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| basic science vs translational research: Clinical and Translational Science David Robertson, Gordon H. Williams, 2016-11-25 Clinical and Translational Science: Principles of Human Research, Second Edition, is the most authoritative and timely resource for the broad range of investigators taking on the challenge of clinical and translational science, a field that is devoted to investigating human health and disease, interventions, and outcomes for the purposes of developing new treatment approaches, devices, and modalities to improve health. This updated second edition has been prepared with an international perspective, beginning with fundamental principles, experimental design, epidemiology, traditional and new biostatistical approaches, and investigative tools. It presents complete instruction and guidance from fundamental principles, approaches, and infrastructure, especially for human genetics and genomics, human pharmacology, research in special populations, the societal context of human research, and the future of human research. The book moves on to discuss legal, social, and ethical issues, and concludes with a discussion of future prospects, providing readers with a comprehensive view of this rapidly developing area of science. Introduces novel physiological and therapeutic strategies for engaging the fastest growing scientific field in both the private sector and academic medicine Brings insights from international leaders into the discipline of clinical and translational science Addresses drug discovery, drug repurposing and development, innovative and improved approaches to go/no-go decisions in drug development, and traditional and innovative clinical trial designs |
| basic science vs translational research: Basic Science Methods for Clinical Researchers Morteza Jalali, Francesca Yvonne Louise Saldanha, Mehdi Jalali, 2017-03-31 Basic Science Methods for Clinical Researchers addresses the specific challenges faced by clinicians without a conventional science background. The aim of the book is to introduce the reader to core experimental methods commonly used to answer questions in basic science research and to outline their relative strengths and limitations in generating conclusive data. This book will be a vital companion for clinicians undertaking laboratory-based science. It will support clinicians in the pursuit of their academic interests and in making an original contribution to their chosen field. In doing so, it will facilitate the development of tomorrow's clinician scientists and future leaders in discovery science. - Serves as a helpful guide for clinical researchers who lack a conventional science background - Organized around research themes pertaining to key biological molecules, from genes, to proteins, cells, and model organisms - Features protocols, techniques for troubleshooting common problems, and an explanation of the advantages and limitations of a technique in generating conclusive data - Appendices provide resources for practical research methodology, including legal frameworks for using stem cells and animals in the laboratory, ethical considerations, and good laboratory practice (GLP) |
| basic science vs translational research: Myocardial Preservation Dennis V. Cokkinos, 2019-01-28 This timely book reveals an integrated approach to myocardial preservation focusing on translational research and clinical applications. Chapters cover both the mechanisms of heart failure in addition to therapeutic considerations, including forms of cardiac cell death, cardiac remodelling and cardiac regeneration. Potential future research directions are also proposed, enabling the reader to gain a broad in-depth understanding of the topic. Myocardial Preservation: Translational Research and Clinical Application presents a thorough review of myocardial preservation. Its comprehensive approach provides a valuable reference for cardiology researchers and practising and trainee cardiologists seeking new insight to the topic. |
| basic science vs translational research: The CTSA Program at NIH Institute of Medicine, Board on Health Sciences Policy, Committee to Review the Clinical and Translational Science Awards Program at the National Center for Advancing Translational Sciences, 2013-10-09 In 2006 the National Institutes of Health (NIH) established the Clinical and Translational Science Awards (CTSA) Program, recognizing the need for a new impetus to encourage clinical and translational research. At the time it was very difficult to translate basic and clinical research into clinical and community practice; making it difficult for individual patients and communities to receive its benefits. Since its creation the CTSA Program has expanded, with 61 sites spread across the nation's academic health centers and other institutions, hoping to provide catalysts and test beds for policies and practices that can benefit clinical and translation research organizations throughout the country. The NIH contracted with the Institute of Medicine (IOM) in 2012 to conduct a study to assess and provide recommendations on appropriateness of the CTSA Program's mission and strategic goals and whether changes were needed. The study was also address the implementation of the program by the National Center for Advancing Translational Sciences (NCATS) while exploring the CTSA's contributions in the acceleration of the development of new therapeutics. A 13-member committee was established to head this task; the committee had collective expertise in community outreach and engagement, public health and health policy, bioethics, education and training, pharmaceutical research and development, program evaluation, clinical and biomedical research, and child health research. The CTSA Program at NIH: Opportunities for Advancing Clinical and Translational Research is the result of investigations into previous program evaluations and assessments, open-session meetings and conference class, and the review of scientific literature. Overall, the committee believes that the CTSA Program is significant to the advancement of clinical and translational research through its contributions. The Program would benefit from a variety of revisions, however, to make it more efficient and effective. |
