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The Framework for a Public Health Emergency Operations Centre (PHEOC framework) document is intended to be used by practitioners of public health; health policy makers; and authorities and agencies responsible for managing emergencies, incidents, or events where the health of populations is at risk. This document provides high-level methodical guidance for designing, developing, and strengthening of public health emergency operations centers. This interim document outlines the key concepts and essential requirements for developing and managing a public health EOC (PHEOC). The overall approach is generic and based on widely acknowledged elements of all-hazards emergency management. It provides an outline for developing and managing a PHEOC to achieve a goal-oriented response to public health emergencies and unity of effort among response agencies. The document will be revised as necessary. Practical guidance on specific aspects of the PHEOC framework will be developed and published separately. A public health emergency is here defined as an occurrence, or imminent threat, of an illness or health condition that poses a substantial risk of a significant number of human fatalities, injuries or permanent or long-term disability. Public health emergencies can result from a wide range of hazards and complex emergencies. Experience has shown that timely implementation of an EOC provides an essential platform for the effective management of public health emergencies. Public health emergencies involve increased incidence of illness, injury and/or death and require special measures to address increased morbidity, mortality and interruption of essential health services. For such emergencies, a multi-agency, multi-jurisdictional response is often required, working with the national disaster management organization. When normal resources and capacities are exceeded, support from outside the affected areas will also be required. External assistance could include national, cross-border, regional or international resources.
This book introduces the methods for predicting the future behavior of a system’s health and the remaining useful life to determine an appropriate maintenance schedule. The authors introduce the history, industrial applications, algorithms, and benefits and challenges of PHM (Prognostics and Health Management) to help readers understand this highly interdisciplinary engineering approach that incorporates sensing technologies, physics of failure, machine learning, modern statistics, and reliability engineering. It is ideal for beginners because it introduces various prognostics algorithms and explains their attributes, pros and cons in terms of model definition, model parameter estimation, and ability to handle noise and bias in data, allowing readers to select the appropriate methods for their fields of application.Among the many topics discussed in-depth are:• Prognostics tutorials using least-squares• Bayesian inference and parameter estimation• Physics-based prognostics algorithms including nonlinear least squares, Bayesian method, and particle filter• Data-driven prognostics algorithms including Gaussian process regression and neural network• Comparison of different prognostics algorithms divThe authors also present several applications of prognostics in practical engineering systems, including wear in a revolute joint, fatigue crack growth in a panel, prognostics using accelerated life test data, fatigue damage in bearings, and more. Prognostics tutorials with a Matlab code using simple examples are provided, along with a companion website that presents Matlab programs for different algorithms as well as measurement data. Each chapter contains a comprehensive set of exercise problems, some of which require Matlab programs, making this an ideal book for graduate students in mechanical, civil, aerospace, electrical, and industrial engineering and engineering mechanics, as well as researchers and maintenance engineers in the above fields.
The Infectious Disease Vulnerability Index is intended to inform actions for preparedness and response to infectious disease outbreaks and foster greater resiliency of national health systems worldwide.
"The ongoing COVID-19 pandemic marks the most significant, singular global disruption since World War II, with health, economic, political, and security implications that will ripple for years to come." -Global Trends 2040 (2021) Global Trends 2040-A More Contested World (2021), released by the US National Intelligence Council, is the latest report in its series of reports starting in 1997 about megatrends and the world's future. This report, strongly influenced by the COVID-19 pandemic, paints a bleak picture of the future and describes a contested, fragmented and turbulent world. It specifically discusses the four main trends that will shape tomorrow's world: - Demographics-by 2040, 1.4 billion people will be added mostly in Africa and South Asia. - Economics-increased government debt and concentrated economic power will escalate problems for the poor and middleclass. - Climate-a hotter world will increase water, food, and health insecurity. - Technology-the emergence of new technologies could both solve and cause problems for human life. Students of trends, policymakers, entrepreneurs, academics, journalists and anyone eager for a glimpse into the next decades, will find this report, with colored graphs, essential reading.
