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| biomedical science research topics: Reporting and Publishing Research in the Biomedical Sciences Peush Sahni, Rakesh Aggarwal, 2018-08-21 This book eases the task of converting research work into a manuscript, and covers the recent developments in publishing that often stump budding researchers. Few researchers in the biomedical sciences are trained in the essential skills of reporting their results, and they seek help in writing a paper that will be acceptable for publication in the ‘right’ journal, and in presenting their results ‘effectively’ at a meeting. As well as covering the basic aspects of preparing manuscripts for publication, the book discusses best practices and issues relating to the publication of biomedical research, including topics such as peer-review, authorship, plagiarism, conflicts of interest, publication misconduct, electronic publishing and open-access journals. With more than two decades of experience in conducting workshops on writing scientific papers, the editors have brought together the expertise of 29 authors from seven countries to produce this one-stop guide to publishing research in biomedical sciences. This book is intended for young researchers who are beginning their careers and wish to hone their skills and understand the rigors of research writing and publishing. |
| biomedical science research topics: Large-Scale Biomedical Science National Research Council, Division on Earth and Life Studies, Institute of Medicine, National Cancer Policy Board, Committee on Large-Scale Science and Cancer Research, 2003-07-19 The nature of biomedical research has been evolving in recent years. Technological advances that make it easier to study the vast complexity of biological systems have led to the initiation of projects with a larger scale and scope. In many cases, these large-scale analyses may be the most efficient and effective way to extract functional information from complex biological systems. Large-Scale Biomedical Science: Exploring Strategies for Research looks at the role of these new large-scale projects in the biomedical sciences. Though written by the National Academies' Cancer Policy Board, this book addresses implications of large-scale science extending far beyond cancer research. It also identifies obstacles to the implementation of these projects, and makes recommendations to improve the process. The ultimate goal of biomedical research is to advance knowledge and provide useful innovations to society. Determining the best and most efficient method for accomplishing that goal, however, is a continuing and evolving challenge. The recommendations presented in Large-Scale Biomedical Science are intended to facilitate a more open, inclusive, and accountable approach to large-scale biomedical research, which in turn will maximize progress in understanding and controlling human disease. |
| biomedical science research topics: Advancing the Nation's Health Needs National Research Council, Policy and Global Affairs, Board on Higher Education and Workforce, Committee for Monitoring the Nation's Changing Needs for Biomedical, Behavioral, and Clinical Personnel, 2005-08-13 This report is the twelfth assessment of the National Institutes of Health National Research Service Awards program. The research training needs of the country in basic biomedical, clinical, and behavioral and social sciences are considered. Also included are the training needs of oral health, nursing, and health services research. The report has been broadly constructed to take into account the rapidly evolving national and international health care needs. The past and present are analyzed, and predictions with regard to future needs are presented. |
| biomedical science research topics: A Practical Guide to Biomedical Research Peter Agger, Robert S. Stephenson, J. Michael Hasenkam, 2017-10-27 This book advises and supports novice researchers in taking their first steps into the world of scientific research. Through practical tips and tricks presented in a clear, concise and step-wise manner, the book describes the entire research process from idea to publication. It also gives the reader insight into the vast opportunities a research career can provide. The books target demographic is aspiring researchers within the biomedical professions, be it medical students, young doctors, nurses, engineers, physiotherapists etc. The book will help aspirational inexperienced researchers turn their intentions into actions, providing crucial guidance for successful entry into the field of biomedical research. |
| biomedical science research topics: Complex Systems Science in Biomedicine Thomas Deisboeck, J. Yasha Kresh, 2007-06-13 Complex Systems Science in Biomedicine Thomas S. Deisboeck and J. Yasha Kresh Complex Systems Science in Biomedicine covers the emerging field of systems science involving the application of physics, mathematics, engineering and computational methods and techniques to the study of biomedicine including nonlinear dynamics at the molecular, cellular, multi-cellular tissue, and organismic level. With all chapters helmed by leading scientists in the field, Complex Systems Science in Biomedicine's goal is to offer its audience a timely compendium of the ongoing research directed to the understanding of biological processes as whole systems instead of as isolated component parts. In Parts I & II, Complex Systems Science in Biomedicine provides a general systems thinking perspective and presents some of the fundamental theoretical underpinnings of this