| basic science vs translational research: Principles of Translational Science in Medicine Martin Wehling, 2015-04-02 Principles of Translational Science in Medicine: From Bench to Bedside, Second Edition, provides an update on major achievements in the translation of research into medically relevant results and therapeutics. The book presents a thorough discussion of biomarkers, early human trials, and networking models, and includes institutional and industrial support systems. It also covers algorithms that have influenced all major areas of biomedical research in recent years, resulting in an increasing numbers of new chemical/biological entities (NCEs or NBEs) as shown in FDA statistics. The book is ideal for use as a guide for biomedical scientists to establish a systematic approach to translational medicine. - Provides an in-depth description of novel tools for the assessment of translatability of trials to balance risk and improve projects at any given stage of product development - New chapters deal with translational issues in the fastest growing population (the elderly), case studies, translatability assessment tools, and advances in nanotherapies - Details IPR issues of translation, especially for public-private-partnerships - Contains contributions from world leaders in translational medicine, including the former NIH director and authorities from various European regulatory institutions |
| basic science vs translational research: 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. |
| basic science vs translational research: Principles and Practice of Clinical Research John I. Gallin, Frederick P Ognibene, 2011-04-28 The second edition of this innovative work again provides a unique perspective on the clinical discovery process by providing input from experts within the NIH on the principles and practice of clinical research. Molecular medicine, genomics, and proteomics have opened vast opportunities for translation of basic science observations to the bedside through clinical research. As an introductory reference it gives clinical investigators in all fields an awareness of the tools required to ensure research protocols are well designed and comply with the rigorous regulatory requirements necessary to maximize the safety of research subjects. Complete with sections on the history of clinical research and ethics, copious figures and charts, and sample documents it serves as an excellent companion text for any course on clinical research and as a must-have reference for seasoned researchers.*Incorporates new chapters on Managing Conflicts of Interest in Human Subjects Research, Clinical Research from the Patient's Perspective, The Clinical Researcher and the Media, Data Management in Clinical Research, Evaluation of a Protocol Budget, Clinical Research from the Industry Perspective, and Genetics in Clinical Research *Addresses the vast opportunities for translation of basic science observations to the bedside through clinical research*Delves into data management and addresses how to collect data and use it for discovery*Contains valuable, up-to-date information on how to obtain funding from the federal government |
| basic science vs translational research: Research for the Public Good Elaine Wethington, Rachel Elizabeth Dunifon, 2012 Translational research links scientific findings with programs and policies that improve human health and well-being. It includes research that evaluates interventions or policies for efficacy and effectiveness, as well as research that applies field experience to future development of basic theory and its applications. Although translational research has traditionally emphasised biomedical studies with one type of application (i.e., individual-level intervention to treat disease), the concept has expanded to include various sciences and many types of applications. Social and behavioural sciences now often contribute to public- and individual-level interventions that promote education, disease prevention, health care delivery, health care access, and more. This broader, more inclusive approach to translational research has gained popularity and been promoted by the National Institutes of Health, the Centers for Disease Control, medical centers, and university programs. This book demonstrates how emerging methods of translational research can be applied to important topics of interest to social and behavioural scientists. Accessible models and real-world case studies are provided to help bridge the gaps among research, policy, and practice. |
| basic science vs translational research: Venture Philanthropy Strategies to Support Translational Research Institute of Medicine, Board on Health Sciences Policy, Forum on Neuroscience and Nervous System Disorders, 2009-06-01 Many voluntary health organizations fund translational research. An increasing number of these organizations are looking at venture philanthropy as a critical way to advance their missions of helping patients and working to cure disease. A wide range of participants gathered on October 3, 2008 at the Beckman Center of the National Academies of Science for a workshop titled Venture Philanthropy Strategies Used by Patient Organizations to Support Translational Research. Participants with experience in venture philanthropy shared their experiences and lessons learned in order to improve efficiency and effectiveness in translational research. |
| basic science vs translational research: Thriving Blind Kristin Smedley, 2019-02-26 Stories of blind people who use creativity and determination to live the life of their dreams. Also includes lists of resources for advocacy, rehabilitation, recreation, and support systems for the blind. |
| basic science vs translational research: Optimization of Behavioral, Biobehavioral, and Biomedical Interventions Linda M. Collins, 2018-02-08 This book presents a framework for development, optimization, and evaluation of behavioral, biobehavioral, and biomedical interventions. Behavioral, biobehavioral, and biomedical interventions are programs with the objective of improving and maintaining human health and well-being, broadly defined, in individuals, families, schools, organizations, or communities. These interventions may be aimed at, for example, preventing or treating disease, promoting physical and mental health, preventing violence, or improving academic achievement. This volume introduces the multiphase optimization strategy (MOST), pioneered at The Methodology Center at the Pennsylvania State University, as an alternative to the classical approach of relying solely on the randomized controlled trial (RCT). MOST borrows heavily from perspectives taken and approaches used in engineering, and also integrates concepts from statistics and behavioral science, including the RCT. As described in detail in this book, MOST consists of three phases: preparation, in which the conceptual model underlying the intervention is articulated; optimization, in which experimentation is used to gather the information necessary to identify the optimized intervention; and evaluation, in which the optimized intervention is evaluated in a standard RCT. Through numerous examples, the book demonstrates that MOST can be used to develop interventions that are more effective, efficient, economical, and scalable. Optimization of Behavioral, Biobehavioral, and Biomedical Interventions: The Multiphase Optimization Strategy is the first book to present a comprehensive introduction to MOST. It will be an essential resource for behavioral, biobehavioral, and biomedical scientists; statisticians, biostatisticians, and analysts working in epidemiology and public health; and graduate-level courses in development and evaluation of interventions. |
