Literature DB >> 17289787

Network oscillations and intrinsic spiking rhythmicity do not covary in monkey sensorimotor areas.

Claire L Witham1, Stuart N Baker.   

Abstract

We investigated the relationship between local field potential (LFP) oscillations and intrinsic spiking rhythmicity in the sensorimotor system, because intrinsic rhythmicity has the potential to enhance network oscillations. LFPs and 918 single units were recorded from primary motor cortex (M1), primary somatosensory cortex (S1, areas 3a and 2), posterior parietal cortex (area 5) and the deep cerebellar nuclei (DCN). Some cells were antidromically identified as pyramidal tract neurons (PTNs). In each area the power of approximately 20 Hz LFP oscillations was assessed during periods of steady holding, when such oscillations have previously been shown to be maximal in M1. Oscillations were strongest in area 5 and weakest in the DCN. Using a previously developed method, the postspike distance-to-threshold trajectory was determined from the interspike interval histogram for each cell. Many cells had significant peaks, suggesting an intrinsic tendency towards rhythmic firing. Surprisingly, trajectory peaks were most common for M1 PTNs (115/146 cells) and rarest for area 5 neurons (12/82 cells). The extent of intrinsic spiking rhythmicity is not therefore simply related to the strength of 20 Hz oscillations in the sensorimotor system. These results suggest that intrinsic rhythmicity is not required for the generation and maintenance of oscillatory activity.

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Year:  2007        PMID: 17289787      PMCID: PMC1891004          DOI: 10.1113/jphysiol.2006.124503

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


  38 in total

Review 1.  Multiple single unit recording in the cortex of monkeys using independently moveable microelectrodes.

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Journal:  J Neurosci Methods       Date:  1999-12-15       Impact factor: 2.390

2.  Synchronization in monkey motor cortex during a precision grip task. II. effect of oscillatory activity on corticospinal output.

Authors:  Stuart N Baker; Elizabeth M Pinches; Roger N Lemon
Journal:  J Neurophysiol       Date:  2003-04       Impact factor: 2.714

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Journal:  J Physiol       Date:  2003-06-13       Impact factor: 5.182

4.  Influence of VPM afferents on putative inhibitory interneurons in S1 of the awake rabbit: evidence from cross-correlation, microstimulation, and latencies to peripheral sensory stimulation.

Authors:  H A Swadlow
Journal:  J Neurophysiol       Date:  1995-04       Impact factor: 2.714

5.  Rhythmically firing (20-50 Hz) neurons in monkey primary somatosensory cortex: activity patterns during initiation of vibratory-cued hand movements.

Authors:  M A Lebedev; R J Nelson
Journal:  J Comput Neurosci       Date:  1995-12       Impact factor: 1.621

6.  Field potential oscillatory bursts in parietal cortex before and during reach.

Authors:  W A MacKay; A J Mendonça
Journal:  Brain Res       Date:  1995-12-18       Impact factor: 3.252

7.  Synchronization between motor cortex and spinal motoneuronal pool during the performance of a maintained motor task in man.

Authors:  B A Conway; D M Halliday; S F Farmer; U Shahani; P Maas; A I Weir; J R Rosenberg
Journal:  J Physiol       Date:  1995-12-15       Impact factor: 5.182

8.  A new method for the insertion of multiple microprobes into neural and muscular tissue, including fiber electrodes, fine wires, needles and microsensors.

Authors:  R Eckhorn; U Thomas
Journal:  J Neurosci Methods       Date:  1993-09       Impact factor: 2.390

9.  Spatiotemporal characteristics of sensorimotor neuromagnetic rhythms related to thumb movement.

Authors:  R Salmelin; R Hari
Journal:  Neuroscience       Date:  1994-05       Impact factor: 3.590

10.  The effect of diazepam on motor cortical oscillations and corticomuscular coherence studied in man.

Authors:  Mark R Baker; Stuart N Baker
Journal:  J Physiol       Date:  2003-02-01       Impact factor: 5.182
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  37 in total

1.  Coherence between motor cortical activity and peripheral discontinuities during slow finger movements.

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2.  Time-varying coupling of EEG oscillations predicts excitability fluctuations in the primary motor cortex as reflected by motor evoked potentials amplitude: an EEG-TMS study.

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3.  Coding of digit displacement by cell spiking and network oscillations in the monkey sensorimotor cortex.

Authors:  Claire L Witham; Stuart N Baker
Journal:  J Neurophysiol       Date:  2012-09-26       Impact factor: 2.714

4.  Quantitative analysis and biophysically realistic neural modeling of the MEG mu rhythm: rhythmogenesis and modulation of sensory-evoked responses.

Authors:  Stephanie R Jones; Dominique L Pritchett; Michael A Sikora; Steven M Stufflebeam; Matti Hämäläinen; Christopher I Moore
Journal:  J Neurophysiol       Date:  2009-10-07       Impact factor: 2.714

5.  Identification of single neurons in a forebrain network.

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6.  Dissociation between sustained single-neuron spiking and transient β-LFP oscillations in primate motor cortex.

Authors:  Michael E Rule; Carlos E Vargas-Irwin; John P Donoghue; Wilson Truccolo
Journal:  J Neurophysiol       Date:  2017-01-18       Impact factor: 2.714

7.  Primary sensorimotor cortex exhibits complex dependencies of spike-field coherence on neuronal firing rates, field power, and behavior.

Authors:  F I Arce-McShane; B J Sessle; C F Ross; N G Hatsopoulos
Journal:  J Neurophysiol       Date:  2018-03-28       Impact factor: 2.714

8.  Reactivity of sensorimotor oscillations is altered in children with hemiplegic cerebral palsy: A magnetoencephalographic study.

Authors:  Elina Pihko; Päivi Nevalainen; Selja Vaalto; Kristina Laaksonen; Helena Mäenpää; Leena Valanne; Leena Lauronen
Journal:  Hum Brain Mapp       Date:  2014-02-12       Impact factor: 5.038

9.  Neocortical networks entrain neuronal circuits in cerebellar cortex.

Authors:  Hana Ros; Robert N S Sachdev; Yuguo Yu; Nenad Sestan; David A McCormick
Journal:  J Neurosci       Date:  2009-08-19       Impact factor: 6.167

10.  Corticomuscular coherence between motor cortex, somatosensory areas and forearm muscles in the monkey.

Authors:  Claire L Witham; Minyan Wang; Stuart N Baker
Journal:  Front Syst Neurosci       Date:  2010-07-30
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