Your search keyword '"Vernon, Matthew C."' showing total 10 results

1. Social encounter networks: characterizing Great Britain

Author

Danon, Leon, Read, Jonathan M., House, Thomas A., Vernon, Matthew C., and Keeling, Matt J.

Published

2013

2. Impact of regulatory perturbations to disease spread through cattle movements in Great Britain

Author

Vernon, Matthew C. and Keeling, Matt J.

Published

2012

3. Individual identity and movement networks for disease metapopulations

Author

Keeling, Matt J., Danon, Leon, Vernon, Matthew C., House, Thomas A., and Grenfell, Bryan

Published

2010

4. Representing the UK's Cattle Herd as Static and Dynamic Networks

Author

Vernon, Matthew C. and Keeling, Matt J.

Published

2009

5. Demographics of cattle movements in the United Kingdom

Author

Vernon Matthew C

Subjects

Veterinary medicine, SF600-1100

Abstract

Abstract Background The United Kingdom (UK) government has been recording the births, deaths, and movements of cattle for the last decade. Despite reservations about the accuracy of these data, they represent a large and valuable body of information about the demographics of the UK cattle herd and its contact structure. In this article, a range of demographic data about UK cattle, and particularly their movements, are presented, as well as yearly trends in the patterns of movements. Results A clear seasonal pattern is evident in the number of movements of cattle, as are the reductions in movement volume due to foot and mouth disease outbreaks in 2001 and 2007. The distribution of ages of cattle at their time of death is multimodal, and the impact of the over thirty months rule is marked. Most movements occur between agricultural holdings, markets, and slaughterhouses, and there is a non-random pattern to the types of holdings movements occur between. Most animals move only a short distance and a few times in their life. Most movements between any given pair of holdings only occurred once in the last 10 years, but about a third occurred between 2 and 10 times in that period. There is no clear trend to movement patterns in the UK since 2002. Conclusions Despite a substantial number of regulatory interventions during the last decade, movement patterns show no clear trend since 2002. The observed patterns in the repeatability of movements, the types of holdings involved in movements, the distances and frequencies of cattle movements, and the batch sizes involved give an insight into the structure of the UK cattle industry, and could act as the basis for a predictive model of livestock movements in the UK.

Published

2011

6. Construction of networks with intrinsic temporal structure from UK cattle movement data

Author

Vernon Matthew C, Heath M Fred, and Webb Cerian R

Subjects

Veterinary medicine, SF600-1100

Abstract

Abstract Background The implementation of national systems for recording the movements of cattle between agricultural holdings in the UK has enabled the development and parameterisation of network-based models for disease spread. These data can be used to form a network in which each cattle-holding location is represented by a single node and links between nodes are formed if there is a movement of cattle between them in the time period selected. However, this approach loses information on the time sequence of events thus reducing the accuracy of model predictions. In this paper, we propose an alternative way of structuring the data which retains information on the sequence of events but which still enables analysis of the structure of the network. The fundamental feature of this network is that nodes are not individual cattle-holding locations but are instead direct movements between pairs of locations. Links are made between nodes when the second node is a subsequent movement from the location that received the first movement. Results Two networks are constructed assuming (i) a 7-day and (ii) a 14-day infectious period using British Cattle Movement Service (BCMS) data from 2004 and 2005. During this time period there were 4,183,670 movements that could be derived from the database. In both networks over 98% of the connected nodes formed a single giant weak component. Degree distributions show scale-free behaviour over a limited range only, due to the heterogeneity of locations: farms, markets, shows, abattoirs. Simulation of the spread of disease across the networks demonstrates that this approach to restructuring the data enables efficient comparison of the impact of transmission rates on disease spread. Conclusion The redefinition of what constitutes a node has provided a means to simulate disease spread using all the information available in the BCMS database whilst providing a network that can be described analytically. This will enable the construction of generic networks with similar properties with which to assess the impact of small changes in network structure on disease dynamics.

Published

2008

7. Networks and the Epidemiology of Infectious Disease.

Author

Danon, Leon, Ford, Ashley P., House, Thomas, Jewell, Chris P., Keeling, Matt J., Roberts, Gareth O., Ross, Joshua V., and Vernon, Matthew C.