rapidly emerging field. Part III then follows with a multi-scaled approach, spanning from the molecular to macroscopic level, exemplified by studying such diverse areas as molecular networks and developmental processes, the immune and nervous systems, the heart, cancer and multi-organ failure. The volume concludes with Part IV that addresses methods and techniques driven in design and development by this new understanding of biomedical science. Key Topics Include: • Historic Perspectives of General Systems Thinking • Fundamental Methods and Techniques for Studying Complex Dynamical Systems • Applications from Molecular Networks to Disease Processes • Enabling Technologies for Exploration of Systems in the Life Sciences Complex Systems Science in Biomedicine is essential reading for experimental, theoretical, and interdisciplinary scientists working in the biomedical research field interested in a comprehensive overview of this rapidly emerging field. About the Editors: Thomas S. Deisboeck is currently Assistant Professor of Radiology at Massachusetts General Hospital and Harvard Medical School in Boston. An expert in interdisciplinary cancer modeling, Dr. Deisboeck is Director of the Complex Biosystems Modeling Laboratory which is part of the Harvard-MIT Martinos Center for Biomedical Imaging. J. Yasha Kresh is currently Professor of Cardiothoracic Surgery and Research Director, Professor of Medicine and Director of Cardiovascular Biophysics at the Drexel University College of Medicine. An expert in dynamical systems, he holds appointments in the School of Biomedical Engineering and Health Systems, Dept. of Mechanical Engineering and Molecular Pathobiology Program. Prof. Kresh is Fellow of the American College of Cardiology, American Heart Association, Biomedical Engineering Society, American Institute for Medical and Biological Engineering. |
| biomedical science research topics: Statistical Modeling in Biomedical Research Yichuan Zhao, Ding-Geng (Din) Chen, 2020-03-19 This edited collection discusses the emerging topics in statistical modeling for biomedical research. Leading experts in the frontiers of biostatistics and biomedical research discuss the statistical procedures, useful methods, and their novel applications in biostatistics research. Interdisciplinary in scope, the volume as a whole reflects the latest advances in statistical modeling in biomedical research, identifies impactful new directions, and seeks to drive the field forward. It also fosters the interaction of scholars in the arena, offering great opportunities to stimulate further collaborations. This book will appeal to industry data scientists and statisticians, researchers, and graduate students in biostatistics and biomedical science. It covers topics in: Next generation sequence data analysis Deep learning, precision medicine, and their applications Large scale data analysis and its applications Biomedical research and modeling Survival analysis with complex data structure and its applications. |
| biomedical science research topics: Expert System Techniques in Biomedical Science Practice Pattnaik, Prasant Kumar, Swetapadma, Aleena, Sarraf, Jay, 2018-06-01 Before the integration of expert systems in biomedical science, complex problems required human expertise to solve them through conventional procedural methods. Advancements in expert systems allow for knowledge to be extracted when no human expertise is available and increases productivity through quick diagnosis. Expert System Techniques in Biomedical Science Practice is an essential scholarly resource that contains innovative research on the methods by which an expert system is designed to solve complex problems through the automation of decision making through the use of if-then-else rules rather than conventional procedural methods. Featuring coverage on a broad range of topics such as image processing, bio-signals, and cognitive AI, this book is a vital reference source for computer engineers, information technologists, biomedical engineers, data-processing specialists, medical professionals, and industrialists within the fields of biomedical engineering, pervasive computing, and natural language processing. |
| biomedical science research topics: Meeting the Nation's Needs for Biomedical and Behavioral Scientists National Research Council, Policy and Global Affairs, Office of Scientific and Engineering Personnel, Committee on National Needs for Biomedical and Behavioral Research Personnel, 1994-02-01 This book assesses the nation's future needs for biomedical and behavioral scientists and the role the National Research Service Awards (NRSA) program can play in meeting those needs. The year 1994 marks the twentieth anniversary of the National Research Act of 1974 (PL 93-348), which established the NRSA program. In its twenty years of operation, the NRSA program has made it possible for many thousands of talented individuals in the basic biomedical, behavioral, and clinical sciences to sharpen their research skills and to apply those skills to topics of special concern to the nation, such as aging, hypertension, the genetic basis of disease, acquired immune deficiency syndrome (AIDS), cancer, environmental toxicology, nutrition and health, and substance abuse. |
| biomedical science research topics: A Guide to Methods in the Biomedical Sciences Ronald B. Corley, 2006-01-16 Thousands of methods have been developed in the various biomedical disciplines, and those covered in this book represent the basic, essential and most widely used methods in several different disciplines. |
