- Table View
- List View
Biosensor Principles and Applications (Biotechnology And Bioprocessing Ser.)
by Pierre R. Coulet Loïc J. BlumConsiders a new generation of sensors for use in industrial processes, which measure the chemical environment directly by means of a biological agent mainly enzymes so far. Various specialists from Europe, the US, and Japan identify the device's place in their disciplines; review the principles of m
Biosensor Technology: Fundamentals and Applications
by Richard P. Buck William E. Hatfield Mirtha Umana Bowden Edmond F.This authoritative reference covers recent advances in the field, stressing an interdisciplinaryapproach to the development and use of biosensor technology in physics,engineering, analytical chemistry, and biochemistry (including immunochemistry).about the editors ...RICHARD P. BucK is a Professor in the Chemistry Department, University of Northcarolina, Chapel Hill. Professor Buck serves on the editorial boards of severaljournals including Analytical Instrumentation: Applications and Designs for Chemica~Biomedica~ and Environmental Science (Marcel Dekker, Inc.). He is a member of theAmerican Chemical Society, Electrochemical Society, and International Society ofElectrochemistry. He received the B.S. (1950) and M.S. (1951) degrees from thecalifornia Institute of Tochnology, Pasadena, and Ph.D. degree (1954) from theMassachusetts Institute of Tochnology, cambridge.W1WAM E. HATFIELD is Mary Ann Smith Professor and Vice Chairman of Chemistry,and Acting Chairman of the Curriculum in Applied Sciences, University of Northcarolina, Chapel Hill. He is the author or coauthor of over 300 publications, andcoeditor, with John H. Miller, Jr., of High-Temperature Superconducting Materials:Preparations, Properties, and Processing (Marcel Dekker, Inc.). He is a member of theAmerican Chemical Society, American Association for the Advancement of Science,and Materials Research Society. He received the B.S. (1958) and M.S. (1959) degreesfrom Marshall University, Huntington, West Virginia, Ph.D. degree (1962) from theUniversity of Arizona, Tucson, and completed postdoctoral research at the Universityof Illinois, Urbana.M1KTHA UMANA is an independent consultant to Glaxo Inc. and Research 'IriangleInstitute, Research 'Iriangle Park, and Duke University Engineering Research Center,Durham, North carolina. The coauthor of numerous scientific journal articles, herresearch interests include surface chemistry, electrochemistry, and biosensors. Shereceived the B.Sc. degree (1969) from the University of Chile, Santiago, and Ph.D.degree (1972) from the University of London, England.EDMOND E BowoEN is an Associate Professor in the Department of Chemistry andin the Biotechnology Program, North carolina State University, Raleigh. Thecoauthor of numerous journal articles, his research interests include bioelectrochemistry,biological electron transfer, biosensors, and surface chemistry. He receivedthe B.S. degree (1970) from Syracuse University, Syracuse, New York, and Ph.D.degree (1982) from Virginia Commonwealth University, Richmond.
