How can organizations and their managers face the tremendous complexity of the current environment? How can their compliance with the requirements of sustainability be evaluated? And how can new organizations be structured to ensure their viability? This book addresses these questions in a very practical way, essentially combining systems theory with cybernetics to help managers to evaluate and shape organizations by making accessible the wealth of knowledge contained in these fields. Importantly, it also provides guidelines for its practical application.
This narrative of a cancer researcher spans a period in which biomedicine research has been so revolutionary. The educational background and socioeconomic circumstances of the author make the story unique, shedding light on many important intellectual achievements. The author also provides an insightful view on how decisions at the upper echelon of scientific institutions affect cancer researchers. The vivid account of scientific discovery and intellectual evolution provides a fine example for the next generation of cancer researchers.
Intended for graduates and researchers in physics, chemistry, biology, and applied mathematics, this book provides an up-to-date introduction to current research in fluctuations in spatially extended systems. It covers the theory of stochastic partial differential equations and gives an overview of the effects of external noise on dynamical systems with spatial degrees of freedom. Starting with a general introduction to noise-induced phenomena in dynamical systems, the text moves on to an extensive discussion of analytical and numerical tools needed to gain information from stochastic partial differential equations. It then turns to particular problems described by stochastic PDEs, covering a wide part of the rich phenomenology of spatially extended systems, such as nonequilibrium phase transitions, domain growth, pattern formation, and front propagation. The only prerequisite is a minimal background knowledge of the Langevin and Fokker-Planck equations.
The pioneering guide on the design, processing, and testing of antimicrobial plastic materials and coatings The manifestation of harmful microbes in plastic materials used in medical devices and drugs, water purification systems, hospital equipment, textiles, and food packaging pose alarming health threats to consumers by exposing them to many serious infectious diseases. As a result, high demand for intensifying efforts in the R&D of antimicrobial polymers has placed heavy reliance on both academia and industry to find viable solutions for producing safer plastic materials. To assist researchers and students in this endeavor, Antimicrobial Polymers explores coupling contaminant-deterring biocides and plastics—focusing particular attention on natural biocides and the nanofabrication of biocides. Each chapter is devoted to addressing a key technology employed to impart antimicrobial behavior to polymers, including chemical modification of the polymers themselves. A host of relevant topics, such as regulatory matters, human safety, and environmental risks are covered to help lend depth to the book's vital subject matter. In addition, Antimicrobial Polymers: Discusses the design, processing, and testing of antimicrobial plastic materials Covers interdisciplinary areas of chemistry and microbiology Includes applications in food packaging, medical devices, nanotechnology, and coatings Details regulations from the U.S. (FDA and EPA) and EU as well as human safety and environmental concerns Achieving cleaner and more effective methods for improving the infection-fighting properties of versatile and necessary plastic materials is a goal that stretches across many scientific fields. Antimicrobial Polymers combines all of this information into one volume, exposing readers to preventive strategies that harbor vast potential for making exposure to polymeric products and surfaces a far less risky undertaking in the future.
This book offers a practical approach to the histologic analysis of a wide range of melanocytic skin lesions, including various nevi and different forms of melanoma, as well as pigmented non-melanocytic lesions. In addition, sentinel node biopsy findings and the use of special ancillary studies are covered in detail. Each chapter presents illustrative cases that document the route to correct diagnosis. An important feature of the book is the clinical-pathologic correlation of challenging melanocytic tumors; accordingly, it will appeal not only to pathologists (general surgical pathologists and dermatopathologists) but also to dermatologists (including dermatopathologists). The book contains some 250 color photos as well as tables and algorithms designed to assist in the diagnosis of difficult cases.
This book discusses optical technologies for Diabetic Foot management. It combines the current medical literature review with an overview of the technology and physics behind it. Thus, it is a single-source introduction to the topic. It can also be used as a reference source and practical guide for the use of technology. The particular focus is on low-cost technologies, including hyperspectral imaging, thermography, and endogenous bacterial fluorescence. Moving diagnostic modalities closer to the patient (e.g., primary care) allows the disease to be detected at an earlier stage, thus improving outcomes. However, while some optical technologies are available commercially, they have not received wide clinical adoption due to gaps in knowledge translation to mainstream medicine. This book aims to narrow this gap with practical illustrations. The book will be of interest to a broad range of healthcare professionals, clinical researchers, engineers, and decision-makers, who are dealing with complications of diabetes. Key Features: Reviews the current state of technologies. Provides a practical guide with practical considerations and illustrations. Supplies a 360-degree view of the combination of clinical information with a technology background and primers on physics and engineering.
This pocket book succinctly describes 318 errors commonly made by attendings, residents, interns, nurses, and nurse-anesthetists in the intensive care unit, and gives practical, easy-to-remember tips for avoiding these errors. The book can easily be read immediately before the start of a rotation or used for quick reference on call. Each error is described in a short, clinically relevant vignette, followed by a list of things that should always or never be done in that context and tips on how to avoid or ameliorate problems. Coverage includes all areas of ICU practice except the pediatric intensive care unit.
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Implement a comprehensive, integrated application platform Take full advantage of the power, flexibility, and adaptability of SAP -- the premier solution for service-based, enterprise-scale business processes. SAP R/3 Handbook, Third Edition offers complete coverage of installation, implementation, operation, and support. You'll get full details on all the components, including SAP Web Application Server, SAP NetWeaver, the ABAP workbench, and more. Administration, security, and integration with other systems is also covered. ESSENTIAL SKILLS FOR SAP TECHNICAL CONSULTANTS Get an overview of SAP business, integration, and collaboration solutions Understand SAP Web Application Server architecture Get details on the SAP NetWeaver platform Access SAP systems through the SAP presentation interface Use the ABAP workbench development environment Handle system administration and implement security Manage system-wide changes with the Transport Management System (TMS) Analyze performance and troubleshoot SAP solutions
Rapid advancements in cardiac electrophysiology require today’s health care scientists and practitioners to stay up to date with new information both at the bench and at the bedside. The fully revised 7th Edition of Cardiac Electrophysiology: From Cell to Bedside, by Drs. Douglas Zipes, Jose Jalife, and William Stevenson, provides the comprehensive, multidisciplinary coverage you need, including the underlying basic science and the latest clinical advances in the field. An attractive full-color design features color photos, tables, flow charts, ECGs, and more. All chapters have been significantly revised and updated by global leaders in the field, including 19 new chapters covering both basic and clinical topics. New topics include advances in basic science as well as recent clinical technology, such as leadless pacemakers; catheter ablation as a new class I recommendation for atrial fibrillation after failed medical therapy; current cardiac drugs and techniques; and a new video library covering topics that range from basic mapping (for the researcher) to clinical use (implantations). Each chapter is packed with the latest information necessary for optimal basic research as well as patient care, and additional figures, tables, and videos are readily available online. New editor William G. Stevenson, highly regarded in the EP community, brings a fresh perspective to this award-winning text. Expert Consult eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, images, videos (including video updates), glossary, and references from the book on a variety of devices.
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