Subjects

SOCIAL epidemiology, SOCIAL networks, INFECTIOUS disease transmission, DISEASE incidence, POPULATION dynamics, PUBLIC health, MATHEMATICAL models

Abstract

The science of networks has revolutionised research into the dynamics of interacting elements. It could be argued that epidemiology in particular has embraced the potential of network theory more than any other discipline. Here we review the growing body of research concerning the spread of infectious diseases on networks, focusing on the interplay between network theory and epidemiology. The review is split into four main sections, which examine: the types of network relevant to epidemiology; the multitude of ways these networks can be characterised; the statistical methods that can be applied to infer the epidemiological parameters on a realised network; and finally simulation and analytical methods to determine epidemic dynamics on a given network. Given the breadth of areas covered and the ever-expanding number of publications, a comprehensive review of all work is impossible. Instead, we provide a personalised overview into the areas of network epidemiology that have seen the greatest progress in recent years or have the greatest potential to provide novel insights. As such, considerable importance is placed on analytical approaches and statistical methods which are both rapidly expanding fields. Throughout this review we restrict our attention to epidemiological issues. [ABSTRACT FROM AUTHOR]

Published

2011

8. Individual identity and movement networks for disease metapopulations.

Author

KeeIing, Matt J., Danon, Leon, Vernon, Matthew C., and House, Thomas A.

Subjects

COMPUTER networks, COMMUNICABLE diseases, INDIVIDUALITY, RISK factors of epidemics, SMALLPOX, INFLUENZA transmission, INFECTIOUS disease transmission

Abstract

The theory of networks has had a huge impact in both the physical and life sciences, shaping our understanding of the interaction between multiple elements in complex systems. In particular, networks have been extensively used in predicting the spread of infectious diseases where individuals, or populations of individuals, interact with a limited set of others-defining the network through which the disease can spread. Here for such disease models we consider three assumptions for capturing the network of movements between populations, and focus on two applied problems supported by detailed data from Great Britain: the commuter movement of workers between local areas (wards) and the permanent movement of cattle between farms. For such metapopulation networks, we show that the identity of individuals responsible for making network connections can have a significant impact on the infection dynamics, with clear implications for detailed public health and veterinary applications. [ABSTRACT FROM AUTHOR]

Published

2010

9. Construction of networks with intrinsic temporal structure from UK cattle movement data.

Author

Heath, M. Fred, Vernon, Matthew C., and Webb, Cerian R.

Subjects

*CATTLE, *DATABASES, *SLAUGHTERING, *ANIMAL diseases, *VETERINARY medicine

Abstract

Background: The implementation of national systems for recording the movements of cattle between agricultural holdings in the UK has enabled the development and parameterisation of network-based models for disease spread. These data can be used to form a network in which each cattle-holding location is represented by a single node and links between nodes are formed if there is a movement of cattle between them in the time period selected. However, this approach loses information on the time sequence of events thus reducing the accuracy of model predictions. In this paper, we propose an alternative way of structuring the data which retains information on the sequence of events but which still enables analysis of the structure of the network. The fundamental feature of this network is that nodes are not individual cattle-holding locations but are instead direct movements between pairs of locations. Links are made between nodes when the second node is a subsequent movement from the location that received the first movement. Results: Two networks are constructed assuming (i) a 7-day and (ii) a 14-day infectious period using British Cattle Movement Service (BCMS) data from 2004 and 2005. During this time period there were 4,183,670 movements that could be derived from the database. In both networks over 98% of the connected nodes formed a single giant weak component. Degree distributions show scale-free behaviour over a limited range only, due to the heterogeneity of locations: farms, markets, shows, abattoirs. Simulation of the spread of disease across the networks demonstrates that this approach to restructuring the data enables efficient comparison of the impact of transmission rates on disease spread. Conclusion: The redefinition of what constitutes a node has provided a means to simulate disease spread using all the information available in the BCMS database whilst providing a network that can be described analytically. This will enable the construction of generic networks with similar properties with which to assess the impact of small changes in network structure on disease dynamics. [ABSTRACT FROM AUTHOR]

Published

2008

10. Tensin Stabilizes Integrin Adhesive Contacts in Drosophila

Author

Torgler, Catherine N., Narasimha, Maithreyi, Knox, Andrea L., Zervas, Christos G., Vernon, Matthew C., and Brown, Nicholas H.

Subjects

*DROSOPHILA, *PROTEINS, *INTEGRINS, *CYTOSKELETON, *CELL adhesion molecules, *GENETICS

Abstract

We report the functional characterization of the Drosophila ortholog of tensin, a protein implicated in linking integrins to the cytoskeleton and signaling pathways. A tensin null was generated and is viable with wing blisters, a phenotype characteristic of loss of integrin adhesion. In tensin mutants, mechanical abrasion is required during wing expansion to cause wing blisters, suggesting that tensin strengthens integrin adhesion. The localization of tensin requires integrins, talin, and integrin-linked kinase. The N-terminal domain and C-terminal PTB domain of tensin provide essential recruitment signals. The intervening SH2 domain is not localized on its own. We suggest a model where tensin is recruited to sites of integrin adhesion via its PTB and N-terminal domains, localizing the SH2 domain so that it can interact with phosphotyrosine-containing proteins, which stabilize the integrin link to the cytoskeleton. [Copyright &y& Elsevier]

Published

2004