| basic science vs translational research: The Role of Purchasers and Payers in the Clinical Research Enterprise Institute of Medicine, Board on Health Sciences Policy, Clinical Research Roundtable, 2002-06-14 In a workshop organized by the Clinical Research roundtable, representatives from purchaser organizations (employers), payer organizations (health plans and insurance companies), and other stakeholder organizations (voluntary health associations, clinical researchers, research organizations, and the technology community) came together to explore: What do purchasers and payers need from the Clinical Research Enterprise? How have current efforts in clinical research met their needs? What are purchasers, payers, and other stakeholders willing to contribute to the enterprise? This book documents these discussions and summarizes what employers and insurers need from and are willing to contribute to clinical research from both a business and a national health care perspective. |
| basic science vs translational research: Translational Systems Biology: Concepts and Practice for the Future of Biomedical Research Yoram Vodovotz, Gary An, 2017-11-13 Are we satisfied with the rate of drug development? Are we happy with the drugs that come to market? Are we getting our money s worth in spending for basic biomedical research? In Translational Systems Biology, Drs. Yoram Vodovotz and Gary An address these questions by providing a foundational description the barriers facing biomedical research today and the immediate future, and how these barriers could be overcome through the adoption of a robust and scalable approach that will form the underpinning of biomedical research for the future. By using a combination of essays providing the intellectual basis of the Translational Dilemma and reports of examples in the study of inflammation, the content of Translational Systems Biology will remain relevant as technology and knowledge advances bring broad translational applicability to other diseases. Translational systems biology is an integrated, multi-scale, evidence-based approach that combines laboratory, clinical and computational methods with an explicit goal of developing effective means of control of biological processes for improving human health and rapid clinical application. This comprehensive approach to date has been utilized for in silico studies of sepsis, trauma, hemorrhage, and traumatic brain injury, acute liver failure, wound healing, and inflammation. Provides an explicit, reasoned, and systematic approach to dealing with the challenges of translational science across disciplines Establishes the case for including computational modeling at all stages of biomedical research and healthcare delivery, from early pre-clinical studies to long-term care, by clearly delineating efficiency and costs saving important to business investment Guides readers on how to communicate across domains and disciplines, particularly between biologists and computational researchers, to effectively develop multi- and trans-disciplinary research teams |
| basic science vs translational research: Translational Medicine: Tools And Techniques Aamir Shahzad, 2015-11-24 Translational Medicine: Tools and Techniques provides a standardized path from basic research to the clinic and brings together various policy and practice issues to simplify the broad interdisciplinary field. With discussions from academic and industry leaders at international institutions who have successfully implemented translational medicine techniques and tools in various settings, readers will be guided through implementation strategies relevant to their own needs and institutions. The book also addresses regulatory processes in USA, EU, Japan and China. By providing details on omics sciences techniques, biomarkers, data mining and management approaches, case reports from industry, and tools to assess the value of different technologies and techniques, this book is the first to provide a user-friendly go-to guide for key opinion leaders (KOLs), industry administrators, faculty members, clinicians, researchers, and students interested in translational medicine. - Includes detailed and standardized information about the techniques and tools used in translational medicine - Provides specific industry case scenarios - Explains how to use translational medicine tools and techniques to plan and improve infrastructures and capabilities while reducing cost and optimizing resources |
| basic science vs translational research: Translational Research in Breast Cancer Dong-Young Noh, Wonshik Han, Masakazu Toi, 2021-05-13 This book describes recent advances in translational research in breast cancer and presents emerging applications of this research that promise to have meaningful impacts on diagnosis and treatment. It introduces ideas and materials derived from the clinic that have been brought to the bench for basic research, as well as findings that have been applied back to the bedside. Detailed attention is devoted to breast cancer biology and cell signaling pathways and to cancer stem cell and tumor heterogeneity in breast cancer. Various patient-derived research models are discussed, and a further focus is the role of biomarkers in precision medicine for breast cancer patients. Next-generation clinical research receives detailed attention, addressing the increasingly important role of big data in breast cancer research and a wide range of other emerging developments. An entire section is also devoted to the management of women with high-risk breast cancer. Translational Research in Breast Cancer will help clinicians and scientists to optimize their collaboration in order to achieve the common goal of conquering breast cancer. |
