLEY, D.T., FARR, L., WATANABE, K., MOONAH, S. (2018): A Review of the Global Burden, New Diagnostics, and Current Therapeutics for Amebiasis. Open Forum Infect Dis, 5(7): ofy161. DOI: 10.1093/ofid/ofy161SHIRLEYD.T.FARRL.WATANABEK.MOONAHS.2018A Review of the Global Burden, New Diagnostics, and Current Therapeutics for Amebiasis57ofy16110.1093/ofid/ofy161605552930046644Open DOISearch in Google Scholar
SHIRLEY, D.A., HUNG, C.C., MOONAH, S. (2020): Entamoeba histolytica (Amebiasis). In: RYAN, E.T., SOLOMON, T., ENDY, T.P., HILL, D.R., ARONSON, N.E. (Eds) Hunter’s Tropical Medicine and Emerging Infectious Diseases. Amsterdam: Elsevier, p. 699–706. DOI: 10.1016/C2016-0-01879-XSHIRLEYD.A.HUNGC.C.MOONAHS.2020Entamoeba histolytica (Amebiasis)InRYANE.T.SOLOMONT.ENDYT.P.HILLD.R.ARONSONN.E.EdsAmsterdam: Elsevierp699–70610.1016/C2016-0-01879-XOpen DOISearch in Google Scholar
TORGERSON, P.R., DE SILVA, N.R., FÈVRE, E.M., KASUGA, F., ROKNI, M.B., ZHOU, X.N., STEIN, C. (2014). The global burden of foodborne parasitic diseases: an update. Trends Parasitol, 30(1),: 20–26. DOI: 10.1016/j.pt.2013.11.002TORGERSONP.R.DE SILVAN.R.FÈVREE.M.KASUGAF.ROKNIM.B.ZHOUX.N.STEINC.2014The global burden of foodborne parasitic diseases: an update301202610.1016/j.pt.2013.11.00224314578Open DOISearch in Google Scholar
TORGERSON, P., DEVLEESSCHAUWER, B., PRAET, N., SPEYBROEK, N., LEE, A., KASUGA, F., ROKNI, T., ZHOU, X., FEYVRE, E., SRIPA, B., GARGOURI, N., ANGULO, F., HAVELAR, A., SILVA, N. (2015): World Health Organization Estimates of the Global and Regional Disease Burden of 11 Foodborne Parasitic Diseases, 2010: A Data Synthesis. PLoS Med, 12(12): e1001920. DOI: 10.1371/journal.pmed.1001920TORGERSONP.DEVLEESSCHAUWERB.PRAETN.SPEYBROEKN.LEEA.KASUGAF.ROKNIT.ZHOUX.FEYVREE.SRIPAB.GARGOURIN.ANGULOF.HAVELARA.SILVAN.2015World Health Organization Estimates of the Global and Regional Disease Burden of 11 Foodborne Parasitic Diseases, 2010: A Data Synthesis1212e100192010.1371/journal.pmed.1001920466883426633705Open DOISearch in Google Scholar
TREVISAN, C., TORGERSON, P., ROBERTSON, L. (2019): Foodborne Parasites in Europe: Present Status and Future Trends. Trends Parasitol, 33 (9): 695–703. DOI: 10.1016/j.pt.2019.07.002TREVISANC.TORGERSONP.ROBERTSONL.2019Foodborne Parasites in Europe: Present Status and Future Trends33969570310.1016/j.pt.2019.07.00231358427Open DOISearch in Google Scholar
UNITED STATES DEPARTMENT OF AGRICULTURE FOOD SAFETY AND INSPECTION SERVICE (USDA): Parasites and Foodborne Diseases. Retrieved August 10 2020. https://www.fsis.usda.gov/wps/portal/informational/en-espanol/hojasinformativas/enfermedades-por-alimentos/parasitos/parasitos-transmitidasRetrieved August 102020https://www.fsis.usda.gov/wps/portal/informational/en-espanol/hojasinformativas/enfermedades-por-alimentos/parasitos/parasitos-transmitidasSearch in Google Scholar
VALENZUELA, M.L., RICO, T.C., CEDILLO, P.C., LUNA, P.H., MÉNDEZ, C.S., LARA, M.G., CORREA, D., CABALLERO, O.H. (2019): Mixed Toxoplasma gondii infection and new genotypes in feral cats of Quintana Roo, México. Acta Trop, 193: 199–205. DOI: 10.1016/j. actatropica.2019.03.006VALENZUELAM.L.RICOT.C.CEDILLOP.C.LUNAP.H.MÉNDEZC.S.LARAM.G.CORREAD.CABALLEROO.H.2019Mixed Toxoplasma gondii infection and new genotypes in feral cats of Quintana Roo, México19319920510.1016/jactatropica.2019.03.006Open DOISearch in Google Scholar