| biomedical science research topics: Metabolomics for Biomedical Research Jerzy Adamski, 2020-03-21 Metabolomics for Biomedical Research brings together recent progress on study design, analytics, biostatistics and bioinformatics for the success of metabolomics research. Metabolomics represents a very interdisciplinary research prominent in the functional analyses of living systems; hence, this book focuses on translation and medical aspects. The book discusses topics such as biomarkers and their requirements to be used in medical research, with the parameters and approaches on how to validate their quality; and animal models and other approaches, as stem cells and organoid culture. Additionally, it explains how metabolomics may be applied in prediction of individual response to drug or disease progression. This book is a valuable source for researchers on systems biology and other members of biomedical field interested in metabolism-oriented studies for medical research. |
| biomedical science research topics: Biomedical Chemistry Nuno Vale, 2015-01-01 Biomedical Chemistry provides readers with an understanding of how fundamental chemical concepts are used to combat some diseases. The authors explain the interdisciplinary relationship of chemistry with biology, physics, pharmacy and medicine. The results of chemical research can be applied to understand chemical processes in cells and in the body, and new methods for drug transportation. Also, basic chemical ideas and determination of disease etiology are approached by developing techniques to ensure optimum interaction between drugs and human cells. This Book is an excellent resource for students and researchers in health-related fields with frontier topics in medicinal and pharmaceutical chemistry, organic chemistry and biochemistry. |
| biomedical science research topics: Alternatives to Animal Testing Christoph A. Reinhardt, 2008-11-20 Opinion leaders in science and politics examine findings and legislation in alternatives to animal testing! Refine, reduce, replace - These are the three demands that scientists have placed upon themselves in their search for alternatives to animal testing. Indeed much interdisciplinary research is being carried on today, and new fields have emerged, such as in-vitro toxicology. The three R's call for new scientific insights. Moreover, validation and acceptance strategies have to be adapted, a process of much ongoing interest and vital concern to the pharmaceutical and cosmetic industries. Researchers need to know exactly what has been achieved and accepted in alternatives to animal testing in science and politics. In this book they have the opportunity to benefit from the knowledge and expertise of leading researchers and influential representatives of national and international regulatory authorities. |
| biomedical science research topics: Conflict of Interest in Medical Research, Education, and Practice Institute of Medicine, Board on Health Sciences Policy, Committee on Conflict of Interest in Medical Research, Education, and Practice, 2009-09-16 Collaborations of physicians and researchers with industry can provide valuable benefits to society, particularly in the translation of basic scientific discoveries to new therapies and products. Recent reports and news stories have, however, documented disturbing examples of relationships and practices that put at risk the integrity of medical research, the objectivity of professional education, the quality of patient care, the soundness of clinical practice guidelines, and the public's trust in medicine. Conflict of Interest in Medical Research, Education, and Practice provides a comprehensive look at conflict of interest in medicine. It offers principles to inform the design of policies to identify, limit, and manage conflicts of interest without damaging constructive collaboration with industry. It calls for both short-term actions and long-term commitments by institutions and individuals, including leaders of academic medical centers, professional societies, patient advocacy groups, government agencies, and drug, device, and pharmaceutical companies. Failure of the medical community to take convincing action on conflicts of interest invites additional legislative or regulatory measures that may be overly broad or unduly burdensome. Conflict of Interest in Medical Research, Education, and Practice makes several recommendations for strengthening conflict of interest policies and curbing relationships that create risks with little benefit. The book will serve as an invaluable resource for individuals and organizations committed to high ethical standards in all realms of medicine. |
| biomedical science research topics: An Examination of Emerging Bioethical Issues in Biomedical Research National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Sciences Policy, 2020-09-10 On February 26, 2020, the Board on Health Sciences Policy of the National Academies of Sciences, Engineering, and Medicine hosted a 1-day public workshop in Washington, DC, to examine current and emerging bioethical issues that might arise in the context of biomedical research and to consider research topics in bioethics that could benefit from further attention. The scope of bioethical issues in research is broad, but this workshop focused on issues related to the development and use of digital technologies, artificial intelligence, and machine learning in research and clinical practice; issues emerging as nontraditional approaches to health research become more widespread; the role of bioethics in addressing racial and structural inequalities in health; and enhancing the capacity and diversity of the bioethics workforce. This publication summarizes the presentations and discussions from the workshop. |
