scholarly journals The One-Health Approach to Infectious Disease Outbreaks Control

2021 ◽  
Author(s):  
Sima Ernest Rugarabamu
Keyword(s):  
Infectious Disease ◽  
Infectious Diseases ◽  
Disease Control ◽  
Disease Transmission ◽  
One Health ◽  
Hot Spot ◽  
Disease Outbreaks ◽  
Infectious Disease Control ◽  
Infectious Disease Outbreaks ◽  
The One

Close contact between people, animals, plants, and their shared environment provides more disease transmission opportunities. Host characteristics, environmental conditions, and habitat disruption can provide new opportunities for disease to occur. These changes may lead to the spread of existing and new diseases. Bacteria, viruses, fungi, protozoans, sporozoans, worms, and others cause infectious diseases. Some of these diseases may be prone to explosive outbreaks and may constitute deadly epidemic threats that could rapidly reach pandemic proportions. Drugs and vaccines can successfully control many infectious diseases; however, this is challenged by the lack of facilities and resources. In all parts of the world, infectious disease is an essential constraint to increased human, animal, and environmental interactions. Identifying hot-spot and interventions for prevention while considering the heterogeneity of target diseases to places, population time, or situation is essential. Therefore, successful infectious disease control measures must be based on understanding disease transmission pathways, strengthening surveillance systems, and intervention. Application of the One Health method is a responsive approach to infectious disease control. Much of the One-Health based approach to managing an infectious disease has been utilized with a promising effect on controlling current outbreaks. More deliberate efforts should encourage understanding of disease determinants to analyze infectious disease issues through a One-Health lens. Only through the extensive participation of all related field stakeholders can One-Health truly reach its potential to mitigate infectious disease outbreaks. This chapter reviews utilization of the One Health approach to infectious disease outbreak control.

Preventing Zoonotic Emerging Disease Outbreaks: The Need to Complement One Health with Ethical Considerations

2021 ◽  
pp. 1-11
Author(s):  
Angela K. Martin ◽  
Salome Dürr
Keyword(s):  
Infectious Disease ◽  
Infectious Diseases ◽  
One Health ◽  
Emerging Infectious Diseases ◽  
Disease Outbreaks ◽  
Interdisciplinary Approach ◽  
Wild Animals ◽  
Ethical Considerations ◽  
Infectious Disease Outbreaks ◽  
Human Animal

Abstract Human encroachment on the habitats of wild animals and the dense living conditions of farmed animals increase spill-over risk of emerging infectious diseases from animals to humans (such as COVID-19). In this article, we defend two claims: First, we argue that in order to limit the risk of emerging infectious disease outbreaks in the future, a One Health approach is needed, which focuses on human, animal, and environmental health. Second, we claim that One Health should not solely be grounded in collaborations between veterinary, medical, and environmental scientists, but should also involve more dialogue with animal and environmental ethicists. Such an interdisciplinary approach would result in epidemiology-driven measures that are ethically legitimate.

scholarly journals Making the Case for Centralized Dementia Care Through Adaptive Reuse in the Time of COVID-19

2020 ◽  
Vol 57 ◽  
pp. 004695802096930
Author(s):  
Emily Roberts ◽  
Heather Carlile Carter
Keyword(s):  
Infectious Disease ◽  
Disease Control ◽  
Disease Outbreaks ◽  
Dementia Care ◽  
Infectious Disease Control ◽  
Community Revitalization ◽  
Existing Structures ◽  
Infectious Disease Outbreaks ◽  
Memory Care

It is estimated that 5.4 million Americans have some form of dementia and these numbers are expected to rise in the coming decades, leading to an unprecedented demand for memory care housing and services. At the same time, infectious disease outbreaks like the COVID-19 pandemic have raised great concerns for the future of care settings for people living with dementia. In searching for innovative options to create more autonomy and better quality of life in dementia care settings, while at the same time improving infectious disease control, repurposing existing structures, in particular vacant urban malls, may be one option for the large sites needed for the European model of dementia villages. This editorial paper makes the case for the Dementia Friendly City Center model for centralized dementia programs, medical services and housing. By working across multiple disciplines, this research team has simultaneously addressed numerous issues, including community revitalization, building sustainability, and the strengthening of infectious disease control in care sites which are inclusive, progressive and convergent with the needs of an aging population.

scholarly journals Analysing livestock network data for infectious disease control: an argument for routine data collection in emerging economies

2019 ◽  
Vol 374 (1776) ◽  
pp. 20180264 ◽  
Author(s):  
G. L. Chaters ◽  
P. C. D. Johnson ◽  
S. Cleaveland ◽  
J. Crispell ◽  
W. A. de Glanville ◽  
...  
Keyword(s):  
Infectious Disease ◽  
Disease Control ◽  
Disease Transmission ◽  
Disease Outbreaks ◽  
Routine Data ◽  
Contact Layer ◽  
Theme Issue ◽  
Targeted Interventions ◽  
Infectious Disease Outbreaks ◽  
And Control