| basic science vs translational research: Translational Pain Research Lawrence Kruger, Alan R Light, 2009-11-24 One of the Most Rapidly Advancing Fields in Modern Neuroscience The success of molecular biology and the new tools derived from molecular genetics have revolutionized pain research and its translation to therapeutic effectiveness. Bringing together recent advances in modern neuroscience regarding genetic studies in mice and humans and the practical |
| basic science vs translational research: Success in Academic Surgery: Basic Science Melina R. Kibbe, Scott A. LeMaire, 2013-09-02 Academic surgeons play an essential role in advancing the field and improving the care of patients with surgical disease. As the Association for Academic Surgery (AAS) Fall Courses (www.aasurg.org) and international courses continue to evolve to address the rapidly expanding scope and complexity of academic surgery, there is a greater need for an accompanying textbook to supplement the material presented in the courses. Success in Academic Surgery: Basic Science is a unique and portable handbook that focuses on the basic and translational research. It includes new educational materials that are necessary to address not only the rapid evolution and rise of novel research methodologies in basic science and translational research, but also the changing environment for academic surgeons. Success in Academic Surgery: Basic Science is a valuable text for medical students, surgical residents, junior faculty and others considering a career in surgical research. |
| basic science vs translational research: Enabling America Institute of Medicine, Committee on Assessing Rehabilitation Science and Engineering, 1997-11-24 The most recent high-profile advocate for Americans with disabilities, actor Christopher Reeve, has highlighted for the public the economic and social costs of disability and the importance of rehabilitation. Enabling America is a major analysis of the field of rehabilitation science and engineering. The book explains how to achieve recognition for this evolving field of study, how to set priorities, and how to improve the organization and administration of the numerous federal research programs in this area. The committee introduces the enabling-disability process model, which enhances the concepts of disability and rehabilitation, and reviews what is known and what research priorities are emerging in the areas of: Pathology and impairment, including differences between children and adults. Functional limitationsâ€in a person's ability to eat or walk, for example. Disability as the interaction between a person's pathologies, impairments, and functional limitations and the surrounding physical and social environments. This landmark volume will be of special interest to anyone involved in rehabilitation science and engineering: federal policymakers, rehabilitation practitioners and administrators, researchers, and advocates for persons with disabilities. |
| basic science vs translational research: Strengthening a Workforce for Innovative Regulatory Science in Therapeutics Development Institute of Medicine, Board on Health Sciences Policy, Forum on Drug Discovery, Development, and Translation, 2012-04-04 The development and application of regulatory science - which FDA has defined as the science of developing new tools, standards, and approaches to assess the safety, efficacy, quality, and performance of FDA-regulated products - calls for a well-trained, scientifically engaged, and motivated workforce. FDA faces challenges in retaining regulatory scientists and providing them with opportunities for professional development. In the private sector, advancement of innovative regulatory science in drug development has not always been clearly defined, well coordinated, or connected to the needs of the agency. As a follow-up to a 2010 workshop, the IOM held a workshop on September 20-21, 2011, to provide a format for establishing a specific agenda to implement the vision and principles relating to a regulatory science workforce and disciplinary infrastructure as discussed in the 2010 workshop. |
| basic science vs translational research: Bridging the Bed-Bench Gap National Research Council, Policy and Global Affairs, Board on Higher Education and Workforce, Committee on the Evaluation of the Lucille P. Markey Charitable Trust Programs in Biomedical Sciences, 2004-02-05 Since the 1970s there has been a serious gap between fundamental biological research and its clinical application. In response to this gap the Lucille P. Markey Charitable Trust instituted the General Organizational Grants program, which funded two types of awards to provide training that would bridge the bed-bench gap. These training awards fell into two categories: (1) those that provided significant opportunities for M.D.s to engage in basic research during and immediately following medical school and residency, and (2) those that provided significant clinical exposure for Ph.D.s while they were predoctoral or postdoctoral students. These grants were intended to close the widening gap between rapid advances in our understanding of the biological process and the translation of that knowledge into techniques for preventing diseases. This report examines the General Organizational Grant programs, identifies best practices, and provides observations for future philanthropic funders. |
| basic science vs translational research: Translational Research in Audiology, Neurotology, and the Hearing Sciences Colleen G. Le Prell, Edward Lobarinas, Arthur N. Popper, Richard R. Fay, 2016-11-04 Translational Research is the interface between basic science and human clinical application, including the entire process from animal studies to human clinical trials (phases I, II, and III). Translational Research moves promising basic science results from the laboratory to bedside application. Yet, this transition is often the least-defined, least-understood part of the research process. Most scientific training programs provide little or no systematic introduction to the issues, challenges, and obstacles that prevent effective research translation, even though these are the key steps that enable high-impact basic science to ultimately result in significant clinical advances that improve patient outcome. This volume will provide an overview of key issues in translation of research from “bedside to bench to bedside”, not only from the perspective of the key funding agencies, but also from the scientists and clinicians who are currently involved in the translational research process. It will attempt to offer insight into real-world experience with intellectual property and technology transfer activities that can help move auditory technologies ahead, as scientists and clinicians typically have little or no formal training in these areas. Translational Research in Audiology and the Hearing Sciences will be aimed at graduate students and postdoctoral investigators, as well as professionals and academics. It is intended to function as a high-profile and up-to-date reference work on Translational Research in the auditory sciences, emphasizing research programs in the traditional areas including drugs and devices, as well as less traditional, still emerging, areas such as sensorineural hearing loss, auditory processing disorder, cochlear implants and hearing aids, and tinnitus therapies. |
