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Peterson's(R) Graduate Programs in the Biological/Biomedical Sciences & Health-Related Medical Professions 2021 contains profiles of more than 6,500 graduate programs at over 1,000 institutions in the biological/biomedical sciences and health-related medical professions. Informative data profiles are included for these graduate programs in every available discipline in the biological and biomedical sciences and health-related medical professions, including facts and figures on accreditation, degree requirements, application deadlines and contact information, financial support, faculty, and student body profiles. Two-page in-depth descriptions, written by featured institutions, offer complete details on specific graduate program, school, or department as well as information on faculty research and the college or university. Comprehensive directories list programs in this volume, as well as others in the graduate series.
"Biomedical Graduate School: A Planning Guide to the Admissions Process is an indispensable resource for college students aspiring to a PhD or MD-PhD. It helps students identify the structure of advanced degree programs and how these degrees can enhance their potential career options. The book discusses how students can optimize selection of academic courses, research experiences, and extracurricular activities during their undergraduate education to make them more competitive candidates for graduate and medical school programs. It guides students through the many facets of the admissions process, including criteria for selecting where to apply, how to prepare an application that maximizes their academic credentials, how to prepare for the interview process, how faculty evaluate applicants, and how to utilize a rational process to select a graduate school or medical school that will enable students to meet their academic goals." -- Back cover.
This book focuses on advances made in both materials science and scaffold development techniques, paying close attention to the latest and state-of-the-art research. Chapters delve into a sweeping variety of specific materials categories, from composite materials to bioactive ceramics, exploring how these materials are specifically designed for regenerative engineering applications. Also included are unique chapters on biologically-derived scaffolding, along with 3D printing technology for regenerative engineering. Features: Covers the latest developments in advanced materials for regenerative engineering and medicine. Each chapter is written by world class researchers in various aspects of this medical technology. Provides unique coverage of biologically derived scaffolding. Includes separate chapter on how 3D printing technology is related to regenerative engineering. Includes extensive references at the end of each chapter to enhance further study.
Intro -- FrontMatter -- Reviewers -- Foreword -- Acknowledgments -- Contents -- Boxes, Figures, and Tables -- Summary -- 1 Introduction -- 2 Background on the Pipeline to the Physician Workforce -- 3 GME Financing -- 4 Governance -- 5 Recommendations for the Reform of GME Financing and Governance -- Appendix A: Abbreviations and Acronyms -- Appendix B: U.S. Senate Letters -- Appendix C: Public Workshop Agendas -- Appendix D: Committee Member Biographies -- Appendix E: Data and Methods to Analyze Medicare GME Payments -- Appendix F: Illustrations of the Phase-In of the Committee's Recommendations.
Did you ever wonder why you catch colds? Have you ever wanted to build a microscope? Then join Taq and Poly as they meet scientists of the past, present and future. Topics include: DNA, Nutrition, Anatomy, Microbiology, Careers in Science, Women in Science, and over seventeen different activities to try at home. Over 100 pages of fun science coloring and activity pages!
In the United States, broad study in an array of different disciplines â€"arts, humanities, science, mathematics, engineeringâ€" as well as an in-depth study within a special area of interest, have been defining characteristics of a higher education. But over time, in-depth study in a major discipline has come to dominate the curricula at many institutions. This evolution of the curriculum has been driven, in part, by increasing specialization in the academic disciplines. There is little doubt that disciplinary specialization has helped produce many of the achievement of the past century. Researchers in all academic disciplines have been able to delve more deeply into their areas of expertise, grappling with ever more specialized and fundamental problems. Yet today, many leaders, scholars, parents, and students are asking whether higher education has moved too far from its integrative tradition towards an approach heavily rooted in disciplinary "silos". These "silos" represent what many see as an artificial separation of academic disciplines. This study reflects a growing concern that the approach to higher education that favors disciplinary specialization is poorly calibrated to the challenges and opportunities of our time. The Integration of the Humanities and Arts with Sciences, Engineering, and Medicine in Higher Education examines the evidence behind the assertion that educational programs that mutually integrate learning experiences in the humanities and arts with science, technology, engineering, mathematics, and medicine (STEMM) lead to improved educational and career outcomes for undergraduate and graduate students. It explores evidence regarding the value of integrating more STEMM curricula and labs into the academic programs of students majoring in the humanities and arts and evidence regarding the value of integrating curricula and experiences in the arts and humanities into college and university STEMM education programs.
Recognize market opportunities, master the design process, and develop business acumen with this 'how-to' guide to medical technology innovation. Outlining a systematic, proven approach for innovation - identify, invent, implement - and integrating medical, engineering, and business challenges with real-world case studies, this book provides a practical guide for students and professionals.
Addresses the mental health challenges of graduate school and how students can succeed and thrive. With rates of depression and anxiety six times higher among graduate students than the general population, maintaining emotional wellbeing in graduate school is vital! Students must be prepared with skills that will not only help them perform well but also help them feel well. Thriving in Graduate School: The Expert's Guide to Success and Wellness is the first book on graduate student mental health written by mental health professionals. It promotes psychologically healthy approaches to navigating the graduate school experience and teaches students that they are not alone in their mental health struggles. The authors introduce students to unique perspectives that are key to positive mental health. Additionally, this is the only book of its type to explore issues routinely faced by historically marginalized graduate students. Special sections at the end of each chapter written for faculty, administrators, and mental health professionals augment the book by suggesting ways that each of these groups can help guide and support graduate students through their journey. Featuring vignettes and experiences from actual graduate students, Thriving in Graduate School sheds light on common—but hidden—truths to help students manage the many challenges they will face and even thrive during their graduate school years. Written with compassion and humor, this is a must read for prospective students and those who seek to support them.
Peterson's(R) Graduate Programs in the Biological/Biomedical Sciences & Health-Related Medical Professions 2020 contains profiles of more than 6,600 graduate programs at over 1,200 institutions in the biological/biomedical sciences and health-related medical professions. Informative data profiles are included for these graduate programs in every available discipline in the biological and biomedical sciences and health-related medical professions, including facts and figures on accreditation, degree requirements, application deadlines and contact information, financial support, faculty, and student body profiles. Two-page in-depth descriptions, written by featured institutions, offer complete details on specific graduate program, school, or department as well as information on faculty research and the college or university. Comprehensive directories list programs in this volume, as well as others in the graduate series.
Most people who do a PhD and postdoctoral work in the biomedical sciences do not end up as principal investigators in a research lab. Despite this, graduate courses and postdoctoral fellowships tend to focus almost exclusively on training for bench science rather than other career paths. This book plugs the gap by providing information about a wide variety of different careers that individuals with a PhD in the life sciences can pursue. Covering everything from science writing and grant administration to patent law and management consultancy, the book includes firsthand accounts of what the jobs are like, the skills required, and advice on how to get a foot in the door. It will be a valuable resource for all life scientists considering their career options and laboratory heads who want to give career advice to their students and postdocs.