| biomedical science research topics: Good Research Practice in Non-Clinical Pharmacology and Biomedicine Anton Bespalov, Martin C. Michel, Thomas Steckler, 2020-01-01 This open access book, published under a CC BY 4.0 license in the Pubmed indexed book series Handbook of Experimental Pharmacology, provides up-to-date information on best practice to improve experimental design and quality of research in non-clinical pharmacology and biomedicine. |
| biomedical science research topics: Biomedical Engineering: Frontier Research and Converging Technologies Hanjoong Jo, Ho-Wook Jun, Jennifer Shin, SangHoon Lee, 2015-07-23 This book provides readers with an integrative overview of the latest research and developments in the broad field of biomedical engineering. Each of the chapters offers a timely review written by leading biomedical engineers and aims at showing how the convergence of scientific and engineering fields with medicine has created a new basis for practically solving problems concerning human health, wellbeing and disease. While some of the latest frontiers of biomedicine, such as neuroscience and regenerative medicine, are becoming increasingly dependent on new ideas and tools from other disciplines, the paradigm shift caused by technological innovations in the fields of information science, nanotechnology, and robotics is opening new opportunities in healthcare, besides dramatically changing the ways we actually practice science. At the same time, a new generation of engineers, fluent in many different scientific “languages,” is creating entirely new fields of research that approach the “old” questions from a new and holistic angle. The book reports on the scientific revolutions in the field of biomedicine by describing the latest technologies and findings developed at the interface between science and engineering. It addresses students, fellows, and faculty and industry investigators searching for new challenges in the broad biomedical engineering fields. |
| biomedical science research topics: Sourcebook of Models for Biomedical Research P. Michael Conn, 2008 The collection of systems represented in Sourcebook of genomic programs, although this work is certainly well Models for Biomedical Research is an effort to re?ect the represented and indexed. diversity and utility of models that are used in biomedicine. Some models have been omitted due to page limitations That utility is based on the consideration that observations and we have encouraged the authors to use tables and made in particular organisms will provide insight into the ? gures to make comparisons of models so that observations workings of other, more complex, systems. Even the cell not available in primary publications can become useful to cycle in the simple yeast cell has similarities to that in the reader. humans and regulation with similar proteins occurs. We thank Richard Lansing and the staff at Humana for Some models have the advantage that the reproductive, guidance through the publication process. mitotic, development or aging cycles are rapid compared As this book was entering production, we learned of the with those in humans; others are utilized because individual loss of Tom Lanigan, Sr. Tom was a leader and innovator proteins may be studied in an advantageous way and that in scienti?c publishing and a good friend and colleague to have human homologs. Other organisms are facile to grow all in the exploratory enterprise. We dedicate this book to in laboratory settings or lend themselves to convenient analy- his memory. We will miss him greatly. |
| biomedical science research topics: Report of the President's Biomedical Research Panel United States. President's Biomedical Research Panel, 1976 |
| biomedical science research topics: Career Advice for Young Scientists in Biomedical Research Béla Z. Schmidt, 2021-11-01 Pursuing a career in biomedical research can be daunting, considering the stiffer competition and uncertain career prospects in academia. This book summarizes career advice gathered during in-depth interviews with 106 biomedical scientists who lead their own laboratories. The participating principal investigators are from 44 research institutions in 11 countries. This book is unique in that it provides a glimpse into the mindset of principal investigators. Here, the reader will learn about common thought patterns and values, as well as the range of opinions and ways of thinking to be found among a large group of active principal investigators – without having to read more than a hundred individual autobiographies. The book will benefit all PhD students who want to learn more about their supervisor’s mindset in order to successfully complete their projects. It can help freshly graduated PhDs planning to pursue an academic career, and MDs contemplating a career in research, to decide whether they truly want to embark on this path. Lastly, it can offer young principal investigators a source of inspiration on how to succeed and achieve their goals. |
| biomedical science research topics: Beyond Regulations Nancy M. P. King, Gail Henderson, Jane Stein, 1999 Across a broad range of disciplines_in medicine, social science, and the humanities_researchers, scholars, teachers, and administrators increasingly are looking for new ways to approach ethical issues in research with human subjects. Questions about how r |
