Download Free Educating Health Professionals In Genomic Medicine Evidence Based Strategies And Approaches Book in PDF and EPUB Free Download. You can read online Educating Health Professionals In Genomic Medicine Evidence Based Strategies And Approaches and write the review.

This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact.
Genomic Medicine Skills and Competencies discusses core and practical aspects of genetic and genomic education and training for medical field. Many aspects of genomic applications in science, biotechnology, clinical medicine and healthcare require core and specialist knowledge, skills development and competencies for carrying out diverse tasks. Several knowledge-based courses and opportunities for skills and competencies development and assessment are now available and the main required subjects are discussed in this volume. The book focuses on all major aspects of genetic and genomic education training that are currently offered and evaluated and is a valuable resource for researchers, clinicians, physicians, nurses, genetic counselors, bioinformatics technicians, and other professionals who are interested in learning more about such promising field. Illustrates the need for acquiring and/or enhancing skills and competencies keeping up with the new advances and expanding scientific and technical knowledge in genome sciences as applied to the practice of clinical genomic and precision medicine Focuses on the professional and specific needs of medical and healthcare professionals practicing (or planning to practice) genomic medicine and health genomics Discusses the impact of effective genomic education and training for delivering the advances and new knowledge in the field of genome sciences and technologies that have spanned as a result of the COVID-19 pandemic in preparedness to what is next
Although it is becoming increasingly more common for clinicians to use genomic data in their practices for disease prevention, diagnosis, and treatment, the process of integrating genomic data into the practice of medicine has been a slow and challenging one. Some of the major barriers impeding the incorporation of new genomic technology into clinical practice are: the difficulty of changing routine medical practices to account for the use of genetic testing, the limited knowledge of patients and providers about genomic medicine, assessing sufficient evidence to support the use of genetic tests, privacy and data security issues, and uncertainty about reimbursement. The field of implementation science may be able to provide insights concerning efficient ways to incorporate genomic applications into routine clinical practice. The focus of implementation science studies is to identify integration bottlenecks and optimal approaches for a given setting and ultimately to promote the up-take of research findings. To explore the potential of implementation science to improve the integration of genomics into medicine, the National Academies of Sciences, Engineering, and Medicine held a workshop in Washington, DC, in November 2015. Participants explored the challenges and opportunities of integrating genomic advances into the clinic through the lens of implementation science. This report summarizes the presentations and discussions from the workshop.
The inclusion of genomic data in a knowledge-generating health care system infrastructure is one promising way to harness the full potential of that information to provide better patient care. In such a system, clinical practice and research influence each other with the goal of improving the efficiency and effectiveness of disease prevention, diagnosis, and treatment. To examine pragmatic approaches to incorporating genomics in learning health care systems, the Institute of Medicine Roundtable on Translating Genomic-Based Research for Health hosted a workshop which convened a variety of stakeholder groups, including commercial developers, health information technology professionals, clinical providers, academic researchers, patient groups, and government and health system representatives, to present their perspectives and participate in discussions on maximizing the value that can be obtained from genomic information. The workshop examined how a variety of systems are capturing and making use of genomic data to generate knowledge for advancing health care in the 21st century. It also sought to evaluate the challenges, opportunities, and best practices for capturing or using genomic information in knowledge-generating health care systems. Genomics-Enabled Learning Health Care Systems summarizes the presentations and discussion of the workshop.
"Describes and delineates the thirty eight essential genetic and genomic competencies that inform the practice of all nurses functioning at the graduate level in nursing, summarizes the key documents and processes used to identify these competencies, and identifies the members of the Steering, Advisory and Consensus Panel committees involved"--Provided by publisher.
