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The worldwide cancer burden will double over the next two decades, with the number of new cancer diagnoses increasing in all regions of the world. However, it is estimated that around 40% of all cancers are preventable through the appropriate application of existing epidemiological and public health knowledge, and with further research this proportion will increase considerably. This edited volume explores the role of place in cancer prevention and how geospatial tools can be used to support this globally important goal. Its chapters detail many aspects of the application of geospatial science to cancer control, including quantifying exposure to environmental carcinogens, access to screening services, the importance of partnership building, and more through a variety of geographically diverse case studies. The book also offers background on geospatial modeling tools and methods for adding spatial analysis to cancer surveillance systems. The book is rooted firmly in the notion that geography significantly influences the accumulation of cancer risks (at the individual and community level) that are modifiable through policy, regulatory, and behavioral changes. The landscape of cancer prevention is vast, encompassing the building blocks of population and public health—i.e., epidemiology and causation—through risk factor modifications, behavior and policy change, to the interface of the cellular with society, including epigenetic modifications and gene/environment interactions, cancer genomics and precision medicine/health. It is clear that geography (space, place, setting, context) is central to all these activities. Geospatial methods and data support risk factor identification, can elucidate the interaction between individual behavioral, demographic, and genetic factors with community level contextual factors, and can be used to prioritize interventions more accurately towards at-risk people and at-risk population groups. Geography is also central to the organization of health services and hence, by definition, is fundamental to the organization of preventative services. More broadly, adopting a geographical approach can help move cancer prevention beyond a narrow medical definition of health, to tackle the upstream and structural determinants of cancer.
Cancer occurs in specific places and spaces, each of which have identifiable geographic coordinates, characterized by unique natural, built and social characteristics, all of which contribute significantly to cancer across the spectrum from etiology through diagnosis, treatment and outcomes. In the first volume of this series, published in 2010, a single chapter was focused on these geographic influences. Since then, the field of geospatial studies of cancer prevention and control has exploded in approaches and applications. Accordingly, this volume focuses on what has now become a very specific research endeavor, Geospatial Factors Impacting Breast Cancer. The book provides important insights into this relatively new and rapidly developing field. It should be of value to all students of the Energy Balance & Cancer Series and a wide-ranging introduction to problems in cancer prevention and control for geographers, demographers and other researchers with a geospatial perspective. Moreover, it provides important information for all oncologists, endocrinologists, and behavioral modification professionals to better understand their patients in the context of their environment. It should also provide important considerations for physicians, scientists, public health professionals and disparity investigator planning clinical trials, community interventions and community planning.
Cancer is a relentless adversary that has impacted the lives of countless individuals and families around the world. The quest to understand, treat, and ultimately conquer this complex group of diseases has been a defining challenge in the field of medicine and science. In this ongoing battle, the fusion of cutting-edge technology and scientific innovation has emerged as a beacon of hope. "Mapping the Battle: GIS in Oncology" is a testament to the transformative power of Geographic Information Systems (GIS) and geospatial technology in the realm of cancer sciences. In the pages that follow, we embark on a journey that explores the intersection of geography, technology, and medical research. We delve into a realm where satellites and remote sensing systems, originally designed to observe our planet's landscapes from high above, are now lending their eyes to peer deep into the molecular intricacies of cancer. This book aims to shed light on the myriad ways in which GIS technology contributes to our understanding of oncology. It is a tribute to the pioneers and the countless scientists who have dedicated their careers to this interdisciplinary pursuit. Their collective efforts have sparked a revolution in cancer research that promises to accelerate the pace of discovery and improve patient outcomes. The use of geographic information technology in oncology is a fascinating, evolving frontier, offering novel insights into the spatial aspects of cancer. We will explore the ways in which GIS can identify geographical clusters of cancer cases, uncover environmental risk factors, and facilitate the allocation of medical resources to the areas that need them most. This technology enables us to navigate the intricate terrain of cancer, providing us with invaluable tools to combat this disease with precision and efficiency. As you delve into the chapters of this book, you will embark on a journey of discovery, one that uncovers the hidden patterns and correlations between geographic factors and cancer incidence. You will learn how GIS can aid in the early detection of cancer, guide treatment decisions, and enhance our understanding of the genetic and environmental factors that contribute to its development. Furthermore, we will examine the role of satellites and remote sensing in monitoring environmental factors, such as air and water quality, that can influence cancer risk. "Mapping the Battle" is a testament to the indomitable human spirit that refuses to yield to the challenges posed by cancer. It is a tribute to the fusion of technology and science that propels us closer to a future where the battle against cancer is waged with greater precision and insight. Through these pages, we invite you to join us on this journey of exploration and innovation, where geography meets oncology to map the path towards a world free from the burden of cancer.
