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12 - Perspectives
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- By K. H. Petersen, Norwegian University of Life Sciences, Norway, H. Lindén, Norwegian University of Life Sciences, Norway, A. M. Dale, University of California San Diego, USA, G. T. Einevoll, Norwegian University of Life Sciences, Norway, T. Stieglitz, Albert-Ludwig-University of Freiburg, Germany
- Edited by Romain Brette, Ecole Normale Supérieure, Paris, Alain Destexhe, Centre National de la Recherche Scientifique (CNRS), Paris
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- Book:
- Handbook of Neural Activity Measurement
- Published online:
- 05 October 2012
- Print publication:
- 06 September 2012, pp 470-479
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- Chapter
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Summary
In the nineteenth century, Julius Bernstein invented an ingenious device called the “differential rheotome,” a rotating wheel which could record the time course of action potentials (see Chapter 3). Since then, many sophisticated techniques have been introduced to measure correlates of neural activity: measurements of electricity produced by single neurons (Chapters 3 and 4) or multiple neurons (Chapters 5–7 and 9), measurements based on brain metabolism (Chapters 8 and 11) or on calcium dynamics (Chapter 10). These techniques are always more or less indirect measurements of neural activity, and they have diverse spatial and temporal resolutions, and spatial scales. Each chapter in this book has described the quantitative relationship between neural activity (e.g. membrane potential or synaptic activity) and the measured quantity, as it is currently understood. This effort serves two purposes: to give a better understanding and interpretation of the measurements, and to help enhance existing techniques or develop new ones. To conclude this book, the authors of all the chapters describe ongoing developments in their field, open questions to be addressed, and new emerging techniques.
Extracellular recording
Substrate-integrated microelectrode arrays (MEAs) are planar arrays of microelectrodes used to record electrical activity in neuronal cell cultures or acute brain slices (Taketani and Baudray, 2006; Egert et al., 2010; Gross, 2010). While their history goes back to the 1970s, the rapid development of photolithographic techniques (stimulated by the needs of the computer industry) has now made prefabricated high-density MEA chips a popular research tool.