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Physical sciences --- Power (Mechanics) --- Engineering --- Chemistry --- Materials Science --- Natural Science Disciplines --- Physics
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Physical sciences --- Natural Science Disciplines. --- Biotechnology. --- Research --- Research. --- Biotechnologies --- Natural Sciences --- Physical Sciences --- Discipline, Natural Science --- Disciplines, Natural Science --- Natural Science --- Natural Science Discipline --- Physical Science --- Science, Natural --- Science, Physical --- Sciences, Natural --- Sciences, Physical --- Science --- Natural Science Disciplines --- Biotechnology
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Natural Science Disciplines --- Natural Sciences --- Physical Sciences --- Discipline, Natural Science --- Disciplines, Natural Science --- Natural Science --- Natural Science Discipline --- Physical Science --- Science, Natural --- Science, Physical --- Sciences, Natural --- Sciences, Physical --- Natural Science Disciplines. --- earth sciences --- life sciences --- physical sciences --- Nanotechnology --- Science
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Science. --- Natural history. --- Mathematics. --- Natural Science Disciplines. --- 30.00 exact sciences: general. --- Exacte wetenschappen. --- Science --- Scandinavian literature --- Denmark
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Natural history --- Sciences naturelles --- Mathématiques --- Mathematics --- Natural Science Disciplines --- Periodicals. --- Périodiques --- Mathématiques. --- Adult education. Lifelong learning
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"The process for translating basic science discoveries into clinical applications has historically involved a linear and lengthy progression from initial discovery to preclinical testing, regulatory evaluation and approval, and, finally, use in clinical practice. The low rate of translation from basic science to clinical application has been a source of frustration for many scientists, clinicians, investors, policy makers, and patients who hoped that investments in research would result in improved products and processes for patients. Some feel that the anticipated deliverables from the Human Genome Project have not yet materialized, and although understanding of human health and disease biology has increased, there has not been a concomitant increase in the number of approved drugs for patients over the past 10 years. Improving the Efficiency and Effectiveness of Genomic Science Translation is the summary of a workshop convened by the Institute of Medicine Roundtable on Translating Genomic-Based Research for Health in December 2012 to explore ways to improve the efficiency and effectiveness of the translation of genomic science to clinical practice. The workshop convened academic researchers, industry representatives, policy makers, and patient advocates to explore obstacles to the translation of research findings to clinical practice and to identify opportunities to support improvement of the early stages of the process for translation of genetic discoveries. This report discusses the realignment of academic incentives, the detection of innovative ways to fund translational research, and the generation or identification of alternative models that accurately reflect human biology or disease to provide opportunities to work across sectors to advance the translation of genomic discoveries" --
Medical care --- Genomics --- Genetics --- Computational Biology --- Biology --- Biological Science Disciplines --- Natural Science Disciplines --- Disciplines and Occupations --- Health & Biological Sciences --- Research
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How do we know whether a particular treatment really works? How reliable is the evidence? And how do we ensure that research into medical treatments best meets the needs of patients? These are just a few of the questions addressed in a lively and informative way in Testing Treatments. Brimming with vivid examples, Testing Treatments will inspire both patients and professionals. Building on the success of the first edition, Testing Treatments has now been extensively revised and updated. The second edition includes a thought-provoking chapter on screening, explaining why early diagnosis is no
Science --- Medicine --- Natural Science Disciplines --- Health Occupations --- Disciplines and Occupations --- Clinical Medicine --- Research --- Health & Biological Sciences --- Medical Research
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Natural Science Disciplines --- Computing Methodologies --- Diagnostic Techniques and Procedures --- Diagnosis --- Information Science --- Occupations --- Mathematics --- Image Processing, Computer-Assisted --- Diagnostic Imaging
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Biomedical Engineering --- Electronics, Medical --- Health Occupations --- Engineering --- Electronics --- Technology, Industry, and Agriculture --- Occupations --- Physics --- Natural Science Disciplines
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Diagnostic Techniques and Procedures --- Computing Methodologies --- Natural Science Disciplines --- Information Science --- Occupations --- Diagnosis --- Image Processing, Computer-Assisted --- Mathematics --- Diagnostic Imaging