Biosensor Technology: Fundamentals and Applications
by RICHARD P. BUCK, WILLIAM E. HATFIELD, MIRTHA UMAÑA and EDMOND F. BOWDENThis authoritative reference covers recent advances in the field, stressing an interdisciplinaryapproach to the development and use of biosensor technology in physics,engineering, analytical chemistry, and biochemistry (including immunochemistry).about the editors ...RICHARD P. BucK is a Professor in the Chemistry Department, University of Northcarolina, Chapel Hill. Professor Buck serves on the editorial boards of severaljournals including Analytical Instrumentation: Applications and Designs for Chemica~Biomedica~ and Environmental Science (Marcel Dekker, Inc.). He is a member of theAmerican Chemical Society, Electrochemical Society, and International Society ofElectrochemistry. He received the B.S. (1950) and M.S. (1951) degrees from thecalifornia Institute of Tochnology, Pasadena, and Ph.D. degree (1954) from theMassachusetts Institute of Tochnology, cambridge.W1WAM E. HATFIELD is Mary Ann Smith Professor and Vice Chairman of Chemistry,and Acting Chairman of the Curriculum in Applied Sciences, University of Northcarolina, Chapel Hill. He is the author or coauthor of over 300 publications, andcoeditor, with John H. Miller, Jr., of High-Temperature Superconducting Materials:Preparations, Properties, and Processing (Marcel Dekker, Inc.). He is a member of theAmerican Chemical Society, American Association for the Advancement of Science,and Materials Research Society. He received the B.S. (1958) and M.S. (1959) degreesfrom Marshall University, Huntington, West Virginia, Ph.D. degree (1962) from theUniversity of Arizona, Tucson, and completed postdoctoral research at the Universityof Illinois, Urbana.M1KTHA UMANA is an independent consultant to Glaxo Inc. and Research 'IriangleInstitute, Research 'Iriangle Park, and Duke University Engineering Research Center,Durham, North carolina. The coauthor of numerous scientific journal articles, herresearch interests include surface chemistry, electrochemistry, and biosensors. Shereceived the B.Sc. degree (1969) from the University of Chile, Santiago, and Ph.D.degree (1972) from the University of London, England.EDMOND E BowoEN is an Associate Professor in the Department of Chemistry andin the Biotechnology Program, North carolina State University, Raleigh. Thecoauthor of numerous journal articles, his research interests include bioelectrochemistry,biological electron transfer, biosensors, and surface chemistry. He receivedthe B.S. degree (1970) from Syracuse University, Syracuse, New York, and Ph.D.degree (1982) from Virginia Commonwealth University, Richmond.
Biosensors: Essentials (Lecture Notes in Chemistry #84)
by Gennady EvtugynToday, biosensors are broadly applied in research, clinical diagnosis and monitoring, as well as in pharmaceutical, environmental or food analysis. In this work, the author presents the essentials that advanced students and researchers need to know in order to make full use of this technology. This includes a description of biochemical recognitionelements, such as enzymes, antibodies, aptamers or even whole cells. Various signal transducers such as electrochemical and optical transducers, luminescence devices and advanced techniques such as quartz crystal microbalances and MEMS systems are covered as well. Current applications are introduced through various case studies, rounded out by a forward-looking chapter on the prospects for biosensor development offered by nanotechnology, lab-on-a-chip, and biomimetic systems.
Biosensors: An Introductory Textbook
by Jagriti Narang C.S. PundirNanotechnology is a budding field and has a pivotal role in sensing. Nanomaterials exist in various forms such as nanoparticles, nanoclusters, nanobelts, and nanospheres. These nanomaterials act as sensing interfaces and immobilization surfaces for various biomolecules such as enzymes, DNA, and antigens. Therefore, the preparation and characterization of these nanoparticles play an important role in sensing devices. This handbook has evolved from the authors’ teaching and research experience in the field of nanoparticle biosensing. It encompasses protocols for the synthesis of various forms of metal oxide nanoparticles; study of the various characterizing techniques that help deduce the shape, size, and morphology of these nanoparticles; and applications of these nanoparticles in the field of biosensors. It presents voltammetry techniques such as cyclic, linear wave, wave pulse, and differential pulse voltammetry, throws light on the interactions of nanomaterials and biomolecules, and discusses microfluidic devices, which due to their unique capability of miniaturization fascinate many researchers. It is a practical and user-friendly textbook that introduces the various basic principles and practical information that will help undergraduate and advanced-level students and researchers understand the science behind nanoscale sensing.