| biomedical science research topics: Summaries of Projects Completed National Science Foundation (U.S.), |
| biomedical science research topics: Biomedical Science and Technology A. Atilla Hincal, H.Süheyla Kas, 2012-12-06 Advancing with Biomedical Engineering Today, in most developed countries, modem hospitals have become centers of sophis ticated health care delivery using advanced technological methods. These have come from the emergence of a new interdisciplinary field and profession, commonly referred to as Bio medical Engineering. Although what is included in the field of biomedical engineering is quite clear, there are some disagreements about its definition. In its most comprehensive meaning, biomedical engineering is the application of the principles and methods of engi neering and basic sciences to the understanding of the structure-function relationships in normal and pathological mammalian tissues, as well as the design and manufacture of prod ucts to maintain, restore, or improve tissue functions, thus assisting in the diagnosis and treat ment of patients. In this very broad definition, the field of biomedical engineering now includes: • System analysis (modeling, simulation, and control of the biological system) • Biomedical instrumentation (detection, measurement, and monitoring of physio logic signals) • Medical imaging (display of anatomic details or physiologic functions for diag nosis) • Biomaterials (development of materials used in prostheses or in medical devices) • Artificial organs (design and manufacture of devices for replacement or augmen tation of tissues or organs) • Rehabilitation (development oftherapeutic and rehabilitation procedures and de vices) • Diagnostics (development of expert systems for diagnosis of diseases) • Controlled drug delivery (development of systems for administration of drugs and other active agents in a controlled manner, preferably to the target area) |
| biomedical science research topics: Report of the President's Biomedical Research Panel President's Biomedical Research Panel, 1976 |
| biomedical science research topics: Methods in Research and Development of Biomedical Devices Kelvin K. L. Wong, 2013 This book presents a road map for applying the stages in conceptualization, evaluation, and testing of biomedical devices in a systematic order of approach, leading to solutions for medical problems within a well-deserved safety limit. The issues discussed will pave the way for understanding the preliminary concepts used in modern biomedical device engineering, which include medical imaging, computational fluid dynamics, finite element analysis, particle image velocimetry, and rapid prototyping. This book would undoubtedly be of use to biomedical engineers, medical doctors, radiologists, and any other professionals related to the research and development of devices for health care. |
| biomedical science research topics: Statistical Modeling for Biomedical Researchers William D. Dupont, 2009-02-12 A second edition of the easy-to-use standard text guiding biomedical researchers in the use of advanced statistical methods. |
| biomedical science research topics: Using Animal Models in Biomedical Research Pierce K. H. Chow, Robert T. H. Ng, Bryan E. Ogden, 2008 Ch. 1. Scientific considerations and choice of species. ch. 1.1. The rationale for the use of animal models in biomedical research / Pierce Chow. ch. 1.2. Experimental animal models in biomedical resarch / Robert Ng. ch. 1.3. Nonhuman primates as models in biomedical research / Jason Vilano and Bryan Ogden -- ch. 2. Regulatory considerations in the use of animal models. ch. 2.1. Laws, regulations and guidelines for biomedical research in Singapore / Boon Theng Kuah. ch. 2.2. The functions of the institutional animal care and use committee / Pierce Chow. ch. 2.3. Responsibilities of principal investigators and research protocol evaluation / Hock Soo Ong. ch. 2.4. The 3R's, research variables and the use of alternatives / Hock Soo Ong. ch. 2.5. Use of statistics as determinant for number of animals used / Huihua Li. ch. 2.6. The advantages of accreditation with AAALAC / Bryan Ogden -- ch. 3. Animal handling and surgical procedures. ch. 3.1. General handling, restraint, oral dosing/gavage and injections in laboratory animals / Bryan Ogden. ch. 3.2. Blood collection from laboratory animals / Jason Villano. ch. 3.3. Antibiotic coverage and therapy / Darvi Sergio. ch. 3.4. Animal preparation and transport / Robert Ng. ch. 3.5. Preparation and implementation of animal surgery / Robert Ng. ch. 3.6. Animal intubation / Robert Ng. ch. 3.7. Anaesthesia and maintenance of homeostasis / Robert Ng. ch. 3.8. Animal euthanasia / Darvi Sergio. ch. 3.9. Rodent sentinel programme / Peik Khin Tan -- ch. 4. Basic animal investigative methods. ch. 4.1. Bioimaging in animals / David Ng [und weitere]. ch. 4.2. Histology sampling and techniques / In Chin Song. ch. 4.3. Animal tissue perfusion and preservation / Robert Ng. ch. 4.4. Animal cell culture / Kai Zhang and Peggy Yong. ch. 4.5. Application of microsurgical techniques in animal research / Bien Keem Tan [und weitere] -- ch. 5. Animal welfare considerations. ch. 5.1. Species specific caging configuration and design / Cindy Phua. ch. 5.2. Postoperative care and pain management / Jason Villano. ch. 5.3. Animal feeds and nutritional requirements / Peik Khin Tan -- ch. 6. Safety management of an animal facility. ch. 6.1. Occupational health and safety programme / Angela Goh. ch. 6.2. New employee and external users orientation / Inria Kurniawan Then. ch. 6.3. Radiation safety awareness in animal research / S. Somanesan. ch. 6.4. Emergency crisis management / Irene Kee. ch. 6.5. Zoonoses and laboratory animal allergies / Jason Villano -- ch. 7. Supporting facilities design. ch. 7.1. Clinical skills laboratory / Robert Ng. ch. 7.2. Animal research supporting laboratories / Robert Ng. ch. 7.3. Animal research and housing facilities / Robert Ng -- ch. 8. The development of comprehensive animal facilities in Singapore. ch. 8.1. History of the Department of Experimental Surgery as a reflection of translational research development in Singapore / Robert Ng |