VALERO, M.A., DERENZI, M., PANOVA, M., GARCÍA-BODELON, M.A., PERIAGO, M.V., ORDOÑEZ, D., MAS COMA, S. (2006): Crowding effect on adult growth, pre-patent period and egg shedding of Fasciola hepaticaParasitology, 133: 453–463. DOI: 10.1017/S003118200600059XVALEROM.A.DERENZIM.PANOVAM.GARCÍA-BODELONM.A.PERIAGOM.V.ORDOÑEZD.MAS COMAS.2006Crowding effect on adult growth, pre-patent period and egg shedding of Fasciola hepatica13345346310.1017/S003118200600059X16817992Open DOISearch in Google Scholar
VANATHY, K., CHANDRA, P.S., MANDAR, J., HAMILE, A., KRISHNMAMURTHY (2017): Cryptosporidiosis: A mini review. Trop Parasitol., 7(2): 72–80. DOI: 10.4103/tp.TP_25_17VANATHYK.CHANDRAP.S.MANDARJ.HAMILEA.KRISHNMAMURTHY2017Cryptosporidiosis: A mini review72728010.4103/tp.TP_25_17565205829114483Open DOISearch in Google Scholar
WALKER, S., HOEY, E., FLETCHER, H., BRENAN, G., FAIRWEATHER, I., TRUDGETT, A. (2006): Stage-specific differences in fecundity over the life-cycle of two characterized isolates of the liver fluke, Fasciola hepaticaParasitology, 133(2): 209–216. DOI: 10.1017/S003118200600014XWALKERS.HOEYE.FLETCHERH.BRENANG.FAIRWEATHERI.TRUDGETTA.2006Stage-specific differences in fecundity over the life-cycle of two characterized isolates of the liver fluke, Fasciola hepatica133220921610.1017/S003118200600014X16597358Open DOISearch in Google Scholar
WANG, Z.D., LIU, H.H., ZHANG, X.M., HUNG, Y.M., ZHANG, Y.L., ZHI, B.Y., XING, Q.Z., XU, B., WEI, F., LIU, Q. (2017): Toxoplasma gondii infection in immunocompromised patients: A Systematic Review and Meta-Analysis. Front Microbiol, 8: 389. DOI: 10.3389/fmicb.2017.00389WANGZ.D.LIUH.H.ZHANGX.M.HUNGY.M.ZHANGY.L.ZHIB.Y.XINGQ.Z.XUB.WEIF.LIUQ.2017Toxoplasma gondii infection in immunocompromised patients: A Systematic Review and Meta-Analysis838910.3389/fmicb.2017.00389534306428337191Open DOISearch in Google Scholar
WEN, H., VUITTON, L., TUXUN, T., LI, J., VUITTON, D.A., ZHANG, W., MC-MANUS, D.P. (2019): Echinococcosis: advances in the 21st century. Clin Microbiol Rev., 32(2): e00075-18. DOI: 10.1128/CMR.00075-18WENH.VUITTONL.TUXUNT.LIJ.VUITTOND.A.ZHANGW.MC-MANUSD.P.2019Echinococcosis: advances in the 21st century322e000751810.1128/CMR.00075-18643112730760475Open DOISearch in Google Scholar
WEATHERHEAD, J.E., PORTER, P., COFEY, A., HAYDEL, D., VERSTEEG, L., ZHAN, B., GAZZINELLI GUIMARÃES, A.C., FUJIWARA, R., JARAMILLO, A.M., BOTTAZZI, M.E., HOTEZ, P.J., CORRY, D.B., BEAUMIER, C.M. (2018): Ascaris Larval Infection and Lung Invasion Directly Induce Severe Allergic Airway Disease in Mice. Infect Immun, 86(12): e00533-18. DOI: 10.1128/IAI.00533-18WEATHERHEADJ.E.PORTERP.COFEYA.HAYDELD.VERSTEEGL.ZHANB.GAZZINELLI GUIMARÃESA.C.FUJIWARAR.JARAMILLOA.M.BOTTAZZIM.E.HOTEZP.J.CORRYD.B.BEAUMIERC.M.2018Ascaris Larval Infection and Lung Invasion Directly Induce Severe Allergic Airway Disease in Mice8612e005331810.1128/IAI.00533-18624690730249744Open DOISearch in Google Scholar
WORLD HEALTH ORGANIZATION (2008): Fact sheet on fascioliasis. In: Action Against Worms, World Health Organization, Headquarters Geneva (December 2007), Newsletter, 10: 1–8WORLD HEALTH ORGANIZATION2008Fact sheet on fascioliasis1018Search in Google Scholar
