Your search keyword '"Gilbert, Marius"' showing total 9 results

1. Reducing antimicrobial use in food animals.

Author

Van Boeckel TP, Glennon EE, Chen D, Gilbert M, Robinson TP, Grenfell BT, Levin SA, Bonhoeffer S, and Laxminarayan R

Subjects

Animals, Guidelines as Topic, Humans, Policy, Animal Feed standards, Anti-Infective Agents economics, Drug Resistance, Microbial, Drug Utilization standards, Veterinary Drugs economics, Zoonoses microbiology

Published

2017

2. Current characteristics of animal rabies cases in Thailand and relevant risk factors identified by a spatial modeling approach.

Author

Thanapongtharm, Weerapong, Suwanpakdee, Sarin, Chumkaeo, Arun, Gilbert, Marius, and Wiratsudakul, Anuwat

Subjects

RABIES, ZOONOSES, POPULATION density, VIRUS diseases, DOG bites

Abstract

The situation of human rabies in Thailand has gradually declined over the past four decades. However, the number of animal rabies cases has slightly increased in the last ten years. This study thus aimed to describe the characteristics of animal rabies between 2017 and 2018 in Thailand in which the prevalence was fairly high and to quantify the association between monthly rabies occurrences and explainable variables using the generalized additive models (GAMs) to predict the spatial risk areas for rabies spread. Our results indicate that the majority of animals affected by rabies in Thailand are dogs. Most of the affected dogs were owned, free or semi-free roaming, and unvaccinated. Clusters of rabies were highly distributed in the northeast, followed by the central and the south of the country. Temporally, the number of cases gradually increased after June and reached a peak in January. Based on our spatial models, human and cattle population density as well as the spatio-temporal history of rabies occurrences, and the distances from the cases to the secondary roads and country borders are identified as the risk factors. Our predictive maps are applicable for strengthening the surveillance system in high-risk areas. Nevertheless, the identified risk factors should be rigorously considered and integrated into the strategic plans for the prevention and control of animal rabies in Thailand. Author summary: Rabies is a deadly viral zoonotic disease responsible for thousands of deaths worldwide. The disease is highly prevalent in developing countries including Thailand. The main reservoir hosts in these settings are dogs. Currently, there is a global effort to stop human deaths from dog-mediated rabies by 2030. To achieve this goal, scientifically driven policies must be rigorously implemented. In this study, we used data on rabies outbreaks in the high-prevalent years in Thailand together with other related factors to describe important characteristics of the outbreaks and to identify the main factors that contribute to the higher risk of the outbreaks across space and time. Surprisingly, we found that owned dogs were more affected than the stray ones and the peak of the outbreaks was identified in winter rather than summer. There are many spatial factors involved in the spread of animal rabies, for example, history of rabies epidemics in the areas. The current policy planning and implementation should be revised based on scientific evidence to prevent such repeated outbreaks. [ABSTRACT FROM AUTHOR]

Published

2021

3. Effectiveness of Live Poultry Market Interventions on Human Infection with Avian Influenza A(H7N9) Virus, China.

Author

Wei Wang, Artois, Jean, Xiling Wang, Kucharski, Adam J., Yao Pei, Xin Tong, Virlogeux, Victor, Peng Wu, Cowling, Benjamin J., Gilbert, Marius, Hongjie Yu, Wang, Wei, Wang, Xiling, Pei, Yao, Tong, Xin, Wu, Peng, and Yu, Hongjie

Subjects

AVIAN influenza prevention, AVIAN influenza epidemiology, INFLUENZA prevention, INFLUENZA epidemiology, RESEARCH, INFLUENZA A virus, POULTRY, ANIMAL experimentation, RESEARCH methodology, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies

