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Population genomics research drawing on genetic databases has expanded rapidly, with some of this information being combined in 'biobanks'. Managing this information in an appropriate way is a highly complex ethical issue in the health policy arena. This book combines theoretical and empirical research to analyze the areas of conflict and consensus in the regulatory and ethical frameworks that have been developed to govern biobanks. Ethicists from the Department of Ethics, Trade, Human Rights and Health Law (ETH) of the World Health Organization, the Institute of Biomedical Ethics of Geneva University and the Institute of Biomedical Ethics of the University of Zurich, with the support of the Geneva International Academic Network (GIAN), examine the conditions under which genetic databases can be established, kept, and made use of in an ethically acceptable way. In addition to a comprehensive review of the scientific literature and a comparative analysis of existing normative frameworks, they present the results of in-depth interviews with experts around the world concerning the most unresolved and controversial issues. The results of that study, combined with their normative analysis, leads to recommendations for a better international framework.
Biobank research and genomic information are changing the way we look at health and medicine. Genomics challenges our values and has always been controversial and difficult to regulate. In the future lies the promise of tailored medical treatments and pharmacogenomics but the borders between medical research and clinical practice are becoming blurred. We see sequencing platforms for research that can have diagnostic value for patients. Clinical applications and research have been kept separate, but the blurring lines challenges existing regulations and ethical frameworks. Then how do we regulate it? This book contains an overview of the existing regulatory landscape for biobank research in the Western world and some critical chapters to show how regulations and ethical frameworks are developed and work. How should international sharing work? How design an ethical informed consent? An underlying critique: the regulatory systems are becoming increasingly complex and opaque. The international community is building systems that should respond to that. According to the authors in fact, it is time to turn the ship around. Biobank researchers have a moral responsibility to look at and assess their work in relation to the bigger picture: the shared norms and values of current society. Research ethics shouldn’t only be a matter of bioethicists writing guidelines that professionals have to follow. Ethics should be practiced through discourse and regulatory frameworks need to be part of that public discourse. Ethics review should be then not merely application of bureaucracy and a burden for researchers but an arena where researchers discuss their projects, receive advice and practice their ethics skills.
Population genomics research drawing on genetic databases has expanded rapidly, with some of this information being combined in 'biobanks'. Managing this information in an appropriate way is a highly complex ethical issue in the health policy arena. This book combines theoretical and empirical research to analyze the areas of conflict and consensus in the regulatory and ethical frameworks that have been developed to govern biobanks. Ethicists from the Department of Ethics, Trade, Human Rights and Health Law (ETH) of the World Health Organization, the Institute of Biomedical Ethics of Geneva University and the Institute of Biomedical Ethics of the University of Zurich, with the support of the Geneva International Academic Network (GIAN), examine the conditions under which genetic databases can be established, kept, and made use of in an ethically acceptable way. In addition to a comprehensive review of the scientific literature and a comparative analysis of existing normative frameworks, they present the results of in-depth interviews with experts around the world concerning the most unresolved and controversial issues. The results of that study, combined with their normative analysis, leads to recommendations for a better international framework.
Biobanks are proliferating rapidly worldwide because they are powerful tools and organisational structures for undertaking medical research. By linking samples to data on the health of individuals, it is anticipated that biobanks will be used to explore the relationship between genes, environment and lifestyle for many diseases, as well as the potential of individually-tailored drug treatments based on genetic predisposition. However, they also raise considerable challenges for existing legal frameworks and research governance structures. This book critically examines the current governance structures in place for biobanks in England and Wales. It shows that the technologies, techniques and practices involved in biobanking do not always conform neatly to existing legal principles and frameworks that apply to other areas of medical research. Using a socio-legal approach, including interview data gathered from the scientific community, this book provides unique insights and makes recommendations about appropriate governance mechanisms for biobanking in the future. It also explores the issues around the secondary use of information, such as consent and how to protect privacy, when biobanks are accessed by a number of different third parties. These issues have relevance both within England and Wales and to a wide international audience, as well as for other areas where large datasets are used.
