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Though first a doctor who treated patients, the author became a professor, questioning facts (researching), exciting students (teaching), borrowing ideas (from the breadth of science, statistics, technology, engineering and medicine), and challenging 'how it all works'. Though beginning gently, the question in the book eventually leads fiercely into how research, teaching, practice and service really occur, and to ferocious challenges both inside academia and out in society.It is hoped that this double-ferocity will be useful: to students wondering about their futures; to physician and scientist parents looking at the possibility of their children following them; to all parents and grandparents worrying about the careers of all offspring; to anyone interested in the processes of discovery, teaching, and service; and for everyone, concerned about the wider implications for education and for society.
Though first a doctor who treated patients, the author became a professor, questioning facts (researching), exciting students (teaching), borrowing ideas (from the breadth of science, statistics, technology, engineering and medicine), and challenging 'how it all works'. Though beginning gently, the question in the book eventually leads fiercely into how research, teaching, practice and service really occur, and to ferocious challenges both inside academia and out in society.It is hoped that this double-ferocity will be useful: to students wondering about their futures; to physician and scientist parents looking at the possibility of their children following them; to all parents and grandparents worrying about the careers of all offspring; to anyone interested in the processes of discovery, teaching, and service; and for everyone, concerned about the wider implications for education and for society.
Regarded by many as a dead or simply dull subject, Change and Challenge in Human Structure — Sixty Years On shatters this prejudice with a series of studies that go beyond dissection and measurement and covers novel approaches to anatomical form. Award-winning anatomist Charles Oxnard takes us on an exhilarating ride: beginning with rudimentary dissections and the fascinating observation of 'missing muscles', we are led on naturally to statistical analysis of bone measurements and how they may give information about bone function. Engineering methods and pattern recognition are introduced next, as a means of studying the external shape and internal structure of bones, respectively, and their relation to mechanical function. The application of landmark analysis to anatomy, also known as geometric morphometrics, is given a full chapter treatment. Finally, Oxnard uses modelling techniques to skilfully lay out an argument for the uniqueness of human brains and new possibilities in human evolutionary theories, both past and future. This book offers nothing less than a paradigm shift in our understanding of one of the oldest fields of science, and leads us into new views of the functional, developmental, behavioural, genetic and evolutionary implications of anatomical studies.
Essay from the year 2018 in the subject Medicine - Biomedical Engineering, grade: A, , course: Medical Biotechnology, language: English, abstract: This paper exclusively deals with medical biotechnology, which is the fusion of genetics, molecular biology and a number of other disciplines in biology to bring about advancements in medicine and health-science. There have been great advancements in the field of medical biotechnology due to the inculcation of new technique and practices such as PCR, cell cultures, recombinant DNA technology .etc. As the world is looking up to medical biotechnology to improve the lives and health of individuals in the coming years, we embark on a journey to explore some of the upcoming medical advancements offered by medical biotechnology. Some advancements being brought about in medical biotechnology have the ability to revolutionaries health-science in a manner we could have never imagined. Two such advancements in medical biotechnology that we will be exploring in this text include; the use of stem cells for regenerative medicine and the use of monoclonal anti-bodies for specific antibody-antigen response.
Just as the health costs of aging threaten to bankrupt developed countries, this book makes the scientific case that a biological "bailout" could be on the way, and that human aging can be different in the future than it is today. Here 40 authors argue how our improving understanding of the biology of aging and selected technologies should enable the successful use of many different and complementary methods for ameliorating aging, and why such interventions are appropriate based on our current historical, anthropological, philosophical, ethical, evolutionary, and biological context. Challenging concepts are presented together with in-depth reviews and paradigm-breaking proposals that collectively illustrate the potential for changing aging as never before. The proposals extend from today to a future many decades from now in which the control of aging may become effectively complete. Examples include sirtuin-modulating pills, new concepts for attacking cardiovascular disease and cancer, mitochondrial rejuvenation, stem cell therapies and regeneration, tissue reconstruction, telomere maintenance, prevention of immunosenescence, extracellular rejuvenation, artificial DNA repair, and full deployment of nanotechnology. The Future of Aging will make you think about aging differently and is a challenge to all of us to open our eyes to the future therapeutic potential of biogerontology.
Many people today deny the idea of Human Change (especially when the word 'evolution' is used). Many others, accepting that we have changed in the past, do not see change as still occurring. My ideas (challenges) are: not only that we are still changing, but that we are changing ever more rapidly, and in new ways.Is Homo sapiens (vainly named, wise human) already in the process of becoming Homo sapientior (wiser human)? Can we expect further change to Homo sapientissimus (wisest human)? Or do we have to fear regression to Homo nerdensis?The seven Ideas of my title cover: Sex, yesterday, today and tomorrow; Gender: women's struggles (and men's); Particularly Dangerous Ideas: Race and Ethnicity, Kin and Ancestors; Ideas on Aging: Life Span, Mortality and Death; Ideas about the Brain: changed, changing and unique; Failure of Ideas: Cheating, Damned Cheating and 'Chorruption'; My Mistakes: Ideas I missed.
Quantitative Research in Human Biology and Medicine reflects the author's past activities and experiences in the field of medical statistics. The book presents statistical material from a variety of medical fields. The text contains chapters that deal with different aspects of vital statistics. It provides statistical surveys of perinatal mortality rate; epidemiology of various diseases, like cancer, tuberculosis, malaria, diphtheria, and scarlatina; and discussions of various aspects of human biology such as growth and development, genetics, and nutrition. The inheritance of mental qualities; the law governing multiple births; and historical demography are covered as well. Medical statisticians and physicians will find the book interesting.
This edited collection examines the ethical, legal, social and policy implications of genome editing technologies. Moreover, it offers a broad spectrum of timely legal analysis related to bringing genome editing to the market and making it available to patients, including addressing genome editing technology regulation through procedures for regulatory approval, patent law and competition law. In twelve chapters, this volume offers persuasive arguments for justifying transformative regulatory interventions regarding human genome editing, as well as the various legal venues for introducing necessary or desirable changes needed to create an environment for realizing the potential of genome editing technology for the benefit of patients and society.