The current status of zoonotic leishmaniases and approaches to disease control.
about
LeishVet guidelines for the practical management of canine leishmaniosisClimate change and risk of leishmaniasis in north america: predictions from ecological niche models of vector and reservoir speciesTransmission and epidemiology of zoonotic protozoal diseases of companion animalsTheranostic applications of phage display to control leishmaniasis: selection of biomarkers for serodiagnostics, vaccination, and immunotherapyAntigenicity, Immunogenicity and Protective Efficacy of Three Proteins Expressed in the Promastigote and Amastigote Stages of Leishmania infantum against Visceral LeishmaniasisPediatric visceral leishmaniasis in Albania: a retrospective analysis of 1,210 consecutive hospitalized patients (1995-2009)Identification of proteins in promastigote and amastigote-like Leishmania using an immunoproteomic approachBluePort: a platform to study the eosinophilic response of mice to the bite of a vector of Leishmania parasites, Lutzomyia longipalpis sand fliesCan You Judge a Disease Host by the Company It Keeps? Predicting Disease Hosts and Their Relative Importance: A Case Study for LeishmaniasisDifferential ecological traits of two Phlebotomus sergenti mitochondrial lineages in southwestern Europe and their epidemiological implications.Differentiation and gene flow among European populations of Leishmania infantum MON-1.Seroprevalence and risk factors for canine visceral leishmaniasis in the endemic area of Dias D'Avila, State of Bahia, Brazil.Prospective study on the incidence and progression of clinical signs in naïve dogs naturally infected by Leishmania infantumAsymptomatic Leishmania infantum infection in an area of northwestern Italy (Piedmont region) where such infections are traditionally nonendemic.Increased transmission potential of Leishmania major/Leishmania infantum hybrids.Molecular detection of Leishmania spp. in road-killed wild mammals in the Central Western area of the State of São Paulo, Brazil.A survey of reservoir hosts in two foci of cutaneous leishmaniasis in Kerman province, southeast of Iran.Treatment of canine visceral leishmaniasis by the vaccine Leish-111f+MPL-SE.Post-earthquake outbreak of cutaneous leishmaniasis in a rural region of southern Iran.Efficacy of a slow-release imidacloprid (10%)/flumethrin (4.5%) collar for the prevention of canine leishmaniosis.Evaluating the accuracy of molecular diagnostic testing for canine visceral leishmaniasis using latent class analysis.Canine antibody response to Phlebotomus perniciosus bites negatively correlates with the risk of Leishmania infantum transmission.Leishmania species: detection and identification by nested PCR assay from skin samples of rodent reservoirsDistinct antigen recognition pattern during zoonotic visceral leishmaniasis in humans and dogs.Use of a LiESP/QA-21 vaccine (CaniLeish) stimulates an appropriate Th1-dominated cell-mediated immune response in dogs.Mimotope-based vaccines of Leishmania infantum antigens and their protective efficacy against visceral leishmaniasis.Performance of LBSap vaccine after intradermal challenge with L. infantum and saliva of Lu. longipalpis: immunogenicity and parasitological evaluationCharacterisation of the ex vivo virulence of Leishmania infantum isolates from Phlebotomus perniciosus from an outbreak of human leishmaniosis in Madrid, Spain.Evaluation of a Novel Herbal Immunomodulator Drug (IMOD) in Treatment of Experimental Canine Visceral leishmaniasisExperimental infection of dogs with Leishmania and saliva as a model to study Canine Visceral Leishmaniasis.Nasal, oral and ear swabs for canine visceral leishmaniasis diagnosis: new practical approaches for detection of Leishmania infantum DNA.Factors associated with visceral leishmaniasis in the americas: a systematic review and meta-analysis.Spleen nodules: a potential hallmark of Visceral Leishmaniasis in young children.Differential microbicidal effects of human histone proteins H2A and H2B on Leishmania promastigotes and amastigotes.2,3,7,8-tetrachlorodibenzo-p-dioxin slows the progression of experimental cutaneous Leishmaniasis in susceptible BALB/c and SCID miceSubtractive phage display selection from canine visceral leishmaniasis identifies novel epitopes that mimic Leishmania infantum antigens with potential serodiagnosis applications.Aerobic bacterial flora of biotic and abiotic compartments of a hyperendemic Zoonotic Cutaneous Leishmaniasis (ZCL) focusMethods of Control of the Leishmania infantum Dog Reservoir: State of the Art.One-year timeline kinetics of cytokine-mediated cellular immunity in dogs vaccinated against visceral leishmaniasisThe application of biomedical engineering techniques to the diagnosis and management of tropical diseases: a review.