WORLD HEALTH ORGANIZATION (WHO) (2020): La Enfermedad de Chagas (Tripanosomiasis americana). Datos y Cifras. Retrieved 17 August 2020. https://www.who.int/es/news-room/fact-sheets/detail/chagas-disease-(american-trypanosomiasis)WORLD HEALTH ORGANIZATION (WHO)2020Retrieved 17 August 2020https://www.who.int/es/news-room/fact-sheets/detail/chagas-disease-(american-trypanosomiasis)Search in Google Scholar
WORD HEARTH ORGANIZATION (WHO) (2014): Multicriteria-based ranking for risk management of food-borne parasites. Report of a Joint FAO/WHO Expert Meeting.WORD HEARTH ORGANIZATION (WHO)2014Report of a Joint FAO/WHO Expert MeetingSearch in Google Scholar
WORD HEARTH ORGANIZATION (WHO): Ranking basado en múltiples criterios para la gestión de riesgos de parásitos transmitidos por alimentos. 2018. Retrieved August 21 2020 http://www.fao.org/3/I3649ES/i3649es.pdfWORD HEARTH ORGANIZATION (WHO)2018Retrieved August 21 2020http://www.fao.org/3/I3649ES/i3649es.pdfSearch in Google Scholar
WORLD HEALTH ORGANIZATION (WHO) (2018): Renewed medicine donation to sustain global fight against liver infection. Neglected tropical diseaseshttps://www.who.int/neglected_diseases/news/renewed-medicine-donation-sustain-global-fight-liver-infection/en/WORD HEARTH ORGANIZATION (WHO): Technical Report /975/ 2012. Research Priorities for Chagas Disease, human African Trypanosomiasis. Italy. Retrieved July 29 2020, http://www.who.int/bookordeWORLD HEALTH ORGANIZATION (WHO)2018https://www.who.int/neglected_diseases/news/renewed-medicine-donation-sustain-global-fight-liver-infection/en/WORDHEARTH ORGANIZATION (WHO): Technical Report /975/ 2012. Research Priorities for Chagas Disease, human African Trypanosomiasis. Italy. Retrieved July 29 2020http://www.who.int/bookordeSearch in Google Scholar
XIMÉNEZ, C., CERRITOS, R., ROJAS, L., DOLABELLA, S., MORÁN, P., SHIBAYAMA, M., GONZÁLEZ, E., VALADEZ, A., HERNÁNDEZ, E., VALENZUELA, O., LIMÓN, A., PARTIDA, O., SILVA, E.F. (2010): Human amebiasis: breaking the paradigm? Int J Environ Res Public Health. 7(3): 1105–1120. DOI: 10.3390/ijerph7031105.XIMÉNEZC.CERRITOSR.ROJASL.DOLABELLAS.MORÁNP.SHIBAYAMAM.GONZÁLEZE.VALADEZA.HERNÁNDEZE.VALENZUELAO.LIMÓNA.PARTIDAO.SILVAE.F.2010Human amebiasis: breaking the paradigm?731105112010.3390/ijerph7031105287230120617021Open DOISearch in Google Scholar
YEREMIEV, K., CVETKOVA, T., PAVLOV, S., PAVLOVA, K. (2017): Histomorphological characteristics of Ascaris lumbricoides and Taeniarhynchus saginatusScripta Scientifica Vox Studentium, 1(1): 32–36. DOI: 10.14748/ssvs.v1i1.1788YEREMIEVK.CVETKOVAT.PAVLOVS.PAVLOVAK.2017Histomorphological characteristics of Ascaris lumbricoides and Taeniarhynchus saginatus11323610.14748/ssvs.v1i1.1788Open DOISearch in Google Scholar
ZAMORA, Y.A., TREVIÑO, J., CUADRADO, R.S., LORA, S.F., GYMEZ, M.J. (2020): Detection and genotypes of Toxoplasma gondii DNA in feces of domestic cats in Colombia. Parasite, 27: 25. DOI: 10.1051/parasite/2020023ZAMORAY.A.TREVIÑOJ.CUADRADOR.S.LORAS.F.GYMEZM.J.2020Detection and genotypes of Toxoplasma gondii DNA in feces of domestic cats in Colombia272510.1051/parasite/2020023716479532302287Open DOISearch in Google Scholar
ZULFIQAR, H., MATHEW, G., HORRALL, S. (2020): Amebiasis. In: StatPearls. Treasure Island (FL): StatPearls Publishing; March 4, 2020.ZULFIQARH.MATHEWG.HORRALLS.2020Amebiasis42020Search in Google Scholar