Livestock movements are an important mechanism of infectious disease transmission. Where these are well recorded, network analysis tools have been used to successfully identify system properties, highlight vulnerabilities to transmission, and inform targeted surveillance and control. Here we highlight the main uses of network properties in understanding livestock disease epidemiology and discuss statistical approaches to infer network characteristics from biased or fragmented datasets. We use a ‘hurdle model’ approach that predicts (i) the probability of movement and (ii) the number of livestock moved to generate synthetic ‘complete’ networks of movements between administrative wards, exploiting routinely collected government movement permit data from northern Tanzania. We demonstrate that this model captures a significant amount of the observed variation. Combining the cattle movement network with a spatial between-ward contact layer, we create a multiplex, over which we simulated the spread of ‘fast’ ( R 0 = 3) and ‘slow’ ( R 0 = 1.5) pathogens, and assess the effects of random versus targeted disease control interventions (vaccination and movement ban). The targeted interventions substantially outperform those randomly implemented for both fast and slow pathogens. Our findings provide motivation to encourage routine collection and centralization of movement data to construct representative networks. This article is part of the theme issue ‘Modelling infectious disease outbreaks in humans, animals and plants: epidemic forecasting and control’. This theme issue is linked with the earlier issue ‘Modelling infectious disease outbreaks in humans, animals and plants: approaches and important themes’.

scholarly journals Qualitative Research: Institutional Preparedness During Threats of Infectious Disease Outbreaks

2020 ◽  
Vol 2020 ◽  
pp. 1-10 ◽  
Author(s):  
Doret de Rooij ◽  
Evelien Belfroid ◽  
Renske Eilers ◽  
Dorothee Roßkamp ◽  
Corien Swaan ◽  
...  
Keyword(s):  
Infectious Disease ◽  
Focus Group ◽  
Infectious Diseases ◽  
Group Discussion ◽  
Disease Outbreaks ◽  
Care Staff ◽  
Infectious Disease Outbreaks ◽  
High Resource ◽  
The World ◽  
Centralized Care

Background. As demonstrated during the global Ebola crisis of 2014–2016, healthcare institutions in high resource settings need support concerning preparedness during threats of infectious disease outbreaks. This study aimed to exploratively develop a standardized preparedness system to use during unfolding threats of severe infectious diseases. Methods. A qualitative three-step study among infectious disease prevention and control experts was performed. First, interviews (n=5) were conducted to identify which factors trigger preparedness activities during an unfolding threat. Second, these triggers informed the design of a phased preparedness system which was tested in a focus group discussion (n=11). Here preparedness activities per phase and per healthcare institution were identified. Third, the preparedness system was completed and verified in individual interviews (n=3). Interviews and the focus group were recorded, transcribed, and coded for emerging themes by two researchers independently. Data were analyzed using content analysis. Results. Four preparedness phases were identified: preparedness phase green is a situation without the presence of the infectious disease threat that requires centralized care, anywhere in the world. Phase yellow is an outbreak in the world with some likelihood of imported cases. Phase orange is a realistic chance of an unexpected case within the country, or unrest developing among population or staff; phase red is cases admitted to hospitals in the country, potentially causing a shortage of resources. Specific preparedness activities included infection prevention, diagnostics, patient care, staff, and communication. Consensus was reached on the need for the development of a preparedness system and national coordination during threats. Conclusions. In this study, we developed a standardized system to support institutional preparedness during an increasing threat. Use of this system by both curative healthcare institutions and the (municipal) public health service, could help to effectively communicate and align preparedness activities during future threats of severe infectious diseases.

scholarly journals Global mapping of infectious disease

2013 ◽  
Vol 368 (1614) ◽  
pp. 20120250 ◽  
Author(s):  
Simon I. Hay ◽  
Katherine E. Battle ◽  
David M. Pigott ◽  
David L. Smith ◽  
Catherine L. Moyes ◽  
...  
Keyword(s):  
Infectious Disease ◽  
Infectious Diseases ◽  
Disease Outbreaks ◽  
Data Sources ◽  
Global Burden ◽  
Rapid Improvement ◽  
Disease Evolution ◽  
Infectious Disease Outbreaks ◽  
Disease Occurrence ◽  
Global Mapping

