Biotech Juggernaut: Hope, Hype, and Hidden Agendas of Entrepreneurial BioScience relates the intensifying effort of bioentrepreneurs to apply genetic engineering technologies to the human species and to extend the commercial reach of synthetic biology or "extreme genetic engineering." In 1980, legal developments concerning patenting laws transformed scientific researchers into bioentrepreneurs. Often motivated to create profit-driven biotech start-up companies or to serve on their advisory boards, university researchers now commonly operate under serious conflicts of interest. These conflicts stand in the way of giving full consideration to the social and ethical consequences of the technologies they seek to develop. Too often, bioentrepreneurs have worked to obscure how these technologies could alter human evolution and to hide the social costs of keeping on this path. Tracing the rise and cultural politics of biotechnology from a critical perspective, Biotech Juggernaut aims to correct the informational imbalance between producers of biotechnologies on the one hand, and the intended consumers of these technologies and general society, on the other. It explains how the converging vectors of economic, political, social, and cultural elements driving biotechnology’s swift advance constitutes a juggernaut. It concludes with a reflection on whether it is possible for an informed public to halt what appears to be a runaway force.
During development cells and tissues undergo changes in pattern and form that employ a wider range of physical mechanisms than at any other time in an organism's life. This book shows how physics can be used to analyze these biological phenomena. Written to be accessible to both biologists and physicists, major stages and components of the biological development process are introduced and then analyzed from the viewpoint of physics. The presentation of physical models requires no mathematics beyond basic calculus. Physical concepts introduced include diffusion, viscosity and elasticity, adhesion, dynamical systems, electrical potential, percolation, fractals, reaction-diffusion systems, and cellular automata. With full-color figures throughout, this comprehensive textbook teaches biophysics by application to developmental biology and is suitable for graduate and upper-undergraduate courses in physics and biology.
Cartilage plays diverse roles as a definitive supporting tissue in some organs, the basis of low friction surfaces in joints, and a transient morphogenetic template during embryogenesis and repair of the skeleton. The versatility of cartilage is derived from the remarkable material properties of its extracellular matrix, the wide spectrum of regulatory systems that influence the synthesis and degradation of the unique molecular constituents of this matrix, and the development and growth of the cells that produce it. This book touches on each of these areas and provides the first comprehensive reviews of the molecular biology of the genes specifying the collagenous and noncollagenous proteins of the cartilage matrix, as well as the biophysical-chemical properties of the matrix that suits it to the various functions it performs. Up-to-date critical reviews of the mineralization and degradation of cartilage matrix, the roles of polypeptide growth and inducing factors, of ions, in the regulation of cartilage growth and development, and the unique requirements of the energy metabolism of cartilage as a nonvascular tissue, make this volume a useful source for concepts and results for the multiple disciplines that play a part in modern cartilage research.
This text will help students integrate and understand the large body of information typically covered in a year-long course in organic chemistry. It can be used as a supplement to discussions in class and the required textbook. Guiding students to focus on skills and tools, Basic Skill for Organic Chemistry: A Tool Kit, fosters the development of conceptual skills that can help minimize the need to memorize specific material.
Drawing on a multidisciplinary team of experts, The Lyotard Dictionary provides a clear and accessible introduction to all of his main concepts, contextualising these within his work as a whole and relating him to his contemporaries.
A Doody's Core Title for 2023! The #1 Textbook in Pharmacotherapy providing optimal patient outcomes using evidence-based medication therapies—updated with the latest advances and guidelines For more than 30 years, DiPiro’s Pharmacotherapy has been the essential textbook for learning how to properly select, administer, and monitor drugs―everything needed to provide safe, effective drug therapy across all therapeutic categories. This new edition has been fully updated with the latest evidence-based information and recommendations. With content from 300 expert contributors, this valuable resource offers detailed descriptions of common and uncommon disease states, including treatment by pharmacologic and non-pharmacologic means. Each disease chapter opens with a Patient Care Process, helping readers understand the collaborative care model in which pharmacists work and communicate with other healthcare providers for effective coordinated care. Here's why DiPiro's Pharmacotherapy: A Pathophysiologic Approach is the perfect learning tool for students, pharmacists, and other healthcare providers: All chapters provide the most current, reliable, and relevant information available Key concepts are included at the beginning of each chapter Clinical Presentation boxes concisely outline disease signs and symptoms New: Beyond the Book feature points readers to multimedia resources to deepen their understanding of the material Diagnostic flow diagrams, treatment algorithms, dosing guideline recommendations, and monitoring approaches clearly distinguish treatment pathways New: Drug monitoring tables have been added Patient care process boxes help readers know how to communicate with other health care providers New: Additional FREE E-Chapters are available on AccessPharmacy New: Over 2000 Review Questions to help prepare students!
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