Throughout history, perhaps no other disease has generated the level of social, scientific, and political discourse or has had the degree of cultural significance as cancer. A collective in the truest sense of the word, "cancer" is a clustering of different diseases that afflict individuals in different ways. Its burdens are equally broad and diverse, from the physical, financial, and psychological tolls it imposes on individuals to the costs it inflicts upon the nation's clinical care and public health systems, and despite decades of concerted efforts often referred to as the "war on cancer", those costs have only continued to grow over time. The causes and effects of cancer are complexâ€"in part preventable and treatable, but also in part unknown, and perhaps even unknowable. Guiding Cancer Control defines the key principles, attributes, methods, and tools needed to achieve the goal of implementing an effective national cancer control plan. This report describes the current structure of cancer control from a local to global scale, identifies necessary goals for the system, and formulates the path towards integrated disease control systems and a cancer-free future. This framework is a crucial step in establishing an effective, efficient, and accountable system for controlling cancer and other diseases.
Following in the tradition of its popular predecessor, the Manual of Geospatial Science and Technology, Second Edition continues to be the authoritative volume that covers all aspects of the field, both basic and applied, and includes a focus on initiating, planning, and managing GIS projects. This comprehensive resource, which contains contributio
Data science has recently gained much attention for a number of reasons, and among them is Big Data. Scientists (from almost all disciplines including physics, chemistry, biology, sociology, among others) and engineers (from all fields including civil, environmental, chemical, mechanical, among others) are faced with challenges posed by data volume, variety, and velocity, or Big Data. This book is designed to highlight the unique characteristics of geospatial data, demonstrate the need to different approaches and techniques for obtaining new knowledge from raw geospatial data, and present select state-of-the-art geospatial data science techniques and how they are applied to various geoscience problems.
"Geospatial Information" is spatial data concerning a place or, in space, collected in real time. Geospatial techniques together with remote sensing, geographic information science, Global Positioning System (GPS), cartography, geovisualization, and spatial statistics are being used to capture, store, manipulate and analyze to understand complex situations to solve mysteries of the universe. These techniques have been applied in various fields such as meteorology, forestry, environmental management, agriculture, health, homeland security etc. around the globe. This volume presents case studies and examples from various parts of the world and provides a broad overview of various approaches; data sets; data acquiring, monitoring and dissemination methods; satellites and sensors; tools and techniques used; integrating tools, techniques and application to various fields for the sustainable management of environmental resources in the context of global environmental change and natural hazards. The objective of this book is to provide state-of-the-art information to academics, researchers and industry practitioners who are involved or interested in the study, use, design and development of advanced and emerging geospatial technologies around the world with ultimate aim to empower individuals and organizations in building competencies for exploiting the opportunities of the knowledge society. All the chapters are peer-reviewes and evaluated and are an inter- and multi-disciplinary source of information, making an effort to link various geospatial techniques to make the earth an habitable place. The contributors have tried to focus their respective views on the current problems that need urgent attention. Consequently, we see this book as a comprehensive information base, which includes work of expertise in their specific fields of research.
The impacts of climate change are beginning to be felt throughout the world, yet there is no clear explanation as to how these changes will alter our future. The research being conducted within the geospatial science field is pivotal to understanding the effects the global environment is experiencing. The Handbook of Research on Geospatial Science and Technologies is an essential scholarly reference source that evaluates the current methodologies and trends in geospatial science, and how these insights provide society with more efficient and effective ways to manage natural resources. Featuring discussions on relevant topics such as cartography, geographical information systems, remotely sensed data, and sustainability management, this publication is an informative resource for all academicians, students, scientists, and researchers that are interested in emerging developments within geospatial science.
In the past, disease pattern mapping depended on census tracts based on political units, such as states and counties. However, with the advent of geographic information systems (GIS), researchers can now achieve a new level of precision and flexibility in geographic locating. This emerging technology allows the mapping of many different kinds of ge