1st Edition
Electrochemical Methods for Neuroscience
Since the first implant of a carbon microelectrode in a rat 35 years ago, there have been substantial advances in the sensitivity, selectivity and temporal resolution of electrochemical techniques. Today, these methods provide neurochemical information that is not accessible by other means. The growing recognition of the versatility of electrochemical techniques indicates a need for a greater understanding of the scientific foundation and use of these powerful tools.
Electrochemical Methods for Neuroscience provides an updated summary of the current, albeit evolving, state of the art and lays the scientific foundation for incorporating electrochemical techniques into on-going or newly emerging research programs in the neuroscience disciplines. With contributions from pioneers in the field, the text outlines the applications and benefits of a wide range of electrochemical techniques. It explores the methodology behind the acquisition of neurochemical and neurobiological data through continuous amperometry, fast scan cyclic voltammetry, high-speed chronoamperometry, ion-selective microelectrodes, enzyme based microelectrodes, and in vivo voltammetry with telemetry. The text also introduces emerging concepts in the field such as the correlation of electrochemical recordings with information obtained from patch clamp, electrophysiological, and behavioral techniques.
By presenting up-to-date information on the growing collection of electrochemical methods, microsensors, and research techniques, Electrochemical Methods for Neuroscience assists seasoned researchers and newcomers to the field in making sound decisions about adopting the most appropriate of these tools for their future research objectives.
Rapid Dopamine Release in Freely Moving Rats, D. L. Robinson and R. M. Wightman
Presynaptic Regulation of Extracellular Dopamine as Studied by Continuous Amperometry in Anesthetized Animals, M. Benoit-Marand, M.F. Suaud-Chagny, and F. Gonon
Fast Scan Cyclic Voltammetry of Dopamine and Serotonin in Mouse Brain Slices, C. E. John and S. R. Jones
High-Speed Chronoamperometry to Study Kinetics and Mechanisms for Serotonin Clearance in vivo, L. C. Daws and G. M. Toney
Using High-Speed Chronoamperometry Coupled with Local Dopamine Application to Assess Dopamine Transporter Function, J. M. Gulley, G. A. Larson, and N. R. Zahniser
Determining Serotonin and Dopamine Uptake Rates in Synaptosomes Using High-Speed Chronoamperometry, X. A. Perez, A. J. Bressler, and A. Milasincic Andrews
Using Fast-Scan Cyclic Voltammetry to Investigate Somatodendritic Dopamine Release, S. Threlfell and S. J. Cragg
From Interferant Anion to Neuromodulator: Ascorbate Oxidizes Its Way to Respectability, G. V. Rebec
Biophysical Properties of Brain Extracellular Space Explored with Ion-Selective Microelectrodes, Integrative Optical Imaging and Related Techniques, S. Hrabtová and C. Nicholson
Hydrogen Peroxide as a Diffusible Messenger: Evidence from Voltammetric Studies of Dopamine Release in Brain Slices, M. E. Rice, M. V. Avshalumov, and J. Patel
In Vivo Voltammetry with Telemetry, P. A. Garris, P. G. Greco, S. G. Sandberg, G.Howes, S. Pongmaytegul, B. A. Heidenreich, J. M. Casto, R. Ensman, J. Poehlman, A. Alexander, and G. V. Rebec
Oxidative Stress at the Single Cell Level, C. Amatore and S. Arbault
Electrochemistry at the Cell Membrane/Solution Interface, N. Wittenberg, M. Maxson, Daniel Eves, A.S. Cans, and A. G. Ewing
The Patch Amperometry Technique: Design of a Method to Study Exocytosis of Single Vesicles, G. Dernick, G. Alvarez de Toledo, and M. Lindau
Amperometric Detection of Dopamine Exocytosis from Synaptic Terminals, R.G.W. Staal, S. Rayport, and D. Sulzer
Scanning Electrochemical Microscopy as a Tool in Neuroscience, A. Schulte and W. Schuhmann
Principles, Development and Applications of Self-Referencing Electrochemical Microelectrodes to the Determination of Fluxes at Cell Membranes, P.J.S. Smith, R. H. Sanger, and M. A. Messerli
Second-by-Second Measures of L-Glutamate and Other Neurotransmitters Using Enzyme-Based Microelectrode Arrays, K. N. Hascup, E. C. Rutherford, J. E. Quintero, B. K. Day, J. R. Nickell, F. Pomerleau, P. Huettl, J. J. Burmeister, and G. A. Gerhardt
Telemetry for Biosensor Systems, D. A. Johnson and G. S. Wilson
The Principles, Development and Application of Microelectrodes for the in vivo Determination of Nitric Oxide, M. J. Serpe and X. Zhang
In vivo Fast-scan Cyclic Voltammetry of Dopamine near Microdialysis Probes, H. Yang and A. C. Michael
Biography
Adrian C. Michael, Laura Borland