Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus. - Wikidata - awgldk - TriplyDB

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

http://www.wikidata.org/entity/Q33863602

about

A research agenda for helminth diseases of humans: intervention for control and elimination A research agenda for helminth diseases of humans: towards control and elimination Vaccination of Gerbils with Bm-103 and Bm-RAL-2 Concurrently or as a Fusion Protein Confers Consistent and Improved Protection against Brugia malayi Infection In vitro and in vivo evaluation of 2-aminoalkanol and 1,2-alkanediamine derivatives against Strongyloides venezuelensis.Genetic and Molecular Basis of Drug Resistance and Species-Specific Drug Action in Schistosome Parasites Research for new drugs for elimination of onchocerciasis in Africa Characterization of the parasite-induced lesions in the posterior segment of the eye Killing filarial nematode parasites: role of treatment options and host immune response Prospects and challenges of CRISPR/Cas genome editing for the study and control of neglected vector-borne nematode diseases The Potentials and Pitfalls of Microarrays in Neglected Tropical Diseases: A Focus on Human Filarial Infections Anti-Wolbachia drug discovery and development: safe macrofilaricides for onchocerciasis and lymphatic filariasis Comparison of Doxycycline, Minocycline, Doxycycline plus Albendazole and Albendazole Alone in Their Efficacy against Onchocerciasis in a Randomized, Open-Label, Pilot Trial Deletion of parasite immune modulatory sequences combined with immune activating signals enhances vaccine mediated protection against filarial nematodes Genetic variants and increased expression of Parascaris equorum P-glycoprotein-11 in populations with decreased ivermectin susceptibility Dynamics of Onchocerca volvulus microfilarial densities after ivermectin treatment in an ivermectin-naïve and a multiply treated population from Cameroon Reproductive status of Onchocerca volvulus after ivermectin treatment in an ivermectin-naïve and a frequently treated population from Cameroon Macrocyclic lactones differ in interaction with recombinant P-glycoprotein 9 of the parasitic nematode Cylicocylus elongatus and ketoconazole in a yeast growth assay Using C. elegans Forward and Reverse Genetics to Identify New Compounds with Anthelmintic Activity Does Increasing Treatment Frequency Address Suboptimal Responses to Ivermectin for the Control and Elimination of River Blindness?Elimination of African onchocerciasis: modeling the impact of increasing the frequency of ivermectin mass treatment Ivermectin - Old Drug, New Tricks?Short-Course, High-Dose Rifampicin Achieves Wolbachia Depletion Predictive of Curative Outcomes in Preclinical Models of Lymphatic Filariasis and Onchocerciasis.The contribution of mass drug administration to global health: past, present and future.Vaccination with a genetically modified Brugia malayi cysteine protease inhibitor-2 reduces adult parasite numbers and affects the fertility of female worms following a subcutaneous challenge of Mongolian gerbils (Meriones unguiculatus) with B. mala Polymorphism in ABC transporter genes of Dirofilaria immitis.Field-Based Evidence of Single and Few Doses of Annual Ivermectin Treatment Efficacy in Eliminating Skin Microfilaria Load after a Decade of Intervention How do the macrocyclic lactones kill filarial nematode larvae?Reduced efficacy of albendazole against Ascaris lumbricoides in Rwandan schoolchildren.Anti-onchocerca Metabolites from Cyperus articulatus: Isolation, In Vitro Activity and In Silico 'Drug-Likeness'.Moxidectin and the avermectins: Consanguinity but not identity.Extracts of Euphorbia hirta Linn. (Euphorbiaceae) and Rauvolfia vomitoria Afzel (Apocynaceae) demonstrate activities against Onchocerca volvulus microfilariae in vitro Ocular onchocerciasis: current management and future prospects Recent advances in candidate-gene and whole-genome approaches to the discovery of anthelmintic resistance markers and the description of drug/receptor interactions.Resistance to the macrocyclic lactone moxidectin is mediated in part by membrane transporter P-glycoproteins: Implications for control of drug resistant parasitic nematodes.In silico and in vitro studies on the protein-protein interactions between Brugia malayi immunomodulatory protein calreticulin and human C1q.Immunization with the recombinant antigen Ss-IR induces protective immunity to infection with Strongyloides stercoralis in mice.Situation analysis of parasitological and entomological indices of onchocerciasis transmission in three drainage basins of the rain forest of South West Cameroon after a decade of ivermectin treatment.Onchocerciasis transmission in Ghana: persistence under different control strategies and the role of the simuliid vectors.Efficient in vitro RNA interference and immunofluorescence-based phenotype analysis in a human parasitic nematode, Brugia malayi Tissue-specific transcriptomics and proteomics of a filarial nematode and its Wolbachia endosymbiont.