| biomedical science research topics: Biochemistry and Cell Biology of Ageing: Part I Biomedical Science J. Robin Harris, Viktor I. Korolchuk, 2019-02-18 This new volume in the Subcellular Biochemistry series will focus on the biochemistry and cellular biology of aging processes in human cells. The chapters will be written by experts in their respective fields and will focus on a number of the current key areas of research in subcellular aging research. Main topics for discussion are mitochondrial aging, protein homeostasis and aging and the genetic processes that are involved in aging. There will also be chapters that are dedicated to the study of the roles of a variety of vitamins and minerals on aging and a number of other external factors (microbiological, ROS, inflammation, nutrition). This book will provide the reader with a state of the art overview of the subcellular aging field. This book will be published in cooperation with a second volume that will discuss the translation of the cell biology of aging to a more clinical setting and it is hoped that the combination of these two volumes will bring a deeper understanding of the links between the cell and the body during aging. |
| biomedical science research topics: Policies for Biomedical Research United States. Congress. House. Committee on Science and Technology. Task Force on Science Policy, 1987 |
| biomedical science research topics: Progress and Challenges in Precision Medicine Mukesh Verma, Debmalya Barh, 2016-12-22 Progress and Challenges in Precision Medicine presents an insightful overview to the myriad factors of personalized and precision medicine. The availability of the human genome, large amounts of data on individual genetic variations, environmental interactions, influence of lifestyle, and cutting-edge tools and technologies for big-data analysis have led to the age of personalized and precision medicine. Bringing together a global range of experts on precision medicine, this book collects previously scattered information into one concise volume which covers the most important developments so far in precision medicine and also suggests the most likely avenues for future development. The book includes clinical information, informatics, public policy implications, and information on case studies. It is a useful reference and background work for students, researchers, and clinicians working in the biomedical and medical fields, as well as policymakers in the health sciences. - Provides an overview of the growing field of precision medicine - Contains chapters from geographically diverse experts in their field - Explores important aspects of precision medicine, including applications, ethics, and development |
| biomedical science research topics: Research Awards Index , 1985 |
| biomedical science research topics: Deep Learning for Biomedical Applications Utku Kose, Omer Deperlioglu, D. Jude Hemanth, 2021-07-19 This book is a detailed reference on biomedical applications using Deep Learning. Because Deep Learning is an important actor shaping the future of Artificial Intelligence, its specific and innovative solutions for both medical and biomedical are very critical. This book provides a recent view of research works on essential, and advanced topics. The book offers detailed information on the application of Deep Learning for solving biomedical problems. It focuses on different types of data (i.e. raw data, signal-time series, medical images) to enable readers to understand the effectiveness and the potential. It includes topics such as disease diagnosis, image processing perspectives, and even genomics. It takes the reader through different sides of Deep Learning oriented solutions. The specific and innovative solutions covered in this book for both medical and biomedical applications are critical to scientists, researchers, practitioners, professionals, and educations who are working in the context of the topics. |
| biomedical science research topics: Law and Ethics in Biomedical Research Duff William Ramus Waring, Trudo Lemmens, 2006-01-01 When a young man named Jesse Gelsinger died in 1999 as a result of his participation in a gene transfer research study, regulatory agencies in the United States began to take a closer look at what was happening in medical research. The resulting temporary shutdown of some of the most prestigious academic research centres confirmed what various recent reports in the United States as well as Canada had claimed; that the current system of regulatory oversight was in need of improvement. Law and Ethics in Biomedical Research uses the Gelinger case as a touchstone, illustrating how three major aspects of that case - the flaws in the regulatory system, conflicts of interest, and legal liability - embody the major challenges in the current medical research environment. Editors Trudo Lemmens and Duff R. Waring, along with a host of top scholars in the field, demonstrate why existing models of research review and human subject protection are in need of improvement, and how more stringent regulatory and legal means can be used to strengthen the protection of research subjects and the integrity of research. The contributors also address conflicts of interest, paying particular attention to the growing commercialization of medical research, as well as the legal liability of scientific investigators, research institutions, and governmental agencies. Legal liability is a growing concern in medical research and this fascinating study is, in the international context, one of the first to explore the liability of various parties involved in the research enterprise. |
