Your search keyword '"Mellor, Dominic J."' showing total 3 results

1. Detection of Rare Antimicrobial Resistance Profiles by Active and Passive Surveillance Approaches.

Author

Mather, Alison E., Reeve, Richard, Mellor, Dominic J., Matthews, Louise, Reid-Smith, Richard J., Dutil, Lucie, Haydon, Daniel T., and Reid, Stuart W. J.

Subjects

RARE diseases, ANTI-infective agents, SALMONELLA, DRUG resistance in bacteria, BACTERIAL diversity, PHENOTYPES

Abstract

Antimicrobial resistance (AMR) surveillance systems are generally not specifically designed to detect emerging resistances and usually focus primarily on resistance to individual drugs. Evaluating the diversity of resistance, using ecological metrics, allows the assessment of sampling protocols with regard to the detection of rare phenotypes, comprising combinations of resistances. Surveillance data of phenotypic AMR of Canadian poultry Salmonella Heidelberg and swine Salmonella Typhimurium var. 5- were used to contrast active (representative isolates derived from healthy animals) and passive (diagnostic isolates) surveillance and assess their suitability for detecting emerging resistance patterns. Although in both datasets the prevalences of resistance to individual antimicrobials were not significantly different between the two surveillance systems, analysis of the diversity of entire resistance phenotypes demonstrated that passive surveillance of diagnostic isolates detected more unique phenotypes. Whilst the most appropriate surveillance method will depend on the relevant objectives, under the conditions of this study, passive surveillance of diagnostic isolates was more effective for the detection of rare and therefore potentially emerging resistance phenotypes. [ABSTRACT FROM AUTHOR]

Published

2016

2. Herd-level risk factors associated with the presence of Phage type 21/28 E. coli O157 on Scottish cattle farms

Author

Halliday, Jo E. B., Chase-Topping, Margo E., Pearce, Michael C., McKendrick, Iain J., Allison, Lesley, Fenlon, Dave, Low, Christopher, Mellor, Dominic J., Gunn, George J., and Woolhouse, Mark E. J.

Subjects

lcsh:QR1-502, Colony Count, Microbial, Cattle Diseases, Escherichia coli O157, Shiga Toxin 1, Coliphages, lcsh:Microbiology, Feces, Scotland, Risk Factors, Water Supply, Animals, Cattle, Animal Husbandry, Bacteriophage Typing, Escherichia coli Infections, Research Article

Abstract

Background E. coli O157 is a bacterial pathogen that is shed by cattle and can cause severe disease in humans. Phage type (PT) 21/28 is a subtype of E. coli O157 that is found across Scotland and is associated with particularly severe human morbidity. Methods A cross-sectional survey of Scottish cattle farms was conducted in the period Feb 2002-Feb 2004 to determine the prevalence of E. coli O157 in cattle herds. Data from 88 farms on which E. coli O157 was present were analysed using generalised linear mixed models to identify risk factors for the presence of PT 21/28 specifically. Results The analysis identified private water supply, and northerly farm location as risk factors for PT 21/28 presence. There was a significant association between the presence of PT 21/28 and an increased number of E. coli O157 positive pat samples from a farm, and PT 21/28 was significantly associated with larger E. coli O157 counts than non-PT 21/28 E. coli O157. Conclusion PT 21/28 has significant risk factors that distinguish it from other phage types of E. coli O157. This finding has implications for the control of E. coli O157 as a whole and suggests that control could be tailored to target the locally dominant PT.

Published

2006

3. Systems Approaches to Animal Disease Surveillance and Resource Allocation: Methodological Frameworks for Behavioral Analysis.

Author

Rich, Karl M., Denwood, Matthew J., Stott, Alistair W., Mellor, Dominic J., Reid, Stuart W. J., and Gunn, George J.

Subjects

ANIMAL diseases, BEHAVIORAL assessment, RESOURCE allocation, COST effectiveness, SUPPLY chains, ANIMAL health, DECISION making

Abstract

While demands for animal disease surveillance systems are growing, there has been little applied research that has examined the interactions between resource allocation, cost-effectiveness, and behavioral considerations of actors throughout the livestock supply chain in a surveillance system context. These interactions are important as feedbacks between surveillance decisions and disease evolution may be modulated by their contextual drivers, influencing the cost-effectiveness of a given surveillance system. This paper identifies a number of key behavioral aspects involved in animal health surveillance systems and reviews some novel methodologies for their analysis. A generic framework for analysis is discussed, with exemplar results provided to demonstrate the utility of such an approach in guiding better disease control and surveillance decisions. [ABSTRACT FROM AUTHOR]

Published

2013