about
Comparative evidence for a link between Peyer's patch development and susceptibility to transmissible spongiform encephalopathies.E. coli O157 on Scottish cattle farms: evidence of local spread and persistence using repeat cross-sectional dataA Bayesian generalized random regression model for estimating heritability using overdispersed count dataImplications of within-farm transmission for network dynamics: consequences for the spread of avian influenza.Genetic dissection of MHC-associated susceptibility to Lepeophtheirus salmonis in Atlantic salmonComparison of three alternative methods for analysis of equine Faecal Egg Count Reduction Test data.Temporal and spatial patterns of bovine Escherichia coli O157 prevalence and comparison of temporal changes in the patterns of phage types associated with bovine shedding and human E. coli O157 cases in Scotland between 1998-2000 and 2002-2004.Geographic determinants of reported human Campylobacter infections in Scotland.Effect of the initial dose of foot-and-mouth disease virus on the early viral dynamics within pigs.Sequence-based prediction for vaccine strain selection and identification of antigenic variability in foot-and-mouth disease virus.A metapopulation model for highly pathogenic avian influenza: implications for compartmentalization as a control measure.Generating social network data using partially described networks: an example informing avian influenza control in the British poultry industryThe prevalences of Salmonella Genomic Island 1 variants in human and animal Salmonella Typhimurium DT104 are distinguishable using a Bayesian approach.Using sequence data to identify alternative routes and risk of infection: a case-study of campylobacter in Scotland.Quantifying the sources of variability in equine faecal egg counts: implications for improving the utility of the method.Heterogeneous shedding of Escherichia coli O157 in cattle and its implications for controlEstimating the potential impact of canine distemper virus on the Amur tiger population (Panthera tigris altaica) in RussiaAssociations between the presence of virulence determinants and the epidemiology and ecology of zoonotic Escherichia coli.An explicit immunogenetic model of gastrointestinal nematode infection in sheep.Super-shedding and the link between human infection and livestock carriage of Escherichia coli O157.Predicting the public health benefit of vaccinating cattle against Escherichia coli O157Pharmacokinetic-pharmacodynamic model to evaluate intramuscular tetracycline treatment protocols to prevent antimicrobial resistance in pigs.The transfer of IgA from mucus to plasma and the implications for diagnosis and control of nematode infections.Population dynamics of scrapie in a sheep flock.Multitrait indices to predict worm length and number in sheep with natural, mixed predominantly Teladorsagia circumcincta infection.Canine distemper virus as a threat to wild tigers in Russia and across their range.The control of sea lice in Atlantic salmon by selective breedingRisk factors for the presence of high-level shedders of Escherichia coli O157 on Scottish farmsPathogenic potential to humans of bovine Escherichia coli O26, Scotland.Multistrain models predict sequential multidrug treatment strategies to result in less antimicrobial resistance than combination treatment.Detection of Rare Antimicrobial Resistance Profiles by Active and Passive Surveillance Approaches.Support vector machine applied to predict the zoonotic potential of E. coli O157 cattle isolatesPharmacodynamic modelling of in vitro activity of tetracycline against a representative, naturally occurring population of porcine Escherichia coli.The dynamic influence of genetic variation on the susceptibility of sheep to gastrointestinal nematode infectionDo antibiotic residues in soils play a role in amplification and transmission of antibiotic resistant bacteria in cattle populations?Identifying the seasonal origins of human campylobacteriosis.Metapopulation dynamics of Escherichia coli O157 in cattle: an exploratory model.Epidemiological implications of the contact network structure for cattle farms and the 20-80 rule.Genotype-level variation in lifetime breeding success, litter size and survival of sheep in scrapie-affected flocks.Competitive suppression in mixed-clone parasite cultures.
P50
Q25255274-53CF5513-C2FA-42F4-B11B-4B1D68B54E38Q30809159-09554B17-77F1-494F-B306-999D776E69FBQ30975459-B035D2C2-63A2-45B8-8825-E8991A26C8A5Q31119116-83A52CDD-DF34-4AB9-BB14-5FBC43324E43Q33435690-B0946E07-A317-4296-97F3-56A9DBC92945Q33517253-C8FF1938-648B-4558-BF80-958B8C09D1FFQ33521123-2087B3EE-B79B-44A0-AE85-1541BD920DECQ33633434-61A1B61C-3C48-4BAA-9011-D89BEDD2E6E4Q33726687-78E62391-F846-4887-BAE6-4700E4469167Q33769118-A50BFF7A-0851-4715-AFC1-8973401077A3Q33915018-D2396F50-4806-4CEF-96F2-29DFBF330141Q34057670-EF9E592A-5A62-48B6-8EF8-9A359D678236Q34085731-93C7C9FE-D3C1-48A5-BAB8-3BE08771E5D0Q34214132-08DADFA1-4990-4E6C-AACC-DE835BA246FEQ34217068-6736743B-35AA-41BE-A54E-CCA5B59B3A30Q34249280-AC734575-6AC2-4402-931C-AD009FA9F1CCQ34420803-0BC9900A-5CB0-4B44-ACC4-E1A7BC77FA13Q34432110-579C8D29-3FCE-47BC-9563-9D2846C28E00Q34521108-B1E2F8C2-2883-4641-8F8B-EB1FD55C9571Q34880314-398AF73E-89EE-4D1D-A9BC-B3ECF7A14C24Q34991352-1FEC7542-5901-48D7-82E3-31AEA07FEC29Q35076904-86B0E524-D369-4808-88BA-53BDCC6854BBQ35095982-7D52876B-10F3-4C15-828F-21E9D886CD45Q35212371-56B3D8FE-8C78-482B-BC78-5940475BD8E9Q35542394-0C365574-FB71-401E-BB58-E16B79A46CC1Q35621920-6064E2DD-B22A-4413-BA1A-DE6A85C71180Q35750730-D03CC29B-0824-4311-9F5E-9495472915DFQ35784585-E2BCCF67-C127-422F-B85B-5BC0AFF21C82Q35844593-98A42361-0ECB-493C-B9A6-77574A9D0462Q36060551-EB4BB1F3-4573-478C-866B-ABF7E964EFB4Q36071671-806AB782-72A9-4F91-99A7-5D4A0D6531F0Q36137874-32404169-AB8D-44A9-9861-63E371B7998CQ36310839-BFDC3C91-827F-4353-B54F-963EF9B68604Q36671987-532D430E-805F-4D1E-A975-AF477DF730A1Q37001935-D1BB87A0-801B-4F86-B3B3-83C4FABE02AAQ37730241-B972F825-E37A-47FE-8559-FC19187BF549Q38604123-2043CA86-5E4C-4C26-9A1B-53C71B921B4CQ38759222-B63ABE37-112F-4306-ACA1-7EF5BD404F9EQ38939760-39030A43-DFA4-437A-8B1F-C2D31C34E456Q38955293-36BBBFE4-913D-4347-9737-785E4D47F3EE
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Louise Matthews
@ast
Louise Matthews
@en
Louise Matthews
@es
Louise Matthews
@nl
Louise Matthews
@sl
type
label
Louise Matthews
@ast
Louise Matthews
@en
Louise Matthews
@es
Louise Matthews
@nl
Louise Matthews
@sl
prefLabel
Louise Matthews
@ast
Louise Matthews
@en
Louise Matthews
@es
Louise Matthews
@nl
Louise Matthews
@sl
P1053
E-2913-2013
P106
P21
P31
P3829
P496
0000-0003-4420-8367