| basic science vs translational research: Advances in Photodynamic Therapy Michael R. Hamblin, 2008 With today's focus on targeted and minimally invasive therapies, photodynamic therapy (PDT) is now being studied and used to combat many disease states and to investigate critical biological questions. This groundbreaking resource brings you the latest advances in photodynamic therapy and offers you a solid understanding of the design, delivery and dosimetry of the three basic ingredients of PDT - photosensitizers, light and oxygen. The book covers novel areas of mechanistic and innovative translational approaches. Moreover, it gives you an overview of the important medical applications of PDT, including approved treatments, clinical trials, and investigated therapies for cancer and non-malignant diseases. |
| basic science vs translational research: Progress in Molecular Biology and Translational Science David B. Teplow, 2018-10-16 Progress in Molecular Biology and Translational Science, Volume 159, provides the most topical, informative and exciting monographs available on a wide variety of research topics related to prions, viruses, bacteria and eukaryotes. The series includes in-depth knowledge on molecular biological aspects of organismal physiology, along with insights on how this knowledge may be applied to understand and ameliorate human disease. New chapters in this release discuss timely topics, such as Targeting recently deorphanized GPR83 for the treatment of infection, stress, and drug addiction, Arrestin Structure-Function, Arrestins in the Cardiovascular System, Analysis of biased agonism, and more. - Includes comprehensive coverage of molecular biology - Presents ample use of tables, diagrams, schemata, and color figures to enhance the reader's ability to rapidly grasp the information provided - Contains contributions from renowned experts in the field |
| basic science vs translational research: Handbook of Biomarkers and Precision Medicine Claudio Carini, Mark Fidock, Alain van Gool, 2019-04-16 The field of Biomarkers and Precision Medicine in drug development is rapidly evolving and this book presents a snapshot of exciting new approaches. By presenting a wide range of biomarker applications, discussed by knowledgeable and experienced scientists, readers will develop an appreciation of the scope and breadth of biomarker knowledge and find examples that will help them in their own work. -Maria Freire, Foundation for the National Institutes of Health Handbook of Biomarkers and Precision Medicine provides comprehensive insights into biomarker discovery and development which has driven the new era of Precision Medicine. A wide variety of renowned experts from government, academia, teaching hospitals, biotechnology and pharmaceutical companies share best practices, examples and exciting new developments. The handbook aims to provide in-depth knowledge to research scientists, students and decision makers engaged in Biomarker and Precision Medicine-centric drug development. Features: Detailed insights into biomarker discovery, validation and diagnostic development with implementation strategies Lessons-learned from successful Precision Medicine case studies A variety of exciting and emerging biomarker technologies The next frontiers and future challenges of biomarkers in Precision Medicine Claudio Carini, Mark Fidock and Alain van Gool are internationally recognized as scientific leaders in Biomarkers and Precision Medicine. They have worked for decades in academia and pharmaceutical industry in EU, USA and Asia. Currently, Dr. Carini is Honorary Faculty at Kings’s College School of Medicine, London, UK. Dr. Fidock is Vice President of Precision Medicine Laboratories at AstraZeneca, Cambridge, UK. Prof.dr. van Gool is Head Translational Metabolic Laboratory at Radboud university medical school, Nijmegen, NL. |
| basic science vs translational research: Nolph and Gokal's Textbook of Peritoneal Dialysis Ramesh Khanna, Raymond T. Krediet, 2009-05-28 Nolph and Gokal's Text Book of Peritoneal Dialysis, Third Edition, covers advances made in the field for the past 30 years. During the past two decades, the time during which this therapy has been increasingly utilized, this text has continued to be recognized as the major source of the discipline's base knowledge. The evolution of this text to its newest edition parallels the growth of peritoneal dialysis from Continuous Ambulatory Peritoneal Dialysis in the eighties to the current therapy that encompasses manual and automated therapies with full emphasis on adequacy of dialysis dose. Peritoneal dialysis represents an intracorporeal technique for blood purification. This unique dialysis system represents one of many human attempts to manipulate nature for sustenance of life. The past few years of advances have focused on further improvement of the technique. Areas that have fueled the interest of researchers include: (1) Physiology of high transporters (and the role of genetics and inflammation); (2) Continued debate over the most appropriate adequacy indices (small solute clearances, large solute clearances, clinical assessment etc.); (3) Understanding, preventing and treating the MIA syndrome in PD patients ( including the roles of leptin, and adiponectin); (4) Pathogenesis and newer management strategies of vascular calcification; (5) Continued improvements in infectious complications including peritonitis; (6) Further improvements in catheter technology; (7) Automated techniques; (8) Explaining and correcting PD underutilization; (9) Rationale and applications of newer dialysis solutions; (10) New understanding and approaches to management of osteodystrophy; (11) Refinements in anemia management including new insights in iron metabolism in PD patients; (12) Further definition of indications for PD; (13) The ideal time to initiate dialysis. Newer insight into host defense mechanisms have also made the past decade of advances in the field more meaningful for clinicians. This text also covers the knowledge gained from animal models of peritoneal dialysis. Nolph and Gokal's Textbook of Peritoneal Dialysis, Third Edition is a compilation of the latest knowledge in the field. It cites and describes in great detail, the new discoveries and the evolution of understanding the subject of these discoveries. |