P2860

Q21562256-DED90C70-23DD-4CE6-AD16-9370B1A79E84 Q21562257-4D813F78-4CFD-4E3D-B0D2-43AC17BE444D Q27303702-DBF0B0D8-42AD-4C26-A93E-36EC4C2F861D Q27329055-337C22A9-8484-4772-B2F6-A0F3D692CBC4 Q27680669-ED31F85E-31D5-4228-84BE-0F0A51A67DB5 Q28066402-EFABD1C4-7524-4F5D-A79A-7EB5830FDE86 Q28072821-DB0B6A02-E93B-498F-8521-D963EE7C685E Q28074470-2D073AF9-654B-4B3C-83EE-99CEA90357FC Q28074596-44E9E630-61F5-44AF-946A-663BDBB808E3 Q28079948-E50485E5-529C-4CDB-8621-75516FDADCD5 Q28294770-9AAFDFC0-834A-4291-ABB1-71D6614F8743 Q28468411-A4CB2881-3B8D-4BC8-97AF-D2EEC1D98A9E Q28484629-582023B6-77B2-4014-83D2-12B3C8B1FD77 Q28486843-BE1F281D-3ED6-4E72-A087-BC35C15D4AFE Q28487094-C81D8F1A-E39C-4513-B7DD-BD55180F1E86 Q28538222-73C0EF16-E9A4-4A52-9D1D-3A07AEF19024 Q28545804-BE18EA7A-61DE-4E09-BC9E-0A3585DD4756 Q28552737-55DA56F7-B32F-4BD0-8627-A59332012E01 Q28602538-F702D8FC-C73F-41A9-869D-748BDD27B754 Q28652963-34A7B542-AB12-49CB-9807-92E844402951 Q30250918-099F61B4-B12F-4DE5-AC97-15F603465696 Q30377066-CF60D22C-8410-4D68-9A21-8EBBAC407782 Q30388508-42FB2623-EC64-4502-80AC-DD9A43EC5D61 Q30840588-AF2F596A-2662-4947-9D64-05C0FB3FD87E Q33648348-8F177A95-E3DF-40DA-9CF6-B7B44DC3507E Q33716373-075649EA-CFA5-4E65-B336-E5CFEDD5F2B3 Q33805501-A8B04A9C-406B-4139-9F54-DCAA2587D9B2 Q33889760-46AFF56D-007D-47AE-8661-C4BF8CBAEB50 Q33953660-F268586B-084C-4E1B-BB61-5768932FA44F Q34404748-8DA612E9-D446-479A-A9EB-9A8F2F2E8E06 Q34626656-94C90C2A-5189-4206-B34F-5C67848E9AC9 Q34633609-61C593A0-3CC0-4825-899B-214AFDA25BC9 Q34705912-C36AC7F7-ABD0-4FC9-AD46-9365B006D55F Q34705924-BB32F4FB-65BC-4B5B-AE20-B466AF1F4C4F Q35237370-B2FE01A2-6933-43A5-860C-2FDD4875C9D5 Q35317663-8E982B9A-1A36-41DF-B042-520077EE2EB3 Q35372570-B2955CD7-F19C-49B8-A132-029FF12DD962 Q35510635-8850BB45-F299-495F-ADAB-8DA963C59E1F Q35799441-0B6E8F52-FD4E-4015-935A-73F49DBADF40 Q35838815-1314F72D-1ED7-4A15-A461-D2671FC440F0

P2860

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

http://www.wikidata.org/entity/Q33863602

description

2011 nî lūn-bûn

@nan

2011 թուականի Մարտին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի մարտին հրատարակված գիտական հոդված