Biosensors: An Introductory Textbook
by Jagriti Narang C.S. PundirNanotechnology is a budding field and has a pivotal role in sensing. Nanomaterials exist in various forms such as nanoparticles, nanoclusters, nanobelts, and nanospheres. These nanomaterials act as sensing interfaces and immobilization surfaces for various biomolecules such as enzymes, DNA, and antigens. Therefore, the preparation and characterization of these nanoparticles play an important role in sensing devices. This handbook has evolved from the authors’ teaching and research experience in the field of nanoparticle biosensing. It encompasses protocols for the synthesis of various forms of metal oxide nanoparticles; study of the various characterizing techniques that help deduce the shape, size, and morphology of these nanoparticles; and applications of these nanoparticles in the field of biosensors. It presents voltammetry techniques such as cyclic, linear wave, wave pulse, and differential pulse voltammetry, throws light on the interactions of nanomaterials and biomolecules, and discusses microfluidic devices, which due to their unique capability of miniaturization fascinate many researchers. It is a practical and user-friendly textbook that introduces the various basic principles and practical information that will help undergraduate and advanced-level students and researchers understand the science behind nanoscale sensing.
Biosensors and Biochips (Learning Materials in Biosciences)
by Alberto PasquarelliThis textbook describes the basic principles and mechanism of action of biosensor systems, and introduces readers to the various types of biosensors; from affinity biosensors to catalytic, optical and label-free biosensors, the most common systems are explained in detail. Dedicated advanced sections focus on biochips and genome sequencing methods as well as organs-on-a-chip. The textbook helps readers to understand the elementary components of biosensors, and to identify and illustrate each function in the biosensor information flow, from recognition to transduction and transmission. Furthermore, readers will receive guidance in critically analyzing published studies on biosensor research, helping them to develop appropriate concepts and independently propose their own solutions. The textbook is intended for master’s students in bioengineering, biophysics, biotechnology and pharmacology that need a solid grasp of biosensor system technologies and applications, as well as students in related medical technological fields.
Biosensors and Biodetection: Methods and Protocols Volume 1: Optical-Based Detectors (Methods in Molecular Biology #503)
by Avraham Rasooly and Keith E. HeroldBiosensors combine biological recognition elements and signal conversion elements into a biodetection system. They have been developed for a wide variety of biodetection applications, offering the advantages of increased speed and ease of use compared to traditional detection methods. In Biosensors and Biodetection: Methods and Protocols, leading experts describe the major technologies in the field in extensive technical detail, allowing readers both to understand the technology and to construct similar devices. Volume 1: Optical-Based Detectors delves into direct and indirect optical detectors, including methods involving surface plasmon resonance, interferometric sensors, CCD based detectors, and spectrometers, among many other cutting-edge technologies. Written in the highly successful Methods in Molecular Biology™ series format, chapters include brief introductions to the subjects, lists of the necessary materials, step-by-step, readily reproducible protocols, and Notes sections, which highlight tips on troubleshooting and avoiding known pitfalls.Comprehensive and up-to-date, Biosensors and Biodetection: Methods and Protocols is an ideal, user-friendly guide to this vital, versatile technology and a perfect tool for those who wish to further the field.
Biosensors and Biodetection: Methods and Protocols Volume 2: Electrochemical and Mechanical Detectors, Lateral Flow and Ligands for Biosensors (Methods in Molecular Biology #504)
by Avraham Rasooly and Keith E. HeroldBiosensors combine biological recognition elements and signal conversion elements into a biodetection system. They have been developed for a wide variety of biodetection applications, offering the advantages of increased speed and ease of use compared to traditional detection methods. In Biosensors and Biodetection: Methods and Protocols, leading experts describe the major technologies in the field in extensive technical detail, allowing readers both to understand the technology and to construct similar devices. Volume 2: Electrochemical and Mechanical Detectors, Lateral Flow and Ligands for Biosensors focuses on direct measurement sensors, indirect methods, ligands, and related technologies, including methods involving electrochemical detectors, recognition ligands, antibodies, aptamers, and peptides, amongst many other subjects. Written in the highly successful Methods in Molecular Biology™ series format, chapters include brief introductions to the topics, lists of the necessary materials, step-by-step, readily reproducible protocols, and Notes sections, which highlight tips on troubleshooting and avoiding known pitfalls. Comprehensive and up-to-date, Biosensors and Biodetection: Methods and Protocols is an ideal, user-friendly guide to this vital, versatile technology and a perfect tool for those who wish to further the field.