| basic science vs translational research: Cancer on Trial Peter Keating, Alberto Cambrosio, 2014-04-18 There were no medical oncologists until a few decades ago. In the early 1960s, not only were there no such specialists, many practitioners regarded the treatment of terminally-ill cancer patients with heroic courses of chemotherapy as highly questionable. Physicians loath to assign patients randomly to competing treatments also expressed their outright opposition to the randomized clinical trials that were then relatively rare. And yet today these trials form the basis of medical oncology. How did such a spectacular change occur? How did medical oncology move from a non-entity and in some regards a reviled practice to the central position it now occupies in modern medicine? Cancer on Trial answers these questions by exploring how practitioners established a new style of practice, at the center of which lies the cancer clinical trial. |
| basic science vs translational research: Exploring Challenges, Progress, and New Models for Engaging the Public in the Clinical Research Enterprise Institute of Medicine, Board on Health Sciences Policy, Clinical Research Roundtable, 2003-07-25 This report is a summary of a workshop focused on exploring the role of the public in the Clinical Research Enterprise. The Clinical Research Enterprise depends upon practitioners, policy makers, and others for participation in trials, ethical review of research, and continued support of research funding. However, the role of the public has expanded beyond this traditional model as consumers have begun to demand a role in the formulation of the research agenda and in the design, review, and pursuit of research. This report identifies four major challenges to the Clinical Research Enterprise: enhancing public participation in clinical research, which includes making the system safer and faster; developing the necessary information systems that are needed to make the clinical research enterprise a coordinated and seamless whole; fostering an adequately trained workforce; and ensuring adequate funding for clinical research. In addition, the report identifies two translational blocks-from basic science into clinical practice and from the clinical identification of things that work into broader application to improve medical care and the public's health. This workshop summary addresses the contribution of the public to overcoming these obstacles. |
| basic science vs translational research: Mentor Training for Clinical and Translational Researchers Christine Pfund, Stephanie House, Pamela Asquith, Kimberly Spencer, Karin Silet, Christine Sorkness, 2013-01-25 The mentoring curriculum presented in this manual is adapted from Entering Mentoring by Jo Handelsman, Christine Pfund, Sarah Miller and Christine Maidl Pribbenow. The materials presented in Entering Mentoring provide the basis for research mentor training tailored to the needs of diverse mentors and mentees in various settings. |
| basic science vs translational research: Oxford Textbook of Global Public Health Roger Detels, Martin Gulliford, Quarraisha Abdool Karim, Chorh Chuan Tan, 2017 Sixth edition of the hugely successful, internationally recognised textbook on global public health and epidemiology, with 3 volumes comprehensively covering the scope, methods, and practice of the discipline |
| basic science vs translational research: Clinical and Basic Neurogastroenterology and Motility Satish S.C. Rao, Yeong Yeh Lee, Uday C. Ghoshal, 2019-12-01 Clinical and Basic Neurogastroenterology and Motility is a state-of-the-art, lucidly written, generously illustrated, landmark publication that comprehensively addresses the underlying mechanisms and management of common adult and pediatric motility disorders. These problems affect 50% of the population and include conditions such as dysphagia, achalasia, gastroesophageal reflux disease, gastroparesis, irritable bowel syndrome (IBS), gas and bloating, SIBO, constipation and fecal incontinence. The book brings together international experts and clinician scientists, epitomizing their years of wisdom into a concise yet practical text that is delivered in two distinct sections, basic and clinical. It fulfills a large unmet need, and bridges a long-awaited knowledge gap among trainees, clinicians, scientists, nurses and technicians, earnestly engaged in this field. - First of its kind text that covers both basic and clinical aspects, bridging the knowledge gap, and providing a bench to bedside approach for management of common disorders - Discusses the latest concepts and basic principles of neurogastroenterology and motility, and how the gut and brain interact in the genesis of functional gastrointestinal and motility disorders - Provides an illustrated and practical text on hot topics written by leading adult and pediatric gastroenterology experts across the globe - Includes an accompanying more detailed web version of the text with free access to future podcasts |