| biomedical science research topics: Techniques In Microscopy For Biomedical Applications Terje Dokland, Dietmar Werner Hutmacher, Mary Mah-lee Ng, Jan-thorsten Schantz, 2006-09-28 The second volume of the series Manuals in Biomedical Research, this book is aimed to be both a concise introduction to the diverse field of microscopy and a practical guide those who require the use of microscopic for methods in their research. It provides young as well as experienced scientists a state-of-the-art multidisciplinary overview of microscopic techniques, covering all the major microscopy fields in biomedical sciences and showing their application in evaluating samples ranging from molecules to cells and tissues.Microscopy has revolutionized our understanding of biological events. Within the last two decades, microscopic techniques have provided insights into the dynamics of biological processes that regulate such events. Biological discovery, to a large extent, depends on advances in imaging techniques and various microscopic techniques have emerged as central and indispensable tools in the biomedical sciences.The four authors bring with them extensive experiences spanning across disciplines such as Microbiology, Molecular and Cell Biology, Tissue Engineering, Biomedical and Regenerative Medicine and so forth, reinforcing the fact that microscopy has proven useful in countless investigations into the mysteries of life. |
| biomedical science research topics: Advancements of Mass Spectrometry in Biomedical Research Alisa G. Woods, Costel C. Darie, 2014-06-20 This volume explores the use of mass spectrometry for biomedical applications. Chapters focus on specific therapeutic areas such as oncology, infectious disease and psychiatry. Additional chapters focus on methodology as well as new technologies and instrumentation. This volume provides readers with a comprehensive and informative manual that will allow them to appreciate mass spectrometry and proteomic research but also to initiate and improve their own work. Thus the book acts as a technical guide but also a conceptual guide to the newest information in this exciting field. Mass spectrometry is the central tool used in proteomic research today and is rapidly becoming indispensable to the biomedical scientist. With the completion of the human genome project and the genomic revolution, the proteomic revolution has followed closely behind. Understanding the human proteome has become critical to basic and clinical biomedical research and holds the promise of providing comprehensive understanding of human physiological processes. In addition, proteomics and mass spectrometry are bringing unprecedented biomarker discovery and are helping to personalize medicine. |
| biomedical science research topics: Medical and Biomedical Updates Mieczyslaw Pokorski, 2021-01-25 This book integrates topics in basic research and clinical medicine as well as molecular and cell biology. It presents innovative advances in the field of immunodeficiency syndromes and viral/bacterial respiratory infections, including a novel hyperbaric oxygen treatment for COVID-19. A comprehensive insight is offered into the unresolved molecular pathways in chemosensing that plays a vital role in detecting insufficient tissue oxygenation, as well as in sporting accomplishments. Other articles address cardiorespiratory and humoral responses to hypoxia, the function of cementum in the repair and regeneration of teeth, and periprosthetic fractures following hip arthroplasty in the elderly. The issue of the overwhelming burdens on caregivers to spinal injury patients, damaging both health and psychosocial status, is addressed. The book promotes translation of scientific advances to the general medical practice. It will be a valuable reference for clinical healthcare professionals and researchers interested in innovative practices to improve the prevention, diagnosis, and management of diseases. |
| biomedical science research topics: Computational and Experimental Biomedical Sciences: Methods and Applications João Manuel R. S. Tavares, R.M. Natal Jorge, 2015-03-16 This book contains the full papers presented at ICCEBS 2013 – the 1st International Conference on Computational and Experimental Biomedical Sciences, which was organized in Azores, in October 2013. The included papers present and discuss new trends in those fields, using several methods and techniques, including active shape models, constitutive models, isogeometric elements, genetic algorithms, level sets, material models, neural networks, optimization and the finite element method, in order to address more efficiently different and timely applications involving biofluids, computer simulation, computational biomechanics, image based diagnosis, image processing and analysis, image segmentation, image registration, scaffolds, simulation and surgical planning. The main audience for this book consists of researchers, Ph.D students and graduate students with multidisciplinary interests related to the areas of artificial intelligence, bioengineering, biology, biomechanics, computational fluid dynamics, computational mechanics, computational vision, histology, human motion, imagiology, applied mathematics, medical image, medicine, orthopaedics, rehabilitation, speech production and tissue engineering. |