Biosensors and Invasive Monitoring in Clinical Applications (SpringerBriefs in Applied Sciences and Technology)
by Emma P. Córcoles Martyn G. BoutelleThis volume examines the advances of invasive monitoring by means of biosensors and microdialysis. Physical and physiological parameters are commonly monitored in clinical settings using invasive techniques due to their positive outcome in patients’ diagnosis and treatment. Biochemical parameters, however, still rely on off-line measurements and require large pieces of equipment. Biosensing and sampling devices present excellent capabilities for their use in continuous monitoring of patients’ biochemical parameters. However, certain issues remain to be solved in order to ensure a more widespread use of these techniques in today’s medical practices.
Biosensors and Nanotechnology: Applications in Health Care Diagnostics
by Zeynep AltintasProvides a broad range of information from basic principles to advanced applications of biosensors and nanomaterials in health care diagnostics This book utilizes a multidisciplinary approach to provide a wide range of information on biosensors and the impact of nanotechnology on the development of biosensors for health care. It offers a solid background on biosensors, recognition receptors, biomarkers, and disease diagnostics. An overview of biosensor-based health care applications is addressed. Nanomaterial applications in biosensors and diagnostics are included, covering the application of nanoparticles, magnetic nanomaterials, quantum dots, carbon nanotubes, graphene, and molecularly imprinted nanostructures. The topic of organ-specific health care systems utilizing biosensors is also incorporated to provide deep insight into the very recent advances in disease diagnostics. Biosensors and Nanotechnology: Applications in Health Care Diagnostics is comprised of 15 chapters that are presented in four sections and written by 33 researchers who are actively working in Germany, the United Kingdom, Italy, Turkey, Denmark, Finland, Romania, Malaysia and Brazil. It covers biomarkers in healthcare; microfluidics in medical diagnostics; SPR-based biosensor techniques; piezoelectric-based biosensor technologies; MEMS-based cell counting methods; lab-on-chip platforms; optical applications for cancer cases; and more. Discusses the latest technology and advances in the field of biosensors and their applications for healthcare diagnostics Particular focus on biosensors for cancer Summarizes research of the last 30 years, relating it to state-of-the-art technologies Biosensors and Nanotechnology: Applications in Health Care Diagnostics is an excellent book for researchers, scientists, regulators, consultants, and engineers in the field, as well as for graduate students studying the subject.
Biosensors and Nanotechnology: Applications in Health Care Diagnostics
by Zeynep Altintas Ibtisam E. TothillProvides a broad range of information from basic principles to advanced applications of biosensors and nanomaterials in health care diagnostics This book utilizes a multidisciplinary approach to provide a wide range of information on biosensors and the impact of nanotechnology on the development of biosensors for health care. It offers a solid background on biosensors, recognition receptors, biomarkers, and disease diagnostics. An overview of biosensor-based health care applications is addressed. Nanomaterial applications in biosensors and diagnostics are included, covering the application of nanoparticles, magnetic nanomaterials, quantum dots, carbon nanotubes, graphene, and molecularly imprinted nanostructures. The topic of organ-specific health care systems utilizing biosensors is also incorporated to provide deep insight into the very recent advances in disease diagnostics. Biosensors and Nanotechnology: Applications in Health Care Diagnostics is comprised of 15 chapters that are presented in four sections and written by 33 researchers who are actively working in Germany, the United Kingdom, Italy, Turkey, Denmark, Finland, Romania, Malaysia and Brazil. It covers biomarkers in healthcare; microfluidics in medical diagnostics; SPR-based biosensor techniques; piezoelectric-based biosensor technologies; MEMS-based cell counting methods; lab-on-chip platforms; optical applications for cancer cases; and more. Discusses the latest technology and advances in the field of biosensors and their applications for healthcare diagnostics Particular focus on biosensors for cancer Summarizes research of the last 30 years, relating it to state-of-the-art technologies Biosensors and Nanotechnology: Applications in Health Care Diagnostics is an excellent book for researchers, scientists, regulators, consultants, and engineers in the field, as well as for graduate students studying the subject.