Genomic medicine is defined as the routine use of genomic information about an individual as part of his or her clinical care as well as the health outcomes and policy implications of that clinical use. It is one approach that has the potential to improve the quality of health care by allowing practitioners to tailor prevention, diagnostic, and treatment strategies to individual patients. In recent years, research breakthroughs, technological advances, and the decreasing cost of DNA sequencing have led to the wider adoption of genomic medicine. However, as with the introduction of new technologies into health care, there are concerns that genetic and genomic testing and services will not reach all segments of the population both now and in the near future, and there remains a gap in knowledge regarding potential health care disparities in genomic medicine and precision health approaches. On June 27, 2018, the National Academies of Sciences, Engineering, and Medicine hosted a public workshop to examine the gaps in knowledge related to access to genomic medicine and to discuss health care disparities and possible approaches to overcoming the disparate use of genomic medicine among populations. Workshop participants discussed research on access to genetics and genomics services in medically underserved areas, model programs of care for diverse patient populations, and current challenges and possible best practices for alleviating health care disparities as they relate to genomics-based approaches. This publication summarizes the presentations and discussions from the workshop.
Medical and Health Genomics provides concise and evidence-based technical and practical information on the applied and translational aspects of genome sciences and the technologies related to non-clinical medicine and public health. Coverage is based on evolving paradigms of genomic medicine—in particular, the relation to public and population health genomics now being rapidly incorporated in health management and administration, with further implications for clinical population and disease management. Provides extensive coverage of the emergent field of health genomics and its huge relevance to healthcare management Presents user-friendly language accompanied by explanatory diagrams, figures, and many references for further study Covers the applied, but non-clinical, sciences across disease discovery, genetic analysis, genetic screening, and prevention and management Details the impact of clinical genomics across a diverse array of public and community health issues, and within a variety of global healthcare systems
Bioterrorism, drug-resistant disease, transmission of disease by global travel . . . there's no shortage of challenges facing America's public health officials. Men and women preparing to enter the field require state-of-the-art training to meet these increasing threats to the public health. But are the programs they rely on provide the high caliber professional training they require? Who Will Keep the Public Healthy? provides an overview of the past, present, and future of public health education, assessing its readiness to provide the training and education needed to prepare men and women to face 21st century challenges. Advocating an ecological approach to public health, the Institute of Medicine examines the role of public health schools and degree-granting programs, medical schools, nursing schools, and government agencies, as well as other institutions that foster public health education and leadership. Specific recommendations address the content of public health education, qualifications for faculty, availability of supervised practice, opportunities for cross-disciplinary research and education, cooperation with government agencies, and government funding for education. Eight areas of critical importance to public health education in the 21st century are examined in depth: informatics, genomics, communication, cultural competence, community-based participatory research, global health, policy and law, and public health ethics. The book also includes a discussion of the policy implications of its ecological framework.
New discoveries in genomics-that is, the study of the entire human genome-are changing how we diagnose and treat diseases. As the trend shifts from genetic testing largely being undertaken for rare genetic disorders to, increasingly, individuals being screened for common diseases, general practitioners, pediatricians, obstetricians/gynecologists, and other providers need to be knowledgeable about and comfortable using genetic information to improve their patients' health. To address these changes, the Roundtable on Translating Genomic-Based Research for Health held the public workshop "Innovations in Service Delivery in the Age of Genomics" on July 27, 2008.
Through a critical discussion of the issues surrounding the design, sharing and reuse of learning activities, the second edition of Rethinking Pedagogy for a Digital Age examines a wide range of perspectives on effectively designing and delivering learning activities to ensure that future development is pedagogically sound, learner-focused, and accessible. This powerful book: • examines the reality of design in practice • shares tools and resources to guide practice • analyses design within complex systems • discusses the influence of open resources on design • includes design principles for mobile learning • explores practitioner development in course teams • presents scenarios for design for learning in an uncertain future Illustrated by case studies from across disciplines and supported by a helpful appendix of tools and resources for researchers, practitioners and teachers, the second edition of Rethinking Pedagogy for a Digital Age is an essential guide to designing for 21st Century learning.