In the United States, some populations suffer from far greater disparities in health than others. Those disparities are caused not only by fundamental differences in health status across segments of the population, but also because of inequities in factors that impact health status, so-called determinants of health. Only part of an individual's health status depends on his or her behavior and choice; community-wide problems like poverty, unemployment, poor education, inadequate housing, poor public transportation, interpersonal violence, and decaying neighborhoods also contribute to health inequities, as well as the historic and ongoing interplay of structures, policies, and norms that shape lives. When these factors are not optimal in a community, it does not mean they are intractable: such inequities can be mitigated by social policies that can shape health in powerful ways. Communities in Action: Pathways to Health Equity seeks to delineate the causes of and the solutions to health inequities in the United States. This report focuses on what communities can do to promote health equity, what actions are needed by the many and varied stakeholders that are part of communities or support them, as well as the root causes and structural barriers that need to be overcome.
Lifestyle and Epidemiology - The Double Burden of Poverty and Cardiovascular Diseases in African Populations examines the profile of non-communicable diseases (NCDs) in the rural South African population. The burden of diseases in South Africa is characterized by a combination of poverty-related diseases with emerging NCDs associated with urbanization, industrialization, and a Westernised lifestyle. Chapters in this book examine the effects of poverty, COVID-19, and other social factors on the prevalence of cardiovascular disease, reproductive health, and diabetes in rural South Africa.
Tackling the realities of the antimicrobial resistance (AMR) situation today is no longer uncommon. Many battles have been fought in the past since the discovery of antibiotics between man and microbes. In the tussle of new antibiotic modifications, the transmission of resistant genes, both vertically and horizontally unveils yet another resistant attribute for the microbe, for it only to be faced with a more powerful, wide spectrum antibiotic; the cycle continues-and the winner is yet to be known. This book aims to provide some insight into various molecular mechanisms, agricultural mitigation methods, and the One Health applications to maybe, just maybe, tip the scales towards us.
Thirty-six interdisciplinary essays analyze the mutual relationship between historical epidemics and the built environment. Epidemic illnesses--not only a product of biology, but also social and cultural phenomena--are as old as cities themselves. The outbreak of COVID-19 in late 2019 brought the effects of epidemic illness on urban life into sharp focus, exposing the vulnerabilities of the societies it ravages as much as the bodies it infects. How might insights from the outbreak and responses to previous urban epidemics inform our understanding of the current world? With these questions in mind, Epidemic Urbanism gathers scholarship from a range of disciplines--including history, public health, sociology, anthropology, and medicine--to present historical case studies from across the globe, each demonstrating how cities are not just the primary place of exposure and quarantine, but also the site and instrument of intervention. They also demonstrate how epidemic illnesses, and responses to them, exploit and amplify social inequality in the communities they touch. Illustrated with more than 150 historical images, the essays illuminate the profound, complex ways epidemics have shaped the world around us and convey this information in a way that meaningfully engages a public readership.
When working with countries to measure and compare health systems functioning, it is important to strike a good balance between avoiding blueprints that do not allow for country contexts and specificities while also encouraging a degree of standardization that enables comparisons within and between countries as well as over time. Standardized indicators allow comparisons between countries and can help mutual learning, including the identification of bottlenecks and the sharing of lessons learned. This handbook does not attempt to cover all components of the health system or deal with the various monitoring and evaluation frameworks. Instead, it is structured around the WHO framework that describes health systems in terms of six core components or "building blocks": service delivery, health workforce, health information systems, medical products, vaccines and technologies, financing and leadership/governance. The selection of indicators was guided by the need to detect change and show progress in health systems strengthening. Indicators relate to both the level and distribution of inputs and outputs. While the focus is on low- and middle-income countries, experiences from high-income countries are also used to guide the development of measurement systems. Each section has proposed core indicators that all countries are encouraged to collect, plus a wider set of indicators that users can choose or modify as needed. It is anticipated that the core indicators will enable the production of country "dashboards" that contain the instruments by which health systems trends can be regularly monitored and compared. Countries should integrate new indicators with existing indicators of their health sector and statistical strategies and plans. Health systems monitoring should also be seen in the context of the indicators' impact on access to priority health services and their contribution to reaching the Millennium Development Goals (MDGs). The handbook is divided into six sections, each of which covers one health system component or building block and is set out along the following lines: -introduction to the component and related indicators; -description of possible sources of information and available measurement strategies; -proposed "core indicators", supplemented, where necessary, by additional indicators that may be used depending on the country health system attributes and needs.