Biosensors and Their Applications
by Victor C. Yang That T. NgoA biosensor is a device in which a bioactive layer lies in direct contact with a transducer whose responses to change in the bioactive layer generate eloctronic signals for interpretation. The bioactive layer may consist of membrane-bound enzymes, anti-bodies, or receptors. The potential of this blend of electronics and biotechnology includes the direct assay of clinically important substrates (e.g. blood glucose) and of substances too unstable for storage or whose concentrations fluctuate rapidly. Written by the leading researchers in the field, this book reflects the most current developments in successfully constructing a biosensor. Major applications are in the fields of pharmacology, molecular biology, virology and electronics.
Biosensors: Developments, Challenges and Perspectives (Springer Tracts in Electrical and Electronics Engineering)
by J. Ajayan Ribu MathewThis book equips its readers with fundamental concepts and a comprehensive understanding of the principle and functionality of biosensors. This book focuses on various biosensor technologies like field effect transistor (FET), plasmonics, bioresorbable biosensors, electro-chemical biosensors, etc., and their applications. The book also covers the reliability aspects and challenges in biosensor development that are a major cause of erroneous calibration and even failure. The book also features the concept of bio receptors, immobilization techniques, target-receptor interactions, surface energy changes, sensitivity, selectivity, etc. This would be an ideal reference for researchers and scholars studying biosensors realized with various material sets and technologies including state-of-the-art modern materials and innovative techniques.
Biosensors with Fiberoptics (Contemporary Instrumentation and Analysis)
by Jr. Wingard Donald L. WiseFocusing on the rapidly increasing interaction between biotechnology and advanced fiberoptics/electronics, Biosensors with Fiberoptics emphasizes the three major phases of the developmental process from concept to marketplace: research, development, and applications. With contributions by leading experts directly involved in key areas of this exciting, fast-paced field, the book describes novel biosensor technologies and such current and potential applications as: chemical sensing • fluorescent labels • evanescent-wave biosensors and immunosensors • clinical applications • immunoassay kinetics • luminescence • monitoring of environmental toxins. Researchers and clinicians in a broad spectrum of disciplines will find Wise and Wingard's Biosensors with FIBEROPTICS an extremely practical, up-to-date reference text.
Biosignal Acquisition and Processing: A Project-Based Learning Approach (Learning Materials in Biosciences)
by Hugo Humberto da Silva Hugo Filipe Silveira Gamboa Rui Pedro Sousa Varandas Guilherme Alexandre dos Santos Espadanal RamosThis textbook provides an introduction to common concepts in biosignal acquisition and processing, rooted in a Project-Based Learning (PBL). A series of exercises and corresponding solutions is described, with a focus on common problems that new entrants encounter in the undergraduate and graduate curriculums in biomedical engineering, psychophysiology, human-computer interaction, physiotherapy, and others developing work in the boundary between biosignal acquisition and other disciplines. Solutions include both hardware and software components, encompassing sensor design, biosignals acquisition using the Arduino and BITalino platforms, Python for signal processing, analysis, and knowledge extraction, including also HTML/CSS/JavaScript for user interface design. All the content is supported with rich graphics, source code, and other useful resources made available to the interested reader. This is an ideal book for undergraduate students and practitioners (across disciplines) who are studying or working in the field of biomedical signal acquisition, processing, and analysis.