Part I Setting the scene -- Introduction: Individual rights, the public interest and biobank research 4000 (8) -- Genetic data and privacy protection -- Part II GDPR and European responses -- Biobank governance and the impact of the GDPR on the regulation of biobank research -- Controller' and processor's responsibilities in biobank research under GDPR -- Individual rights in biobank research under GDPR -- Safeguards and derogations relating to processing for archiving purposes in the scientific purposes: Article 89 analysis for biobank research -- A Pan-European analysis of Article 89 implementation and national biobank research regulations -- EEA, Switzerland analysis of GDPR requirements and national biobank research regulations -- Part III National insights in biobank regulatory frameworks -- Selected 10-15 countries for reports: Germany -- Greece -- France -- Finland -- Sweden -- United Kingdom -- Part IV Conclusions -- Reflections on individual rights, the public interest and biobank research, ramifications and ways forward. .
#1 NEW YORK TIMES BESTSELLER • “The story of modern medicine and bioethics—and, indeed, race relations—is refracted beautifully, and movingly.”—Entertainment Weekly NOW A MAJOR MOTION PICTURE FROM HBO® STARRING OPRAH WINFREY AND ROSE BYRNE • ONE OF THE “MOST INFLUENTIAL” (CNN), “DEFINING” (LITHUB), AND “BEST” (THE PHILADELPHIA INQUIRER) BOOKS OF THE DECADE • ONE OF ESSENCE’S 50 MOST IMPACTFUL BLACK BOOKS OF THE PAST 50 YEARS • WINNER OF THE CHICAGO TRIBUNE HEARTLAND PRIZE FOR NONFICTION NAMED ONE OF THE BEST BOOKS OF THE YEAR BY The New York Times Book Review • Entertainment Weekly • O: The Oprah Magazine • NPR • Financial Times • New York • Independent (U.K.) • Times (U.K.) • Publishers Weekly • Library Journal • Kirkus Reviews • Booklist • Globe and Mail Her name was Henrietta Lacks, but scientists know her as HeLa. She was a poor Southern tobacco farmer who worked the same land as her slave ancestors, yet her cells—taken without her knowledge—became one of the most important tools in medicine: The first “immortal” human cells grown in culture, which are still alive today, though she has been dead for more than sixty years. HeLa cells were vital for developing the polio vaccine; uncovered secrets of cancer, viruses, and the atom bomb’s effects; helped lead to important advances like in vitro fertilization, cloning, and gene mapping; and have been bought and sold by the billions. Yet Henrietta Lacks remains virtually unknown, buried in an unmarked grave. Henrietta’s family did not learn of her “immortality” until more than twenty years after her death, when scientists investigating HeLa began using her husband and children in research without informed consent. And though the cells had launched a multimillion-dollar industry that sells human biological materials, her family never saw any of the profits. As Rebecca Skloot so brilliantly shows, the story of the Lacks family—past and present—is inextricably connected to the dark history of experimentation on African Americans, the birth of bioethics, and the legal battles over whether we control the stuff we are made of. Over the decade it took to uncover this story, Rebecca became enmeshed in the lives of the Lacks family—especially Henrietta’s daughter Deborah. Deborah was consumed with questions: Had scientists cloned her mother? Had they killed her to harvest her cells? And if her mother was so important to medicine, why couldn’t her children afford health insurance? Intimate in feeling, astonishing in scope, and impossible to put down, The Immortal Life of Henrietta Lacks captures the beauty and drama of scientific discovery, as well as its human consequences.