@hy

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

name

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@ast

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@en

type

label

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@ast

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@en

prefLabel

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@ast

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@en

P1433

Q33863602-E7AEDF8E-AAF9-45CE-B750-4EA2D56E7CB0

P1476

Q33863602-BFAE5BED-A061-4B54-B407-996A13B257A9

P2093

Q33863602-01998C4E-E493-43E2-B493-AAA73604F08C

Q33863602-366B7D85-D2F3-4861-909E-B44F8AF5A3B6

Q33863602-390EB110-B4B2-400D-B37E-999F42718ED0

Q33863602-5A0C262B-18A9-4970-A15D-4480C1DE5680

Q33863602-B4DA6AAF-70F8-43A3-B017-9455965D7A5A

Q33863602-FDC97524-69D0-4F48-A77D-B8ECBA970D60

P275

Q33863602-4051DA8E-B907-4A09-9F7D-073E842941B4

P2860

Q33863602-15E3FDBA-CA69-4AFE-864C-8E9F37B8C852

Q33863602-1D332BB1-54A5-4B47-B2F3-F082DC1B20E2

Q33863602-254DEFD4-DDF4-48DD-8E79-782CDD135CE9

Q33863602-33005DD7-B227-465F-99C8-76DB4C09C059

Q33863602-348512D6-0DE2-4B90-BC25-9E682F590033

Q33863602-485212CB-C459-46C9-A22C-82EA8B10CE62

Q33863602-52BDC146-2F87-4CAA-90D3-72EC1D996F10

Q33863602-5CDE33DC-A60E-4F9D-951A-5585DD32190F

Q33863602-5FF6A644-8D71-4B69-894D-3565C68FC94D

Q33863602-6A4D0527-4797-4C0E-9323-94151EC640C6

P304

Q33863602-0170C8A2-F4B1-42A0-B0A8-9AA93DF26E24

P31

Q33863602-378A778A-B74A-43D8-A501-A1DEEB79FE7D

P356

Q33863602-69F92436-B651-413B-BC52-906C2CEC208F

P407

Q33863602-221E6BA2-BD10-465A-91A5-9AC60D5CB311

P433

Q33863602-40213FEE-13FC-446D-ABBB-2BEF3FE4BDAD

P478

Q33863602-3FF61165-697F-4B3A-B3E1-7395B99D66BF

P5008

Q33863602-2C7431D9-FA98-4815-AB04-48B39CF1DC73

P577

Q33863602-9F0C1160-14C0-4374-B0B4-DCE292DB2683

P5875

Q33863602-C5C9DB3C-FECC-4314-B7BA-C33A8F640225

P698

Q33863602-EFB982AC-E1FE-4CEB-9469-87291D47FC82

P921

Q33863602-07671FA2-93AE-454D-96C1-5DF9A798F178

P932

Q33863602-24CDF09D-28D5-4792-93FF-894074F883C6

P356

JOURNAL.PNTD.0000998

P1433

PLOS Neglected Tropical Diseases

P1476

Phenotypic evidence of emerging ivermectin resistance in Onchocerca volvulus.

@en

P2093

Daniel A Boakye

http://www.w3.org/2001/XMLSchema#string

John O Gyapong

http://www.w3.org/2001/XMLSchema#string

Kwablah Awadzi

http://www.w3.org/2001/XMLSchema#string

Mike Y Osei-Atweneboana

http://www.w3.org/2001/XMLSchema#string

Roger K Prichard

http://www.w3.org/2001/XMLSchema#string

Simon K Attah

http://www.w3.org/2001/XMLSchema#string

P275

Creative Commons Attribution 2.5 Unported

P2860

Genetic selection of low fertile Onchocerca volvulus by ivermectin treatment

Resistance to benzimidazole and macrocyclic lactone anthelmintics in cattle nematodes in Argentina.

Genetic variability following selection of Haemonchus contortus with anthelmintics.

Prevalence and intensity of Onchocerca volvulus infection and efficacy of ivermectin in endemic communities in Ghana: a two-phase epidemiological study.

The Mectizan Donation Program - highlights from 2005.

The microfilarial load in the anterior segment of the eye. A parameter of intensity of onchocerciasis

Viability of adult Onchocerca volvulus after six 2-weekly doses of ivermectin.

Identifying sub-optimal responses to ivermectin in the treatment of River Blindness.

Criteria for the differentiation between young and old Onchocerca volvulus filariae.

Immunocompetence may be important in the effectiveness of Mectizan (ivermectin) in the treatment of human onchocerciasis.

P304

e998

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1371/JOURNAL.PNTD.0000998

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

5

http://www.w3.org/2001/XMLSchema#string

P5008

P577

2011-03-29T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51020851

http://www.w3.org/2001/XMLSchema#string

P698

21468315

http://www.w3.org/2001/XMLSchema#string

P921

P932

3066159

http://www.w3.org/2001/XMLSchema#string