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001442347 019__ $$a1272999984$$a1273075606$$a1273122972$$a1287766234
001442347 020__ $$a9783030776770$$q(electronic bk.)
001442347 020__ $$a3030776778$$q(electronic bk.)
001442347 020__ $$z303077676X
001442347 020__ $$z9783030776763
001442347 0247_ $$a10.1007/978-3-030-77677-0$$2doi
001442347 035__ $$aSP(OCoLC)1272953852
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001442347 049__ $$aISEA
001442347 050_4 $$aTA167.5
001442347 08204 $$a660.6$$223
001442347 1001_ $$aGuo, Liang$$c(Ph. D. in bioengineering)
001442347 24510 $$aPrinciples of electrical neural interfacing :$$ba quantitative approach to cellular recording and stimulation /$$cLiang Guo.
001442347 260__ $$aCham, Switzerland :$$bSpringer,$$c[2022]
001442347 300__ $$a1 online resource
001442347 336__ $$atext$$btxt$$2rdacontent
001442347 337__ $$acomputer$$bc$$2rdamedia
001442347 338__ $$aonline resource$$bcr$$2rdacarrier
001442347 347__ $$atext file
001442347 347__ $$bPDF
001442347 504__ $$aIncludes bibliographical references and index.
001442347 5050_ $$aIntro -- Preface -- Acknowledgments -- Contents -- About the Author -- List of Abbreviations -- Chapter 1: Introduction -- 1.1 Neural Electrodes -- 1.2 Advantages and Limitations of Electrical Neural Interfacing -- 1.3 Problems of Focus in This Book -- 1.4 Featured Approach of Analysis -- References -- Part I: Properties and Models of Neurons and Electrodes -- Chapter 2: Equivalent Circuit Models of Neurons -- 2.1 The Classic Parallel-Conductance Model -- 2.2 Neuronal Model for DC Analysis -- 2.3 Neuronal Models for AC Analysis
001442347 5058_ $$a2.3.1 Neuronal Model for Analyzing Subthreshold Transmembrane Voltage Changes -- 2.3.2 Neuronal Model for analyzing Suprathreshold Transmembrane Voltage Changes (APs) -- 2.3.3 Virtual Capacitive Current IC(s) -- 2.4 Monopole Current Source -- References -- Chapter 3: Recording Electrodes -- 3.1 Electrode-Electrolyte Interface -- 3.1.1 The Universal Electrode-Electrolyte Phase Boundary -- 3.1.2 Neural Recording Electrodes are Capacitive -- 3.2 Non-Redox Electrochemical Cell for Neural Recording -- 3.3 The Complete Neural Recording Circuit -- 3.4 Electrode Impedance
001442347 5058_ $$a3.4.1 Principle of Electrode Impedance Measurement -- 3.4.2 Method for Electrode Impedance Measurement -- 3.4.3 How to Read the Impedance Plots -- 3.4.4 Methods to Reduce Electrode Impedance -- 3.5 Summary -- References -- Chapter 4: Stimulating Electrodes -- 4.1 Electrode-Electrolyte Interface -- 4.2 Electrolytic Cell for Neural Stimulation -- 4.3 The Complete Neural Stimulating Circuit -- 4.4 Charge Injection Capacity -- 4.4.1 Cyclic Voltammogram (CV), CSC, and CIC -- 4.4.2 Methods to Functionalize a Stimulating Electrode -- 4.5 Summary -- References
001442347 5058_ $$aPart II: Principles of Electrical Neural Recording -- Chapter 5: Intracellular Recording -- 5.1 DC Recording: The Resting Membrane Potential -- 5.2 AC Recording -- 5.2.1 How the AC Vm(s) Is Generated -- 5.2.2 Intracellular Recording Using a Solid-State Microwire Electrode -- 5.2.3 Intracellular Recording Using Whole-Cell Patch-Clamp and Glass Micropipettes -- 5.3 Summary -- References -- Chapter 6: Extracellular Recording -- 6.1 Basic Relationships Between eFPs and Transmembrane Voltage Changes -- 6.2 Extracellular Recording Using a Planar Substrate Microelectrode
001442347 5058_ $$a6.3 Optimizing the Recording Quality -- 6.3.1 Factors Affecting the SNR -- 6.4 Summary -- References -- Chapter 7: Extracellular Recording of Propagating Action Potentials -- 7.1 AP Propagation and Its Modeling -- 7.1.1 Forward Propagating Intracellular Current -- 7.1.2 Backward Propagating Intracellular Current -- 7.1.3 Overall Propagating Effect on eFP -- 7.2 The Recorded eFP -- 7.3 Summary -- References -- Chapter 8: Recording Using Field-Effect Transistors -- Summary -- References -- Chapter 9: Neural Recording Using Nanoprotrusion Electrodes
001442347 506__ $$aAccess limited to authorized users.
001442347 520__ $$aThis textbook fills a gap to supply students with the fundamental principles and tools they need to perform the quantitative analyses of the neuroelectrophysiological approaches, including both conventional and emerging ones, prevalently used in neuroscience research and neuroprosthetics. The content grows out of a course on Neuroengineering and Neuroprosthetics, which the author has taught already several times. The key problems the author addresses include (1) the universal operating mechanisms of neuroelectrophysiological approaches, (2) proper configuration of each approach, and (3) proper interpretation of the resulting signals. Efforts are made both to extract the universal principles underlying this common class of approaches and discern the unique properties of each individual approach. To address these important problems, equivalent electrical circuit modeling and signal analysis are used to unravel the functioning mechanisms and principles and provide sound interpretations to the associated signals and phenomena. This book aims to derive analytical solutions to these equivalent circuits, which can offer clear and complete mechanistic insights to the underlying biophysics.
001442347 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed October 14, 2021).
001442347 650_0 $$aNeurotechnology (Bioengineering)
001442347 650_0 $$aNeural stimulation.
001442347 650_0 $$aElectrophysiology.
001442347 650_6 $$aNeurotechnologie.
001442347 650_6 $$aNeurostimulation.
001442347 650_6 $$aÉlectrophysiologie.
001442347 655_0 $$aElectronic books.
001442347 77608 $$iPrint version:$$aGuo, Liang (Ph. D. in bioengineering).$$tPrinciples of electrical neural interfacing.$$dCham, Switzerland : Springer, [2022]$$z303077676X$$z9783030776763$$w(OCoLC)1249503345
001442347 852__ $$bebk
001442347 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-3-030-77677-0$$zOnline Access$$91397441.1
001442347 909CO $$ooai:library.usi.edu:1442347$$pGLOBAL_SET
001442347 980__ $$aBIB
001442347 980__ $$aEBOOK
001442347 982__ $$aEbook
001442347 983__ $$aOnline
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