Over the past 25 years, biobanks of human specimens have become a cornerstone for research on human health and have empowered the “omics “revolution that characterizes biomedical science in the XXIst Century. Today, biobanking of human specimens is a critical component of the interface between clinical practice and translational research, supporting the discovery and validation of new biomarkers of disease etiology, risk, early detection, diagnosis, prognosis, prediction and relapse. With the development of personalized medicine, biobanking of cryopreserved specimens has become standard practice in order to investigate genetic, transcriptomic, proteomic, metabolomics and immunological biomarkers useful to inform caregivers for therapeutic decisions. Data generated from biobanked specimens represent a rapidly growing and highly valuable resource, participating in the emergence of Big Data Medicine. With the development of large computing capabilities and artificial intelligence, data associated with biobanked specimens constitute a unique resource for the discovery and validation of new biomarkers and therapeutically actionable targets. Interconnecting, interoperating and sharing this data have become major issues for national health systems, raising enormous stakes as well as major societal, legal and cybersecurity challenges in terms of compliance with the protection of personal sensitive information. This book project is the second part of an initiative launched in 2012 to produce a published corpus of knowledge encompassing all aspects of human biobanking as a central practice for research and medicine. The first volume, published in 2017, is entitled: Human Biobanking: Principles and Practice. This first volume compiled a series of high level contributions overseeing the main developments that carried the progression of human biobanking as a research and biotechnological field over the past two decades. This new book project will constitute de facto Volume 2 of the same initiative, under the title: Biobanking of Human Biospecimens: lessons from 25 years of biobanking experience. Hence, the two volumes will share the same generic title (Biobanking of Human Biospecimens), with different subtitles, making clear that the two volumes are interrelated while highlighting their specificities in terms of what they actually cover. As a result, the two books are “twins” but can also be used independently of each other. The overarching aim of the two volumes of Biobanking of Human Biospecimens is to provide a published “one-stop shop” for state-of-the-art information on what constitutes the field of human biobanking, from conception of a biobank, standard operating procedures, ethical and societal aspects, governance, networking, interoperability and economic sustainability. This inclusive publication concept meets the needs of a vast readership, including scientists, doctors and technical staffs who are directly involved in biobanking operations, scientists in other disciplines that heavily rely on biobanking (such as genomics or proteomics), stakeholders and policy makers, and of course students for whom biobanking is becoming an important part of the training curriculum. So far, there has been a lack of major textbooks on biobanking. Documentation for biobanking is widely available through numerous publications, regulatory documents published by International or Governmental Agencies, and sets of recommendations essentially accessible through the Internet. However, it is difficult to access a single, top-of-the shelf reference that provides at a glance a large coverage of all aspects of human biobanking. Fulfilling this need is the main origin of the concept for this back-to-back publication project. To our knowledge, there is currently no other publication project with the same breath and scope as this one in the field of biobanking.
Biobanking, i.e. storage of biological samples or data emerging from such samples for diagnostic, therapeutic or research purposes, has been going on for decades. However, it is only since the mid 1990s that these activities have become the subject of considerable public attention, concern and debate. This shift in climate is due to several factors. The purpose of this book is to investigate some of the ethical, legal and social challenges raised by research biobanking in its different modern forms and formats. The issues raised by research biobanking in its modern form can be divided into four main clusters: how biological materials are entered into the bank; research biobanks as institutions; under what conditions researchers can access materials in the bank, and problems concerning ownership of biological materials and of intellectual property arising from such materials; and how the information is collected and stored, e.g. access-rights, disclosure, confidentiality, data security and data protection.
With interdisciplinary chapters written by lawyers, sociologists, doctors and biobank practitioners, Global Genes, Local Concerns identifies and discusses the most pressing issues in contemporary biobanking. Addressing pressing questions such as how do national biobanks best contribute to translational research and how could academic and industrial exploitation, ownership and IPR issues be addressed and facilitated, this book contributes to the continued development of international biobanking by highlighting and analysing the complexities in this important area of research.
This volume is the first comprehensive text on human biobanking, authored by scientists and regulatory officers who have led the field over the past 10 years. It covers biobanking issues and its importance in advancing the field of research in cancer, cardiovascular, metabolic, and other diseases. Biobanks of human specimens have become the cornerstone for research on human health that harnesses the power of “omics” technologies to identify biomarkers for disease susceptibility. Biobanks are an essential component of the development of personalized medicine, which relies on the molecular analysis of biospecimens that are truly representative of individuals and of diseases. Over the past decade, biobanking has been the focus of major investments and developments aimed at developing appropriate infrastructure, methods, networking practice and evidence-based pre-analytical procedures. This volume explores topics including specimen storage, protocol design, specimen collection, pre-analytical processing and preservation, long-term storage, retrieval and separation, and distribution to analytical laboratory platforms. These activities are extremely complex and are essential for biomedical and biotechnological developments and this text provides critical information about biobanking for the development of future forms of medicine.​