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Literature DB >> 22190623

Recording from the same neurons chronically in motor cortex.

Abstract

Two rhesus monkeys were implanted with silicon arrays of 96 microelectrodes. Neural activity was recorded periodically over a period of weeks to months. We have developed a method to determine whether single units in two separate recording sessions represent the same neuron. Pairwise cross-correlograms, the autocorrelogram, waveform shape, and mean firing rate were used together as identifying features of a neuron. When two units recorded on separate days were compared using these features, their similarity scores tended to be either high, indicating two recordings from the same neuron, or low, indicating different neurons. Although these metrics are individually weak, together they produce a strong classifier. Some neurons were recorded for >100 days. These monkeys performed a center-out reaching task, and we found that the firing properties of chronically recorded neurons were stable over time.

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Year: 2011 PMID： 22190623 PMCID： PMC3331662 DOI： 10.1152/jn.01012.2010

Source DB: PubMed Journal: J Neurophysiol ISSN： 0022-3077 Impact factor: 2.714

15 in total

1. Chronic recording capability of the Utah Intracortical Electrode Array in cat sensory cortex.

Authors: P J Rousche; R A Normann
Journal: J Neurosci Methods Date: 1998-07-01 Impact factor: 2.390

2. Neuronal correlates of motor performance and motor learning in the primary motor cortex of monkeys adapting to an external force field.

Authors: C S Li; C Padoa-Schioppa; E Bizzi
Journal: Neuron Date: 2001-05 Impact factor: 17.173

Recording from the same neurons chronically in motor cortex.

1. Chronic recording capability of the Utah Intracortical Electrode Array in cat sensory cortex.

2. Neuronal correlates of motor performance and motor learning in the primary motor cortex of monkeys adapting to an external force field.

3. Community structure in time-dependent, multiscale, and multiplex networks.

4. Stable ensemble performance with single-neuron variability during reaching movements in primates.

5. Motor learning with unstable neural representations.

6. Single-neuron stability during repeated reaching in macaque premotor cortex.

7. Compact movable microwire array for long-term chronic unit recording in cerebral cortex of primates.

8. HermesB: a continuous neural recording system for freely behaving primates.

9. The Utah intracortical Electrode Array: a recording structure for potential brain-computer interfaces.

10. Long-term chronic recording from cortical neurons.

1. Motor cortical correlates of arm resting in the context of a reaching task and implications for prosthetic control.

2. Distinct types of neural reorganization during long-term learning.

3. Temporally Segmented Directionality in the Motor Cortex.

4. Spatiotemporal Distribution of Location and Object Effects in Primary Motor Cortex Neurons during Reach-to-Grasp.

5. One month in the life of a neuron: longitudinal single-unit electrophysiology in the monkey visual system.

6. Motor variability arises from a slow random walk in neural state.

7. Face-selective neurons maintain consistent visual responses across months.

8. Motor cortical control of movement speed with implications for brain-machine interface control.

9. Recording extracellular neural activity in the behaving monkey using a semichronic and high-density electrode system.

10. A chronic neural interface to the macaque dorsal column nuclei.