Abstract

Various interventions for live poultry markets (LPMs) have emerged to control outbreaks of avian influenza A(H7N9) virus in mainland China since March 2013. We assessed the effectiveness of various LPM interventions in reducing transmission of H7N9 virus across 5 annual waves during 2013-2018, especially in the final wave. With the exception of waves 1 and 4, various LPM interventions reduced daily incidence rates significantly across waves. Four LPM interventions led to a mean reduction of 34%-98% in the daily number of infections in wave 5. Of these, permanent closure provided the most effective reduction in human infection with H7N9 virus, followed by long-period, short-period, and recursive closures in wave 5. The effectiveness of various LPM interventions changed with the type of intervention across epidemics. Permanent LPM closure should be considered to maintain sufficient effectiveness of interventions and prevent the recurrence of H7N9 epidemics. [ABSTRACT FROM AUTHOR]

Published

2020

4. The impact of surveillance and control on highly pathogenic avian influenza outbreaks in poultry in Dhaka division, Bangladesh.

Author

Hill, Edward M., Tildesley, Michael J., Prosser, Diann J., Takekawa, John Y., Xiao, Xiangming, House, Thomas, Gilbert, Marius, Dhingra, Madhur S., Morzaria, Subhash, Kalpravidh, Wantanee, Osmani, Muzaffar G., Brum, Eric, Yamage, Mat, and Kalam, Md. A.

Subjects

ANIMAL health surveillance, PREVENTIVE medicine, PATHOGENIC viruses, AVIAN influenza, POULTRY diseases

Abstract

In Bangladesh, the poultry industry is an economically and socially important sector, but it is persistently threatened by the effects of H5N1 highly pathogenic avian influenza. Thus, identifying the optimal control policy in response to an emerging disease outbreak is a key challenge for policy-makers. To inform this aim, a common approach is to carry out simulation studies comparing plausible strategies, while accounting for known capacity restrictions. In this study we perform simulations of a previously developed H5N1 influenza transmission model framework, fitted to two separate historical outbreaks, to assess specific control objectives related to the burden or duration of H5N1 outbreaks among poultry farms in the Dhaka division of Bangladesh. In particular, we explore the optimal implementation of ring culling, ring vaccination and active surveillance measures when presuming disease transmission predominately occurs from premises-to-premises, versus a setting requiring the inclusion of external factors. Additionally, we determine the sensitivity of the management actions under consideration to differing levels of capacity constraints and outbreaks with disparate transmission dynamics. While we find that reactive culling and vaccination policies should pay close attention to these factors to ensure intervention targeting is optimised, across multiple settings the top performing control action amongst those under consideration were targeted proactive surveillance schemes. Our findings may advise the type of control measure, plus its intensity, that could potentially be applied in the event of a developing outbreak of H5N1 amongst originally H5N1 virus-free commercially-reared poultry in the Dhaka division of Bangladesh. [ABSTRACT FROM AUTHOR]

Published

2018

5. Spatial characterization of colonies of the flying fox bat, a carrier of Nipah Virus in Thailand.

Author

Thanapongtharm, Weerapong, Linard, Catherine, Wiriyarat, Witthawat, Chinsorn, Pornpiroon, Kanchanasaka, Budsabong, Xiangming Xiao, Biradar, Chandrashekhar, Wallace, Robert G., and Gilbert, Marius

Subjects

ZOONOSES, VETERINARY medicine, VETERINARY therapeutics, NIPAH virus, SPECIES distribution, SURFACE analysis

Abstract

Background: A major reservoir of Nipah virus is believed to be the flying fox genus Pteropus, a fruit bat distributed across many of the world's tropical and sub-tropical areas. The emergence of the virus and its zoonotic transmission to livestock and humans have been linked to losses in the bat's habitat. Nipah has been identified in a number of indigenous flying fox populations in Thailand. While no evidence of infection in domestic pigs or people has been found to date, pig farming is an active agricultural sector in Thailand and therefore could be a potential pathway for zoonotic disease transmission from the bat reservoirs. The disease, then, represents a potential zoonotic risk. To characterize the spatial habitat of flying fox populations along Thailand's Central Plain, and to map potential contact zones between flying fox habitats, pig farms and human settlements, we conducted field observation, remote sensing, and ecological niche modeling to characterize flying fox colonies and their ecological neighborhoods. A Potential Surface Analysis was applied to map contact zones among local epizootic actors. Results: Flying fox colonies are found mainly on Thailand's Central Plain, particularly in locations surrounded by bodies of water, vegetation, and safe havens such as Buddhist temples. High-risk areas for Nipah zoonosis in pigs include the agricultural ring around the Bangkok metropolitan region where the density of pig farms is high. Conclusions: Passive and active surveillance programs should be prioritized around Bangkok, particularly on farms with low biosecurity, close to water, and/or on which orchards are concomitantly grown. Integration of human and animal health surveillance should be pursued in these same areas. Such proactive planning would help conserve flying fox colonies and should help prevent zoonotic transmission of Nipah and other pathogens. [ABSTRACT FROM AUTHOR]

