Multi-electrode array technologies for neuroscience and cardiology.

  title={Multi-electrode array technologies for neuroscience and cardiology.},
  author={Micha E. Spira and Aviad Hai},
  journal={Nature nanotechnology},
  volume={8 2},
At present, the prime methodology for studying neuronal circuit-connectivity, physiology and pathology under in vitro or in vivo conditions is by using substrate-integrated microelectrode arrays. Although this methodology permits simultaneous, cell-non-invasive, long-term recordings of extracellular field potentials generated by action potentials, it is 'blind' to subthreshold synaptic potentials generated by single cells. On the other hand, intracellular recordings of the full… CONTINUE READING

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Publications referenced by this paper.
Showing 1-10 of 95 references

Synapses and memory storage.

Cold Spring Harbor perspectives in biology • 2012

nanotube transistor intracellular sensors

Gao, R. et al. Outside looking in
Nano Lett. 12, 3329–3333 • 2012

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