| biomedical science research topics: Application of Infrared to Biomedical Sciences Eddie YK Ng, Mahnaz Etehadtavakol, 2017-03-23 The book covers the latest updates in the application of infrared to biomedical sciences, a non-invasive, contactless, safe and easy approach imaging of skin and tissue temperatures. Its diagnostic procedure allows practitioners to identify the locations of abnormal chemical and blood vessel activity such as angiogenesis in body tissue. Its non-invasive approach works by applying the technology of the infrared camera and state-of-the-art software, where high-resolution digital infrared imaging technology benefits highly from enhanced image production, standardized image interpretation protocols, computerized comparison and storage, and sophisticated image enhancement and analysis. The book contains contributions from global prominent scientists in the area of infrared applications in biomedical studies. The target audience includes academics, practitioners, clinicians and students working in the area of infrared imaging in biomedicine. |
| biomedical science research topics: Essential Concepts in Molecular Pathology William B. Coleman, Gregory J. Tsongalis, 2019-11-23 Essential Concepts in Molecular Pathology, Second Edition, offers an introduction to molecular genetics and the molecular aspects of human disease. The book illustrates how pathologists harness their understanding of these entities to develop new diagnostics and treatments for various human diseases. This new edition offers pathology, genetics residents, and molecular pathology fellows an advanced understanding of the molecular mechanisms of disease that goes beyond what they learned in medical and graduate school. By bridging molecular concepts of pathogenesis to the clinical expression of disease in cell, tissue and organ, this fully updated, introductory reference provides the background necessary for an understanding of today's advances in pathology and medicine. - Explains the practice of molecular medicine and the translational aspects of molecular pathology, including molecular diagnostics, molecular assessment and personalized medicine - Orients non-pathologists on what pathologists look for and how they interpret their observational findings based on histopathology - Provides the reader with what is missing from most targeted introductions to pathology—the cell biology behind pathophysiology |
| biomedical science research topics: Summaries of Projects Completed in Fiscal Year ... , 1979 |
| biomedical science research topics: Summaries of Projects Completed in Fiscal Year ... National Science Foundation (U.S.), 1979 |
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Mar 25, 2020 · Mantendo o nosso dever e visando facilitar a comunicação para nossos clientes, médicos e parceiros, a Biomedical acaba de lançar um novo canal de atendimento pelo …
Turbo-Elite – Cateter de Aterectomia a Laser – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Quick-Cross – Cateter Suporte - Biomedical
Central de Relacionamento com Cliente: qualidade@biomedical.com.br Informações aqui contidas somente para EXIBIÇÃO no Brasil. Sempre consulte o status regulatório do …
Produtos – Biomedical
Produtos médicos, científicos e hospitalares. Alto padrão de qualidade e tecnologia Conheça nossos produtos:
Patch Vascular de Dacron – Impregnado com Colágeno - Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Extensor de Alta Pressão com Adaptador Rotacional - Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A. Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil. Central de …
iVAC – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Stellarex – Balão Farmacológico para Angioplastia – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Biomedical | Produtos médicos e hospitalares
A Biomedical distribui produtos médicos e produtos hospitalares com modernas tecnologias em todo território nacional
Advanta VXT – Enxerto de PTFE – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Biomedical | Novo canal de atendimento | Produtos médicos
Mar 25, 2020 · Mantendo o nosso dever e visando facilitar a comunicação para nossos clientes, médicos e parceiros, a Biomedical acaba de lançar um novo canal de atendimento pelo …
Turbo-Elite – Cateter de Aterectomia a Laser – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Quick-Cross – Cateter Suporte - Biomedical
Central de Relacionamento com Cliente: qualidade@biomedical.com.br Informações aqui contidas somente para EXIBIÇÃO no Brasil. Sempre consulte o status regulatório do …
Produtos – Biomedical
Produtos médicos, científicos e hospitalares. Alto padrão de qualidade e tecnologia Conheça nossos produtos:
Patch Vascular de Dacron – Impregnado com Colágeno - Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Extensor de Alta Pressão com Adaptador Rotacional - Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A. Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil. Central de …
iVAC – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
Stellarex – Balão Farmacológico para Angioplastia – Biomedical
BIOMEDICAL PRODUTOS CIENTIFICOS MEDICOS E HOSPITALARES S/A Rua Dr. Álvaro Camargos, 1236 - São João Batista, Belo Horizonte – MG – 31515-232, Brasil Central de …
