2016
DOI: 10.1038/srep36498
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On-chip, multisite extracellular and intracellular recordings from primary cultured skeletal myotubes

Abstract: In contrast to the extensive use of microelectrode array (MEA) technology in electrophysiological studies of cultured neurons and cardiac muscles, the vast field of skeletal muscle research has yet to adopt the technology. Here we demonstrate an empowering MEA technology for high quality, multisite, long-term electrophysiological recordings from cultured skeletal myotubes. Individual rat skeletal myotubes cultured on micrometer sized gold mushroom-shaped microelectrode (gMμE) based MEA tightly engulf the gMμEs… Show more

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Cited by 37 publications
(39 citation statements)
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“…We quantified evoked spike counts, or those falling within a 500ms window post-stimulation, over a 5 minute recording session. Treatment with 1-heptanol led to abolishment of evoked spike counts that could be partially rescued at lower concentrations, suggesting that recorded EAPs originated from electrotonically-coupled sKM that are recorded as bursting activity, as reported by others (Rabieh et al, 2016) ( Figure 4C-E ). Support for this model was shown by heptanol treatment in C2C12 myotube cultures that yielded similar results ( Figure S4A ).…”
Section: Simultaneous Optogenetic and Electrophysiological Recordingssupporting
confidence: 79%
“…We quantified evoked spike counts, or those falling within a 500ms window post-stimulation, over a 5 minute recording session. Treatment with 1-heptanol led to abolishment of evoked spike counts that could be partially rescued at lower concentrations, suggesting that recorded EAPs originated from electrotonically-coupled sKM that are recorded as bursting activity, as reported by others (Rabieh et al, 2016) ( Figure 4C-E ). Support for this model was shown by heptanol treatment in C2C12 myotube cultures that yielded similar results ( Figure S4A ).…”
Section: Simultaneous Optogenetic and Electrophysiological Recordingssupporting
confidence: 79%
“…High‐aspect‐ratio nanostructured electrodes reduce the contact resistance and improve the signal‐to‐noise ratio of planar electrodes . Motivations include studying the fundamental cell electrophysiology of cardiac, neural, and skeletal‐myotube cells, as well as developing platforms for high‐throughput drug screening . The spatially resolved, parallel, intimate interface of high‐aspect‐ratio nanostructures with cells and tissue is well suited for sensing complex neural network behaviors .…”
Section: Bioelectronic Stimulation and Sensingmentioning
confidence: 99%
“…Besides the morphologically tight adhesion, the membrane curvature caused by vertical nano-protrusions may also induce the aggregation of ion channels, increasing the local ionic current. 31,32 Furthermore, treated using hydrophobic bands, nanopillars can even enhance their seal resistance to the GU range, which is comparable to that of patch-clamp seals (Fig. 4b).…”
Section: Enhancement Of Seal Resistancementioning
confidence: 65%