| basic science vs translational research: The Science of Health Disparities Research Irene Dankwa-Mullan, Eliseo J. Pérez-Stable, Kevin L. Gardner, Xinzhi Zhang, Adelaida M. Rosario, 2021-03-16 Integrates the various disciplines of the science of health disparities in one comprehensive volume The Science of Health Disparities Research is an indispensable source of up-to-date information on clinical and translational health disparities science. Building upon the advances in health disparities research over the past decade, this authoritative volume informs policies and practices addressing the diseases, disorders, and gaps in health outcomes that are more prevalent in minority populations and socially disadvantaged communities. Contributions by recognized scholars and leaders in the field—featuring contemporary research, conceptual models, and a broad range of scientific perspectives—provide an interdisciplinary approach to reducing inequalities in population health, encouraging community engagement in the research process, and promoting social justice. In-depth chapters help readers better understand the specifics of minority health and health disparities while demonstrating the importance of advancing theory, refining measurement, improving investigative methods, and diversifying scientific research. In 26 chapters, the book examines topics including the etiology of health disparities research, the determinants of population health, research ethics, and research in African American, Asians, Latino, American Indian, and other vulnerable populations. Providing a unified framework on the principles and applications of the science of health disparities research, this important volume: Defines the field of health disparities science and suggests new directions in scholarship and research Explains basic definitions, principles, and concepts for identifying, understanding and addressing health disparities Provides guidance on both conducting health disparities research and translating the results Examines how social, historical and contemporary injustices may influence the health of racial and ethnic minorities Illustrates the increasing national and global importance of addressing health disparities Discusses population health training, capacity-building, and the transdisciplinary tools needed to advance health equity A significant contribution to the field, The Science of Health Disparities Research is an essential resource for students and basic and clinical researchers in genetics, population genetics, and public health, health care policymakers, and epidemiologists, medical students, and clinicians, particularly those working with minority, vulnerable, or underserved populations. |
| basic science vs translational research: The Handbook of Behavior Change Martin S. Hagger, Linda D. Cameron, Kyra Hamilton, Nelli Hankonen, Taru Lintunen, 2020-07-15 Social problems in many domains, including health, education, social relationships, and the workplace, have their origins in human behavior. The documented links between behavior and social problems have compelled governments and organizations to prioritize and mobilize efforts to develop effective, evidence-based means to promote adaptive behavior change. In recognition of this impetus, The Handbook of Behavior Change provides comprehensive coverage of contemporary theory, research, and practice on behavior change. It summarizes current evidence-based approaches to behavior change in chapters authored by leading theorists, researchers, and practitioners from multiple disciplines, including psychology, sociology, behavioral science, economics, philosophy, and implementation science. It is the go-to resource for researchers, students, practitioners, and policy makers looking for current knowledge on behavior change and guidance on how to develop effective interventions to change behavior. |
| basic science vs translational research: The Vanishing Physician-Scientist? Andrew I. Schafer, 2011-06-15 Throughout history, physicians have played a vital role in medical discovery. These physician-scientists devote the majority of their professional effort to seeking new knowledge about health and disease through research and represent the entire continuum of biomedical investigation. They bring a unique perspective to their work and often base their scientific questions on the experience of caring for patients. Physician-scientists also effectively communicate between researchers in the pure sciences and practicing health care providers. Yet there has been growing concern in recent decades that, due to complex changes, physician-scientists are vanishing from the scene. In this book, leading physician-scientists and academic physicians examine the problem from a variety of perspectives: historical, demographic, scientific, cultural, sociological, and economic. They make valuable recommendations that—if heeded—should preserve and revitalize the community of physician-scientists as the profession continues to evolve and boundaries between doctors and researchers shift. |
| basic science vs translational research: Toward Precision Medicine National Research Council, Division on Earth and Life Studies, Board on Life Sciences, Committee on A Framework for Developing a New Taxonomy of Disease, 2012-01-16 Motivated by the explosion of molecular data on humans-particularly data associated with individual patients-and the sense that there are large, as-yet-untapped opportunities to use this data to improve health outcomes, Toward Precision Medicine explores the feasibility and need for a new taxonomy of human disease based on molecular biology and develops a potential framework for creating one. The book says that a new data network that integrates emerging research on the molecular makeup of diseases with clinical data on individual patients could drive the development of a more accurate classification of diseases and ultimately enhance diagnosis and treatment. The new taxonomy that emerges would define diseases by their underlying molecular causes and other factors in addition to their traditional physical signs and symptoms. The book adds that the new data network could also improve biomedical research by enabling scientists to access patients' information during treatment while still protecting their rights. This would allow the marriage of molecular research and clinical data at the point of care, as opposed to research information continuing to reside primarily in academia. Toward Precision Medicine notes that moving toward individualized medicine requires that researchers and health care providers have access to very large sets of health- and disease-related data linked to individual patients. These data are also critical for developing the information commons, the knowledge network of disease, and ultimately the new taxonomy. |
| basic science vs translational research: Translational Research and Applied Psychology in India Kamlesh Singh, Suman Sigroha, 2019-07-15 This edited volume presents indigenous research strategies for bringing about substantial improvement in psychological and socio-cultural empowerment of Indian citizens in various contexts. |