Biosignal and Medical Image Processing
by John L. Semmlow Benjamin GriffelWritten specifically for biomedical engineers, Biosignal and Medical Image Processing, Third Edition provides a complete set of signal and image processing tools, including diagnostic decision-making tools, and classification methods. Thoroughly revised and updated, it supplies important new material on nonlinear methods for describing and classify
Biosignal and Medical Image Processing
by John L. Semmlow Benjamin GriffelWritten specifically for biomedical engineers, Biosignal and Medical Image Processing, Third Edition provides a complete set of signal and image processing tools, including diagnostic decision-making tools, and classification methods. Thoroughly revised and updated, it supplies important new material on nonlinear methods for describing and classify
Biosignal Processing: Principles and Practices
by Hualou Liang Joseph D. Bronzino Donald R. PetersonWith the rise of advanced computerized data collection systems, monitoring devices, and instrumentation technologies, large and complex datasets accrue as an inevitable part of biomedical enterprise. The availability of these massive amounts of data offers unprecedented opportunities to advance our understanding of underlying biological and physiol
Biosignal Processing: Principles and Practices
by Hualou Liang Joseph D. Bronzino Donald R. PetersonWith the rise of advanced computerized data collection systems, monitoring devices, and instrumentation technologies, large and complex datasets accrue as an inevitable part of biomedical enterprise. The availability of these massive amounts of data offers unprecedented opportunities to advance our understanding of underlying biological and physiol
Biosignalverarbeitung
by Peter HusarDas grundlegende Kompendium führt in das zunehmend wichtiger werdende Thema der Biosginalverarbeitung ein. Der inhaltliche Aufbau orientiert sich an der Abfolge der diagnostischen Kette: von Sensorik, Signalverstärkung und -konditionierung über Signalabtastung und -digitalisierung, Methoden der Biosignalverarbeitung bis zu Auswertung und Diagnosevorschlag. Dabei liefert jedes Kapitel das entsprechende theoretische und methodische Wissen, behandelt Realisierungsalternativen und stellt Praxisbeispiele sowie die aktuell verfügbare Technik vor.
Biosimilar Clinical Development: Scientific Considerations and New Methodologies (Chapman & Hall/CRC Biostatistics Series)
by Kerry B. Barker Sandeep M. Menon Ralph B. D'Agostino Sr. Siyan Xu Bo JinBiosimilars have the potential to change the way we think about, identify, and manage health problems. They are already impacting both clinical research and patient care, and this impact will only grow as our understanding and technologies improve. Written by a team of experienced specialists in clinical development, this book discusses various potential drug development strategies, the design and analysis of pharmacokinetics (PK) studies, and the design and analysis of efficacy studies.
Biosimilar Clinical Development: Scientific Considerations and New Methodologies (Chapman & Hall/CRC Biostatistics Series)
by Kerry B. Barker Sandeep M. Menon Ralph B. D’Agostino Sr. Siyan Xu Bo JinBiosimilars have the potential to change the way we think about, identify, and manage health problems. They are already impacting both clinical research and patient care, and this impact will only grow as our understanding and technologies improve. Written by a team of experienced specialists in clinical development, this book discusses various potential drug development strategies, the design and analysis of pharmacokinetics (PK) studies, and the design and analysis of efficacy studies.
Biosimilar Drug Product Development (Drugs and the Pharmaceutical Sciences)
by Shein-Chung Chow Laszlo Endrenyi Dr Paul DeclerckWhen a biological drug patent expires, alternative biosimilar products are developed. The development of biosimilar products is complicated and involves numerous considerations and steps. The assessment of biosimilarity and interchangeability is also complicated and difficult. Biosimilar Drug Product Development presents current issues for the development of biosimilars and gives detailed reviews of its various stages and contributing factors as well as relevant regulatory pathways and pre- and post-approval issues.
Biosimilar Drug Product Development (Drugs and the Pharmaceutical Sciences)
by Laszlo Endrenyi Paul Jules Declerck Shein-Chung ChowWhen a biological drug patent expires, alternative biosimilar products are developed. The development of biosimilar products is complicated and involves numerous considerations and steps. The assessment of biosimilarity and interchangeability is also complicated and difficult. Biosimilar Drug Product Development presents current issues for the development of biosimilars and gives detailed reviews of its various stages and contributing factors as well as relevant regulatory pathways and pre- and post-approval issues.