The primary aim of this review was to evaluate the state of knowledge of the geographical distribution of all infectious diseases of clinical significance to humans. A systematic review was conducted to enumerate cartographic progress, with respect to the data available for mapping and the methods currently applied. The results helped define the minimum information requirements for mapping infectious disease occurrence, and a quantitative framework for assessing the mapping opportunities for all infectious diseases. This revealed that of 355 infectious diseases identified, 174 (49%) have a strong rationale for mapping and of these only 7 (4%) had been comprehensively mapped. A variety of ambitions, such as the quantification of the global burden of infectious disease, international biosurveillance, assessing the likelihood of infectious disease outbreaks and exploring the propensity for infectious disease evolution and emergence, are limited by these omissions. An overview of the factors hindering progress in disease cartography is provided. It is argued that rapid improvement in the landscape of infectious diseases mapping can be made by embracing non-conventional data sources, automation of geo-positioning and mapping procedures enabled by machine learning and information technology, respectively, in addition to harnessing labour of the volunteer ‘cognitive surplus’ through crowdsourcing.

scholarly journals Special Issue on Infectious Disease Control in SATREPS Projects

2018 ◽  
Vol 13 (4) ◽  
pp. 733-734
Author(s):  
Sumio Shinoda
Keyword(s):  
Infectious Disease ◽  
Developing Countries ◽  
Infectious Diseases ◽  
Disease Control ◽  
Science And Technology ◽  
The Philippines ◽  
Special Issue ◽  
Infectious Disease Control ◽  
Joint Research ◽  
International Joint

The Science and Technology Research Partnership for Sustainable Development (SATREPS) is a Japanese government program that promotes international joint research. The program is structured as a collaboration between the Japan Science and Technology Agency (JST) and the Japan International Cooperation Agency (JICA). The program includes various fields, such as Environment and Energy, Bioresources, Disaster Prevention and Mitigation, and Infectious Disease Control, and a total 52 projects were currently in progress as of May, 2018. It is expected that the promotion of international joint research under this program will enable Japanese research institutions to conduct research more effectively in fields and having targets that make it advantageous to do that research in developing countries, including countries in Latin America and the Caribbean, Asia, and Africa. Recently, SATREPS projects in the field of Infectious Disease have been but under the control of the Japan Agency for Medical Research and Development (AMED). Although adult maladies, such as malignant tumors, heart disease, and cerebral apoplexy, are major causes of death in the developed countries including Japan, infectious diseases are still responsible for the high mortality rates in developing countries. Therefore, Infectious Disease Control is the important field of SATREPS. Infectious Disease Control projects are progressing in several countries, including Kenya, Zambia, Bangladesh, the Philippines, and Brazil, and various infectious diseases and pathogens have been targeted. In this special issue on Infectious Disease Control, the following reports from three projects have been selected: “The JICA-AMED SATREPS Project to Control Outbreaks of Yellow Fever and Rift Valley Fever in Kenya” by Nagasaki University, “Comprehensive Etiological and Epidemiological Study on Acute Respiratory Infections in Children in the Philippines” by Tohoku University, and “International Joint Research on Antifungal Resistant Fungi in Brazil” by Chiba University. These projects include viral, bacterial, and fungal infections. If they become available, further supplementary reports from other projects in this field will be published in a future issue.

scholarly journals The Bibliometric Landscape of Infectious Disease Research in Panama (1990 - 2019): An Evaluation of the Country’s Capability on One Health

2020 ◽  
Author(s):  
Jose Loaiza ◽  
Robinson Zapata ◽  
Rao Kosagisharaf ◽  
Rolando A. Gittens ◽  
Enrique Mendoza ◽  
...  
Keyword(s):  
Infectious Disease ◽  
Infectious Diseases ◽  
One Health ◽  
Scientific Publications ◽  
Disease Research ◽  
Infectious Disease Research ◽  
Health Concept ◽  
Health Related ◽  
The One ◽  
The Impact

Abstract Background: This work aims to analyze the landscape of scientific publications on subjects related to One Health and infectious diseases in Panama. We asked the following specific questions: How does the One Health research landscape look like in Panama? Are historical research efforts aligned with the One Health concept? What infectious diseases have received more attention from the local scientific community since 1990?Methods: Boolean searches on the Web of Science, SCOPUS and PubMed were undertaken to evaluate the main trends of publications related to One Health and infectious disease research in the country of Panama, between 1990 and 2019. Results: 4,547 publications were identified since 1990, including 3,564 peer-reviewed articles interconnected with One Health related descriptors, and 211 articles focused particularly on infectious diseases. There was a pattern of exponential growth in the number of publications with various contributions from Panamanian institutions. The rates of multidisciplinary, inter-institutional and inter-sectoral research ranged from moderate to low, to very low, respectively. Research efforts have centered largely on protozoan, neglected and arthropod-borne diseases with a strong emphasis on malaria, Chagas and leishmaniasis. Conclusion: Panama has scientific capabilities on One Health to tackle future infectious disease threats, but the official collaboration schemes and strategic investment to develop further competencies need to be considered. Through future collaborative efforts, Panama can reduce the risk of pandemics by developing surveillance strategies to improve the prediction of disease spillover, spread and persistence while helping to mitigate the impact on public health and the economy, regionally.

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