Published

2015

6. Agro-Environmental Determinants of Avian Influenza Circulation: A Multisite Study in Thailand, Vietnam and Madagascar.

Author

Paul, Mathilde C., Gilbert, Marius, Desvaux, Stéphanie, Rasamoelina Andriamanivo, Harena, Peyre, Marisa, Khong, Nguyen Viet, Thanapongtharm, Weerapong, and Chevalier, Véronique

Subjects

*DETERMINANTS (Mathematics), *AVIAN influenza, *EPIDEMICS, *ECOSYSTEMS

Abstract

Outbreaks of highly pathogenic avian influenza have occurred and have been studied in a variety of ecological systems. However, differences in the spatial resolution, geographical extent, units of analysis and risk factors examined in these studies prevent their quantitative comparison. This study aimed to develop a high-resolution, comparative study of a common set of agro-environmental determinants of avian influenza viruses (AIV) in domestic poultry in four different environments: (1) lower-Northern Thailand, where H5N1 circulated in 2004–2005, (2) the Red River Delta in Vietnam, where H5N1 is circulating widely, (3) the Vietnam highlands, where sporadic H5N1 outbreaks have occurred, and (4) the Lake Alaotra region in Madagascar, which features remarkable similarities with Asian agro-ecosystems and where low pathogenic avian influenza viruses have been found. We analyzed H5N1 outbreak data in Thailand in parallel with serological data collected on the H5 subtype in Vietnam and on low pathogenic AIV in Madagascar. Several agro-environmental covariates were examined: poultry densities, landscape dominated by rice cultivation, proximity to a water body or major road, and human population density. Relationships between covariates and AIV circulation were explored using spatial generalized linear models. We found that AIV prevalence was negatively associated with distance to the closest water body in the Red River Delta, Vietnam highlands and Madagascar. We also found a positive association between AIV and duck density in the Vietnam highlands and Thailand, and with rice landscapes in Thailand and Madagascar. Our findings confirm the important role of wetlands-rice-ducks ecosystems in the epidemiology of AI in diverse settings. Variables influencing circulation of the H5 subtype in Southeast Asia played a similar role for low pathogenic AIV in Madagascar, indicating that this area may be at risk if a highly virulent strain is introduced. [ABSTRACT FROM AUTHOR]

Published

2014

7. A spatial assessment of Nipah virus transmission in Thailand pig farms using multi-criteria decision analysis.

Author

Thanapongtharm, Weerapong, Paul, Mathilde C., Wiratsudakul, Anuwat, Wongphruksasoong, Vilaiporn, Kalpravidh, Wantanee, Wongsathapornchai, Kachen, Damrongwatanapokin, Sudarat, Schar, Daniel, and Gilbert, Marius

