J. Pine scite author profile

Background: We have collected a comprehensive set of multi-unit data on dissociated cortical cultures. Previous studies of the development of the electrical activity of dissociated cultures of cortical neurons each focused on limited aspects of its dynamics, and were often based on small numbers of observed cultures. We followed 58 cultures of different densities -3000 to 50,000 neurons on areas of 30 to 75 mm 2 -growing on multi-electrode arrays (MEAs) during the first five weeks of their development.

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Controlling Bursting in Cortical Cultures with Closed-Loop Multi-Electrode Stimulation

Wagenaar¹,

Madhavan²,

Pine³

et al. 2005

J. Neurosci.

398

349

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One of the major modes of activity of high-density cultures of dissociated neurons is globally synchronized bursting. Unlike in vivo, neuronal ensembles in culture maintain activity patterns dominated by global bursts for the lifetime of the culture (up to 2 years). We hypothesize that persistence of bursting is caused by a lack of input from other brain areas. To study this hypothesis, we grew small but dense monolayer cultures of cortical neurons and glia from rat embryos on multi-electrode arrays and used electrical stimulation to substitute for afferents. We quantified the burstiness of the firing of the cultures in spontaneous activity and during several stimulation protocols. Although slow stimulation through individual electrodes increased burstiness as a result of burst entrainment, rapid stimulation reduced burstiness. Distributing stimuli across several electrodes, as well as continuously fine-tuning stimulus strength with closed-loop feedback, greatly enhanced burst control. We conclude that externally applied electrical stimulation can substitute for natural inputs to cortical neuronal ensembles in transforming burst-dominated activity to dispersed spiking, more reminiscent of the awake cortex in vivo. This nonpharmacological method of controlling bursts will be a critical tool for exploring the information processing capacities of neuronal ensembles in vitro and has potential applications for the treatment of epilepsy.

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Multi-neuronal signals from the retina: acquisition and analysis

Meister

Pine

Baylor

1994

Journal of Neuroscience Methods

375

282

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Effective parameters for stimulation of dissociated cultures using multi-electrode arrays

Wagenaar

Pine

Potter

2004

Journal of Neuroscience Methods

272

246

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Electrical stimulation through multi-electrode arrays is used to evoke activity in dissociated cultures of cortical neurons. We study the efficacies of a variety of pulse shapes under voltage-as well as current-control, and determine useful parameter ranges that optimize efficacy while preventing damage through electrochemistry. For any pulse shape, stimulation is found to be mediated by negative currents. We find that positive-then-negative biphasic voltage-controlled pulses are more effective than any of the other pulse shapes tested, when compared at the same peak voltage. These results suggest that voltage-control, with its inherent control over limiting electrochemistry, may be advantageous in a wide variety of stimulation scenarios, possibly extending to in-vivo experiments.

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Recording action potentials from cultured neurons with extracellular microcircuit electrodes

Pine¹

1980

Journal of Neuroscience Methods

518

245

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J. Pine

An extremely rich repertoire of bursting patterns during the development of cortical cultures

Controlling Bursting in Cortical Cultures with Closed-Loop Multi-Electrode Stimulation

Multi-neuronal signals from the retina: acquisition and analysis

Effective parameters for stimulation of dissociated cultures using multi-electrode arrays

Recording action potentials from cultured neurons with extracellular microcircuit electrodes

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