| basic science vs translational research: Animal and Translational Models for CNS Drug Discovery Robert A. McArthur, Franco Borsini, 2008-11-27 Animal and Translational Models for CNS Drug Discovery combines the experience of academic, clinical and pharmaceutical neuroscientists in a unique collaborative approach to provide a greater understanding of the relevance of animal models of neuropsychiatric disorders and their role as translational tools for the discovery of CNS drugs being developed for the treatment of these disorders. The focus of this three-volume series of essays is to present a consensual picture of the translational value of animal models from leading experts actively involved in the use of animal models for understanding fundamental neurobiology of CNS disorders and the application of this knowledge to CNS drug discovery, and clinical investigators involved in clinical trials, drug development and eventual registration of novel pharmaceuticals. Each volume of the Animal and Translational Models for CNS Drug Discovery series is dedicated to the development and use of animal models in key therapeutic areas in psychiatric, neurologic and reward deficit disorders. Each volume has introductory chapters expressing the view of the role and relevance of animal models for CNS drug discovery and development from the perspective of (a) academic basic neuroscientific research, (b) applied pharmaceutical drug discovery and development, and (c) issues of clinical trial design and regulatory agencies limitations. Each volume examines the rationale, use, robustness and limitations of animal models in relevant therapeutic areas and discusses the use of animal models for target identification and validation. The clinical relevance of animal models is discussed in terms of major limitations in cross-species comparisons, clinical trial design of drug candidates, and how clinical trial endpoints could be improved. The aim of this series of volumes on Animal and Translational Models for CNS Drug Discovery is to identify and provide common endpoints between species that can serve to inform both the clinic and the bench with the information needed to accelerate clinically-effective CNS drug discovery. - Provides clinical, academic, government and industry perspectives fostering integrated communication between principle participants at all stages of the drug discovery process - Critical evaluation of animal and translational models improving transition from drug discovery and clinical development - Emphasizes what results mean to the overall drug discovery process - Explores issues in clinical trial design and conductance in each therapeutic area - Each volume is available for purchase individually. |
| basic science vs translational research: The Belmont Report United States. National Commission for the Protection of Human Subjects of Biomedical and Behavioral Research, 1978 |
| basic science vs translational research: Translational Biomedical Informatics Bairong Shen, Haixu Tang, Xiaoqian Jiang, 2016-10-31 This book introduces readers to essential methods and applications in translational biomedical informatics, which include biomedical big data, cloud computing and algorithms for understanding omics data, imaging data, electronic health records and public health data. The storage, retrieval, mining and knowledge discovery of biomedical big data will be among the key challenges for future translational research. The paradigm for precision medicine and healthcare needs to integratively analyze not only the data at the same level – e.g. different omics data at the molecular level – but also data from different levels – the molecular, cellular, tissue, clinical and public health level. This book discusses the following major aspects: the structure of cross-level data; clinical patient information and its shareability; and standardization and privacy. It offers a valuable guide for all biologists, biomedical informaticians and clinicians with an interest in Precision Medicine Informatics. |
| basic science vs translational research: Molecular Biology of the Cell , 2002 |
| basic science vs translational research: Research and Networks for Decision Support in the NOAA Sectoral Applications Research Program National Research Council, Division of Behavioral and Social Sciences and Education, Committee on the Human Dimensions of Global Change, Panel on Design Issues for the NOAA Sectoral Applications Research Program, 2007-11-02 This study recommends a definition of decision support that emphasizes communication rather than translation and a strategy by which the small NOAA Sectoral Applications Research program can advance decision support. The book emphasizes that seasonal climate forecasts provide fundamentally new kinds of information and that integrating this information into real-world decisions will require social innovations that are not easily accomplished. It recommends that the program invest in (a) research to identify and foster the innovations needed to make information about climate variability and change more usable in specific sectors, including research on the processes that influence success or failure in the creation of knowledge-action networks for making climate information; (b) workshops to identify, catalyze, and assess the potential of knowledge-action networks in particular resource areas or decision domains; and (c) pilot projects to create or enhance these networks for supporting decisions in climate-affected sectors. It recommends that evaluation of the program be addressed with a monitoring approach. |
为什么说以Basic作为入门语言会变成脑残? - 知乎
Dijkstra说的这个basic是上古时期的basic,参考小霸王上的basic。其中充斥着GOTO,每行必须有行号,行号满了就不能插入,变量命名受限,没有指针和动态内存分配,有很多使其无法胜任 …
base,basic,basis这个三个词怎么区分? - 知乎
Aug 7, 2020 · basic(尤指作为发展的起点)基本的,初步的,如: 6. He doesn't have mastery of the basic skills of reading, writing and communicating. 他还没掌握基本的读写和交流技巧。【 …
为什么10年前风靡一时的Basic系列语言如今已经很少见到了? - 知乎
BASIC 这个语言派系的发展,成也 VB 败也 VB。 因为 VB 选择的赛道太讨巧(在当时,也就是世纪交汇那阵,属于先进的 PC 端 GUI 编程),导致各种各样不是初学者的专业开发者都来使 …
excel2021visual basic打开是灰色的怎么办? - 知乎
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一文了解Transformer全貌(图解Transformer) - 知乎
Jan 21, 2025 · Transformer整体结构(输入两个单词的例子) 为了能够对Transformer的流程有个大致的了解,我们举一个简单的例子,还是以之前的为例,将法语"Je suis etudiant"翻译成英 …
为什么叫.NET?它和C#是什么关系? - 知乎
一门全新的编程语言Visual Basic .Net。 其全面沿袭了Visual Basic的语法,但是只能跑在.Net Framework这个运行时之上。 愿意是吸引庞大的VB开发者,但是实际上是一个除了语法像VB …
打开word时显示microsoft visual basic运行时错误没有注册类怎么 …
前面有答案提到的禁用COM加载项,这个可以一试,但更可能的是中了类似宏病毒的招,感染了启动模板文件,但由于缺少代码需要的引用文件,比如scrrun.dll,代码无法运行于是报错。
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两盘位basic:存放电影,下载,电脑备份等非重要数据。 可扩展一盘位usb外接(可以用电脑替代,更理想情况是有第二台nas):使用套件做最重要的数据定期同步或备份,电影种子,basic …
WPS打开时,老是跳出 微软 自定义项安装程序? - 知乎
知乎,中文互联网高质量的问答社区和创作者聚集的原创内容平台,于 2011 年 1 月正式上线,以「让人们更好的分享知识、经验和见解,找到自己的解答」为品牌使命。知乎凭借认真、专业 …
如何origin在一个图中画两条线,比如这种? - 知乎
导入数据到各个列中,全选数据后,点击 Origin 工具栏上的 Plot ——> Basic 2D ——> Line + Symbol 或者 点击 Origin 下边快捷图标 ,如下图所示 Origin 就会自动绘制两条数据线,如下图 …
