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Addresses measurements in new fields such as cellular and molecular biology. Equips readers with the necessary background in electric circuits. Statistical coverage shows how to determine trial sizes.
This is the eBook version of the print title. The eBook edition does not provide access to the content of the CD ROMs that accompanies the print book. Bringing the power of virtual instrumentation to the biomedical community. Applications across diverse medical specialties Detailed design guides for LabVIEW and BioBench applications Hands-on problem-solving throughout the book Laboratory, clinical, and healthcare applications Numerous VI's with source code, plus several demos, are available on the book's web site Virtual instrumentation allows medical researchers and practitioners to combine the traditional diagnostic tools with advanced technologies such as databases, Active X, and the Internet. In both laboratory and clinical environments, users can interact with a wealth of disparate systems, facilitating better, faster, and more informed decision making. Virtual Bio-Instrumentation: Biomedical, Clinical, and Healthcare Applications in LabVIEW is the first book of its kind to apply VI technology to the biomedical field. Hands-on problems throughout the book demonstrate immediate practical uses Examples cover a variety of medical specialties Detailed design instructions give the inside view of LabVIEW and BioBench applications Both students and practicing professionals will appreciate the practical applications offered for modeling fundamental physiology, advanced systems analysis, medical device development and testing, and even hospital management and clinical engineering scenarios.
This book is a comprehensive, focused resource on intraoperative neurophysiological monitoring (IOM). This rapidly evolving field has created a demand for an up-to-date book such as this that builds on foundational concepts necessary to the practice of IOM in the context of anatomy and physiology. Each chapter is designed to not only inform the reader, but to also test the reader on the information presented - therefore promoting practical, problem-based learning. Surpassing the quality of its successful predecessor, Principles of Neurophysiological Assessment, Mapping, and Monitoring, Second Edition, is positioned to suit the needs of residents and fellows studying for the IOM certificate programs, physicians and anesthesiologists practicing IOM, and neurotechnologists both experienced and in training.
This short book provides basic information about bioinstrumentation and electric circuit theory. Many biomedical instruments use a transducer or sensor to convert a signal created by the body into an electric signal. Our goal here is to develop expertise in electric circuit theory applied to bioinstrumentation. We begin with a description of variables used in circuit theory, charge, current, voltage, power and energy. Next, Kirchhoff's current and voltage laws are introduced, followed by resistance, simplifications of resistive circuits and voltage and current calculations. Circuit analysis techniques are then presented, followed by inductance and capacitance, and solutions of circuits using the differential equation method. Finally, the operational amplifier and time varying signals are introduced. This lecture is written for a student or researcher or engineer who has completed the first two years of an engineering program (i.e., 3 semesters of calculus and differential equations). A considerable effort has been made to develop the theory in a logical manner--developing special mathematical skills as needed. At the end of the short book is a wide selection of problems, ranging from simple to complex.
Review of electronic devices. Operational amplifiers and instrumentation amplifiers. Linear systems theory. Origin of biopotentials. human biopotentials. Signals and noise in biological systems. Biopotential electrodes. Ion-sensitive, potentiometric, and amperometric electrodes. Mechanical transducers. Temperature transducers. Light and spectrophotometry. Measurement of liquid and gas flows. Analog linearization. Review of digital electronic devices. Talking to computers. Interfacing computers to the outside world. Digital signal processing. Safety in bioinstrumentation. Data sheets.
Bioinstrumentation deals with the instrumentation techniquesand principles used for measuring physical, physiological,biochemical and biological factors in man or other livingorganisms. This book provides a comprehensive knowledgeabout the basic principles and applications of the tools andtechniques generally used in biology and also those used in thegrowing field of molecular biology. This book will prove to be adependable reference book for students and teachers ofbiological sciences.
Tissue engineering involves seeding of cells on bio-mimicked scaffolds providing adhesive surfaces. Researchers though face a range of problems in generating tissue which can be circumvented by employing nanotechnology. It provides substrates for cell adhesion and proliferation and agents for cell growth and can be used to create nanostructures and nanoparticles to aid the engineering of different types of tissue. Written by renowned scientists from academia and industry, this book covers the recent developments, trends and innovations in the application of nanotechnologies in tissue engineering and regenerative medicine. It provides information on methodologies for designing and using biomaterials to regenerate tissue, on novel nano-textured surface features of materials (nano-structured polymers and metals e.g.) as well as on theranostics, immunology and nano-toxicology aspects. In the book also explained are fabrication techniques for production of scaffolds to a series of tissue-specific applications of scaffolds in tissue engineering for specific biomaterials and several types of tissue (such as skin bone, cartilage, vascular, cardiac, bladder and brain tissue). Furthermore, developments in nano drug delivery, gene therapy and cancer nanotechonology are described. The book helps readers to gain a working knowledge about the nanotechnology aspects of tissue engineering and will be of great use to those involved in building specific tissue substitutes in reaching their objective in a more efficient way. It is aimed for R&D and academic scientists, lab engineers, lecturers and PhD students engaged in the fields of tissue engineering or more generally regenerative medicine, nanomedicine, medical devices, nanofabrication, biofabrication, nano- and biomaterials and biomedical engineering. - Provides state-of-the-art knowledge on how nanotechnology can help tackling known problems in tissue engineering - Covers materials design, fabrication techniques for tissue-specific applications as well as immunology and toxicology aspects - Helps scientists and lab engineers building tissue substitutes in a more efficient way