2012
DOI: 10.1103/physreve.85.031917
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Frequency-dependent signal transfer at the interface between electrogenic cells and nanocavity electrodes

Abstract: We present a model to describe the response of chip-based nanocavity sensors during extracellular recording of action potentials. These sensors feature microelectrodes which are embedded in liquid-filled cavities. They can be used for the highly localized detection of electrical signals on a chip. We calculate the sensor's impedance and simulate the propagation of action potentials. Subsequently we apply our findings to analyze cell-chip coupling properties. The results are compared to experimental data obtain… Show more

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Cited by 22 publications
(35 citation statements)
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“…High variability from spike to spike on an electrode would suggest that the recording is from an ensemble rather than a single spiking unit. Furthermore, the shape of the APs detected shows that BNCD electrodes often detect a sharp prepeak before the AP (Figure 3), a form associated with high seal resistance between the cell and electrode according to mathematical models 32…”
Section: Resultsmentioning
confidence: 99%
“…High variability from spike to spike on an electrode would suggest that the recording is from an ensemble rather than a single spiking unit. Furthermore, the shape of the APs detected shows that BNCD electrodes often detect a sharp prepeak before the AP (Figure 3), a form associated with high seal resistance between the cell and electrode according to mathematical models 32…”
Section: Resultsmentioning
confidence: 99%
“…For example, an estimation of the resistance in a channel section of 20 mm  20 mm  100 nm (L  B  H), filled with phosphate buffered saline (resistivity $0.6 Vm), already yields a value of $6 MV. The full spectra of the nanocavity sensors can be approximated by solving the cable equation with appropriate boundary conditions [3]. For the devices used in this study, we expect to see a limiting influence due to the ohmic drop in the nanocavity starting already below 1 kHz, which is not evident in the data.…”
Section: Extracellular Recordingmentioning
confidence: 97%
“…To achieve a high seal resistance as well as low impedance electrodes, several approaches have been investigated including the use of nanopatterns, carbon nanotubes (CNTs), nanoflakes‐ and wires, or nanoporous structures . For example, nanocavity arrays are promising devices for localized on‐chip recordings of electrogenic cells in a network, due to their high spatial resolution and good signal to noise characteristics . They combine a large electrode area – and therefore low electrode impedance – with a small cavity opening and high spatial resolution.…”
Section: Introductionmentioning
confidence: 99%
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“…In such an ideal case, all electrodes might have similar coupling. Nonetheless, in most experiments the coupling varies from electrode to electrode [40,42]. Moreover, the position of the electrode completely under a cell or under the border between cells contributes to the variation in spike shape.…”
Section: Resultsmentioning
confidence: 99%