Subjects

ZOONOSES, NIPAH virus, FLYING foxes, SWINE diseases

Abstract

Background: Thailand's Central Plain is identified as a contact zone between pigs and flying foxes, representing a potential zoonotic risk. Nipah virus (NiV) has been reported in flying foxes in Thailand, but it has never been found in pigs or humans. An assessment of the suitability of NiV transmission at the spatial and farm level would be useful for disease surveillance and prevention. Multi-criteria decision analysis (MCDA), a knowledge-driven model, was used to map contact zones between local epizootic risk factors as well as to quantify the suitability of NiV transmission at the pixel and farm level. Results: Spatial risk factors of NiV transmission in pigs were identified by experts as being of three types, including i) natural host factors (bat preferred areas and distance to the nearest bat colony), ii) intermediate host factors (pig population density), and iii) environmental factors (distance to the nearest forest, distance to the nearest orchard, distance to the nearest water body, and human population density). The resulting high suitable areas were concentrated around the bat colonies in three provinces in the East of Thailand, including Chacheongsao, Chonburi, and Nakhonnayok. The suitability of NiV transmission in pig farms in the study area was quantified as ranging from very low to medium suitability. Conclusions: We believe that risk-based surveillance in the identified priority areas may increase the chances of finding out NiV and other bat-borne pathogens and thereby optimize the allocation of financial resources for disease surveillance. In the long run, improvements of biosecurity in those priority areas may also contribute to preventing the spread of potential emergence of NiV and other bat-borne pathogens. [ABSTRACT FROM AUTHOR]

Published

2019

8. Dynamics of the 2004 avian influenza H5N1 outbreak in Thailand: The role of duck farming, sequential model fitting and control.

Author

Retkute, Renata, Jewell, Chris P., Van Boeckel, Thomas P., Zhang, Geli, Xiao, Xiangming, Thanapongtharm, Weerapong, Keeling, Matt, Gilbert, Marius, and Tildesley, Michael J.

Subjects

*AVIAN influenza, *DUCK farming, *ZOONOSES, *PREVENTIVE medicine, *INFECTIOUS disease transmission

Abstract

Abstract The Highly Pathogenic Avian Influenza (HPAI) subtype H5N1 virus persists in many countries and has been circulating in poultry, wild birds. In addition, the virus has emerged in other species and frequent zoonotic spillover events indicate that there remains a significant risk to human health. It is crucial to understand the dynamics of the disease in the poultry industry to develop a more comprehensive knowledge of the risks of transmission and to establish a better distribution of resources when implementing control. In this paper, we develop a set of mathematical models that simulate the spread of HPAI H5N1 in the poultry industry in Thailand, utilising data from the 2004 epidemic. The model that incorporates the intensity of duck farming when assessing transmision risk provides the best fit to the spatiotemporal characteristics of the observed outbreak, implying that intensive duck farming drives transmission of HPAI in Thailand. We also extend our models using a sequential model fitting approach to explore the ability of the models to be used in "real time" during novel disease outbreaks. We conclude that, whilst predictions of epidemic size are estimated poorly in the early stages of disease outbreaks, the model can infer the preferred control policy that should be deployed to minimise the impact of the disease. [ABSTRACT FROM AUTHOR]

Published

2018

9. Combining hazard and exposure to model the spatial distribution of two zoonoses, based on human case records

Author

Zeimes, Caroline, UCL - SST/ELI/ELIC - Earth & Climate, UCL - Faculté des Sciences, Vanwambeke, Sophie, De Keersmaecker, Marie-Laurence, Goosse, Hugues, Gilbert, Marius, and Leirs, Herwig

Subjects

Spatial distribution modelling, Zoonoses, Tick-borne encephalitis, Hazard and exposure, Hantavirus

Abstract

Zoonoses, diseases that usually circulate among animals and that are sometimes transmitted to humans, are complex systems that involve the pathogen, the host, (the vector) and humans. Spatial distribution models are often based on human case records as they frequently are the most readily available data. These records may be seen as the tip of the iceberg, hiding undetected zoonotic cycle. A new framework is suggested to better address the issues raised by the use of human case records for modelling zoonoses. Hantavirus and tick-borne encephalitis are examined in diverse environments and at diverse scales to illustrate these concepts. The framework is based on the concept of risk assessment that is a combination of hazard (defined as pathogen circulation in the wild) and exposure (defined as people entering into infected landscape). Results suggest that the combination of hazard and exposure is needed to improve the predictive power of models and to investigate how factors are involved in the various parts of the disease transmission system. Different modelling tools, ranging from linear regression to machine learning and from the landscape to the European scale, are investigated and compared. The multilevel approach is highly advised and three scenarios of variable response are identified, which bear diverse consequences for modelling and modelling results interpretation. (SC - Sciences) -- UCL, 2015

Published

2015