P2860
Q21198917-AAC899A0-DB1D-4749-9BAD-FB525753D0D6Q21562268-F3CE1F9B-115E-4506-AC2C-8EC5EE7290D0Q24630763-B7817E7E-7061-43F1-96B5-6E374B5932F9Q26796580-9746BEAC-5411-40CF-9837-7D2FEDE7C185Q27318412-C174C2B9-EFCD-4494-8AE9-A6B3A5C3F2D2Q28475433-666237BD-126A-4FC4-A07A-442C0B1A0AF9Q28478933-1EDDBC84-E542-4CCD-8C79-57B237E36900Q28748688-5B1CB254-F19F-4087-847B-89F172E9D142Q28822350-192B0271-B987-40C1-BA06-0252CE162E27Q31049586-7F10A207-44B3-43FB-9E28-0D9279677376Q33350238-B87AE56C-3AD3-4B1C-BACC-762657ED2E52Q33391672-2BDEF931-9EF2-4241-AEDE-D02DC73BB215Q33407755-E66EF3A9-88CF-4B7F-8679-F1B2F27B0DDEQ33614137-875D798F-A162-4C51-B690-D4E2BCD630C2Q33732043-6D48B138-C756-406F-B5B9-13A9C675A0B6Q33799433-F2CD12BD-689E-4E2C-B4C4-43D878A94696Q33865745-2FDE00FE-6196-4974-B660-5C46134CA3DAQ33870336-64EBC645-9519-4E06-8947-4102570AEE23Q33877680-F9EE1DA5-D809-4162-8E85-D533B69227DDQ33926602-0F3EF3E6-AB16-4189-BEE9-4277625DA6D4Q33975650-1D0CACB9-583E-4589-BF3C-065D19C5CD9EQ34056368-3695E259-FD46-4FD4-A6B4-DBD8446D2528Q34127264-D45EFE15-9D99-4432-AC39-835A527CC99FQ34163466-E48472A6-B369-408E-8993-EFC157BCDC9AQ34314496-B47B2DBC-693F-4F97-BBDE-E5F7D9FFA81DQ34344080-263EE2BA-BACA-474F-8E38-7E6002F3C826Q34493859-77C5974B-4A78-4750-BB11-CA9F5B0CAA60Q34499462-A0E4AEC5-4009-4E05-A949-C92B263182B1Q34515998-25FE61CB-BC03-4FCB-9150-1E11F42305C4Q34663797-FACC486F-D4DE-433F-98F9-F40A4936D1C2Q34675093-28A33CFA-7950-4399-82E4-8D224B520B2FQ34702487-52E4CFE9-D639-4B17-8CD8-00CA0693E71AQ34729097-87C714B3-BDC5-445A-A9F5-A4B4ABA14C69Q34739899-1BC992A9-F271-45B8-9870-AA09AD6FABDFQ35009314-A0E53815-1825-4E3E-BC34-B49D9785F2DBQ35047624-E1980FF6-BF76-4C9E-AECB-C96C22E29FF8Q35086910-065AF37D-5D77-4314-8075-58AD28D95768Q35101238-F1C7C979-7A4F-4590-B6C2-47ADBA5684C7Q35518943-5A99FBA5-F3F6-4878-A15F-C97A835DFDC6Q35617736-CB3055F6-F560-462D-98B2-E3332A7A5181
P2860
The current status of zoonotic leishmaniases and approaches to disease control.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
The current status of zoonotic leishmaniases and approaches to disease control.
@ast
The current status of zoonotic leishmaniases and approaches to disease control.
@en
type
label
The current status of zoonotic leishmaniases and approaches to disease control.
@ast
The current status of zoonotic leishmaniases and approaches to disease control.
@en
prefLabel
The current status of zoonotic leishmaniases and approaches to disease control.
@ast
The current status of zoonotic leishmaniases and approaches to disease control.
@en
P1476
The current status of zoonotic leishmaniases and approaches to disease control.
@en
P2093
Luigi Gradoni
Marina Gramiccia
P304
P356
10.1016/J.IJPARA.2005.07.001
P577
2005-10-01T00:00:00Z