An Experimental Platform Aimed at Long Lasting Electrophysiological Multichannel Recordings of Neuronal Cultures
G. Regalia, E. Biffi, A. Lucchini, M. Capriata, S. Achilli, A. Menegon, G. Ferrigno, L. Colombo, A. Pedrocchi
2013
Abstract
The elucidation of physio-pathological mechanisms expressed by a neuronal network over extended time scales (i.e., from hours to weeks) is the goal of many neurophysiological and neuropharmacological in vitro studies. In this context, a challenging technological requirement is the establishment of an experimental setup able to collect long-term neuronal signals. In this work we report the development of a compact environmental chamber designed to perform prolonged recordings of the bioelectrical activity exhibited by neuronal networks grown on MicroElectrode Arrays (MEAs). To reproduce an environment suitable for cells growth (temperature, pH and humidity) the chamber was coupled with a temperature control system and an air humidifying module. Validation tests demonstrated that the environment inside the portable chamber is comparable to standard cell incubators environment. To collect neuronal extracellular signals, custom multichannel pre-processing boards have been developed and integrated with the chamber. With this equipment, we were able to reliably record spontaneous neuronal electrical activity from hippocampal cultures grown inside the chamber for several hours, which is not possible with the standard MEA recording setup due to environmental fluctuations. This system can collect multichannel data from neuronal cultures over long periods, providing an effective solution for long-term studies of neural activity.
References
- Biffi, E., Ghezzi, D., Pedrocchi, A. et al., 2010. Development and validation of a spike detection and classification algorithm aimed to be implemented on hardware devices. Comput Intell and Neurosci. DOI 10.1155/2010/659050.
- Biffi, E., Menegon, A., Regalia, G. et al., 2011. A new cross-correlation algorithm for the analysis of "in vitro" neuronal network activity aimed at pharmacological studies. J Neurosci Methods. 199:321-327.
- Biffi, E., Piraino, F., Pedrocchi, A. et al., 2012b. A microfluidic platform for controlled biochemical stimulation of twin neuronal networks. Biomicroflu. 6:24106-2410610.
- Biffi, E., Regalia, G., Ghezzi, D. et al., 2012a. A novel environmental chamber for neuronal network multisite recordings. Biotechnol Bioeng. 109:2553-2566.
- Bottino, E., Massobrio, P., Martinoia, S. et al., 2009. Lownoise low-power CMOS preamplifier for multi-site extracellular neuronal recordings. Microelec J. 40:1779- 1787.
- Eckmann, J., Feinerman, O., Gruendlinger, L., Moses, E. et al., 2007. The physics of living neural networks. Physics Reports 449: 54-76.
- Ghezzi, D., Menegon, A., Pedrocchi, A. et al., 2008. A Micro-Electrode Array device coupled to a laser-based system for the local stimulation of neurons by optical release of glutamate. J Neurosci Methods. 175:70-78.
- Johnstone, A.F., Gross, G.W., Weiss, D.G. et al., 2010. Microelectrode arrays: a physiologically based neurotoxicity testing platform for the 21st century. Neurotoxicology. 31:331-350.
- Novellino, A., Scelfo, B., Palosaari, T. et al., 2011. Development of micro-electrode array based tests for neurotoxicity: assessment of interlaboratory reproducibility with neuroactive chemicals. Front Neuroeng. DOI 10.3389/fneng.2011.00004.
- Potter, .SM., DeMarse, T.B., 2001. A new approach to neural cell culture for long-term studies. J Neurosci Methods. 110:17-24.
- Rolston, J.D., Gross, R.E., Potter, S.M., 2009. A low-cost multielectrode system for data acquisition enabling real-time closed-loop processing with rapid recovery from stimulation artefact. Front Neuroeng. DOI 10.3389/neuro.16.012.2009.
- Rossi, S., Muzio, L., De Chiara et al., 2011. Impaired striatal GABA transmission in experimental autoimmune encephalomyelitis. Brain Behav Immun. 25:947-56.
Paper Citation
in Harvard Style
Regalia G., Biffi E., Lucchini A., Capriata M., Achilli S., Menegon A., Ferrigno G., Colombo L. and Pedrocchi A. (2013). An Experimental Platform Aimed at Long Lasting Electrophysiological Multichannel Recordings of Neuronal Cultures . In Proceedings of the 5th International Joint Conference on Computational Intelligence - Volume 1: SSCN, (IJCCI 2013) ISBN 978-989-8565-77-8, pages 551-557. DOI: 10.5220/0004659005510557
in Bibtex Style
@conference{sscn13,
author={G. Regalia and E. Biffi and A. Lucchini and M. Capriata and S. Achilli and A. Menegon and G. Ferrigno and L. Colombo and A. Pedrocchi},
title={An Experimental Platform Aimed at Long Lasting Electrophysiological Multichannel Recordings of Neuronal Cultures},
booktitle={Proceedings of the 5th International Joint Conference on Computational Intelligence - Volume 1: SSCN, (IJCCI 2013)},
year={2013},
pages={551-557},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0004659005510557},
isbn={978-989-8565-77-8},
}
in EndNote Style
TY - CONF
JO - Proceedings of the 5th International Joint Conference on Computational Intelligence - Volume 1: SSCN, (IJCCI 2013)
TI - An Experimental Platform Aimed at Long Lasting Electrophysiological Multichannel Recordings of Neuronal Cultures
SN - 978-989-8565-77-8
AU - Regalia G.
AU - Biffi E.
AU - Lucchini A.
AU - Capriata M.
AU - Achilli S.
AU - Menegon A.
AU - Ferrigno G.
AU - Colombo L.
AU - Pedrocchi A.
PY - 2013
SP - 551
EP - 557
DO - 10.5220/0004659005510557