Extracellular voltage fluctuations (local field potentials, LFPs) reflecting neural mass action are ubiquitous across species and brain regions. Numerous studies have characterized the properties of LFP signals in the cortex to study sensory and motor computations as well as cognitive processes like attention, perception and memory. In addition, its extracranial counterpart – the electroencephalogram – is widely used in clinical applications. However, the link between LFP signals and the underlying activity of local populations of neurons remains largely elusive. Here, we review recent work elucidating the relationship between spiking activity of local neural populations and LFP signals. We focus on oscillations in the gamma-band (30–90 Hz) of the LFP in the primary visual cortex (V1) of the macaque that dominate during visual stimulation. Given that in area V1 much is known about the properties of single neurons and the cortical architecture, it provides an excellent opportunity to study the mechanisms underlying the generation of the LFP

Alexander S Ecker

Andreas S Tolias

Georgios A Keliris

Nikos K Logothetis

Philipp Berens

English

PubMed

Extra-cellular voltage fluctuations (local field potentials; LFPs) reflecting neural mass action are ubiquitous across species and brain regions. Numerous studies have characterized the properties of LFP signals in the cortex to study sensory and motor computations as well as cognitive processes like attention, perception and memory. In addition, its extracranial counterpart &#8211; the electroencelphalogram (EEG) &#8211; is widely used in clinical applications. However, the link between LFP signals and the underlying activity of local populations of neurons remains largely elusive. Here, we review recent work elucidating the relationship between spiking activity of local neural populations and LFP signals. We focus on oscillations in the gamma-band (30-90Hz) of the local field potential in the primary visual cortex (V1) of the macaque that dominate during visual stimulation. Given that in area V1 much is known about the properties of single neurons and the cortical architecture, it provides an excellent opportunity to study the mechanisms underlying the generation of the local field potential

Directory of Open Access Journals

Frontiers in Neuroscience

Feature selectivity of the gamma-band of the local field potential in primate primary visual cortex

Extracellular voltage fluctuations (local field potentials, LFPs) reflecting neural mass action are ubiquitous across species and brain regions. Numerous studies have characterized the properties of LFP signals in the cortex to study sensory and motor computations as well as cognitive processes like attention, perception and memory. In addition, its extracranial counterpart - the electroencephalogram - is widely used in clinical applications. However, the link between LFP signals and the underlying activity of local populations of neurons remains largely elusive. Here, we review recent work elucidating the relationship between spiking activity of local neural populations and LFP signals. We focus on oscillations in the gamma-band (30-90 Hz) of the LFP in the primary visual cortex (V1) of the macaque that dominate during visual stimulation. Given that in area V1 much is known about the properties of single neurons and the cortical architecture, it provides an excellent opportunity to study the mechanisms underlying the generation of the LFP

Berens, Philipp

Keliris, Georgios A

Ecker, Alexander S

Logothetis, Nikos K

Tolias, Andreas S

The University of Manchester - Institutional Repository

Feature selectivity of the gamma-band of the local field potential in primate primary visual cortex.

Crossref

Extra-cellular voltage fluctuations (local field potentials; LFPs) reflecting neural mass action are ubiquitous across species and brain regions. Numerous studies have characterized the properties of LFP signals in the cortex to study sensory and motor computations as well as cognitive processes like attention, perception and memory. In addition, its extracranial counterpart  the electroencelphalogram (EEG)  is widely used in clinical applications. However, the link between LFP signals and the underlying activity of local populations of neurons remains largely elusive. Here, we review recent work elucidating the relationship between spiking activity of local neural populations and LFP signals. We focus on oscillations in the gamma-band (30-90Hz) of the local field potential in the primary visual cortex (V1) of the macaque that dominate during visual stimulation. Given that in area V1 much is known about the properties of single neurons and the cortical architecture, it provides an excellent opportunity to study the mechanisms underlying the generation of the local field potential

Berens, P.

Keliris, G.

Ecker, A.

Logothetis, N.

Tolias, A.

MPG.PuRe

Extra-cellular voltage fluctuations (local field potentials; LFPs) reflecting neural mass action are ubiquitous across species and brain regions. Numerous studies have characterized the properties of LFP signals in the cortex to study sensory and motor computations as well as cognitive processes like attention, perception and memory. In addition, its extracranial counterpart  the electroencelphalogram (EEG)  is widely used in clinical applications. However, the link between LFP signals and the underlying activity of local populations of neurons remains largely elusive. Here, we review recent work elucidating the relationship between spiking activity of local neural populations and LFP signals. We focus on oscillations in the gamma-band (30-90Hz) of the local field potential in the primary visual cortex (V1) of the macaque that dominate during visual stimulation. Given that in area V1 much is known about the properties of single neurons and the cortical architecture, it provides an excellent opportunity to
study the mechanisms underlying the generation of the local field potential

Keliris, G.A.

Ecker, A.S.

Logothetis, N.K.

Tolias, A.S.

Max Planck Society eDoc Server

2, 2: 199– 207. doi: 10.3389/neuro.01.037.2008 Copyright: ©

A functional gamma-band deﬁ ned by stimulus-dependent synchronization in area 18 of awake behaving cats.

Afterpotentials and transduction properties in different types of central neurones.

Amplitude variability and extracellular low-pass ﬁ ltering of neuronal spikes.

Anatomical substrates for functional columns in macaque monkey primary visual cortex.

Circuits for local and global signal integration in primary visual cortex.

Coherent oscillatory activity in monkey area v4 predicts successful allocation of attention.

Comparison of spatial integration and surround suppression characteristics in spiking activity and the local ﬁ eld potential in macaque V1.

Cortical local field potential encodes movement intentions in the posterior parietal cortex.

Coupling between neuronal ﬁ ring rate, gamma LFP, and BOLD fMRI is related to interneuronal correlations.

Current sourcedensity method and application in cat cerebral cortex: investigation of evoked potentials and EEG phenomena.

Dynamic predictions: oscillations and synchrony in top-down processing.

Effect of stimulus intensity on the spike-local ﬁ eld potential relationship in the secondary somatosensory cortex.

Encoding of naturalistic stimuli by local ﬁ eld potential spectra in networks of excitatory and inhibitory neurons. PLoS Comput. Biol.

Entrainment of neocortical neurons and gamma oscillations by the hippocampal theta rhythm.

Fast oscillations display sharper orientation tuning than slower components of the same recordings in striate cortex of the awake monkey.

Ferrier lecture. Functional architecture of macaque monkey visual cortex.

Foundations of cellular neurophysiology.

Frequency scaling in local ﬁ eld potentials: A neuron population forward modelling study. Frontiers in Neuroinformatics [Conference Abstracts: Neuroinformatics

Grouping of brain rhythms in corticothalamic systems.

In vivo measurement of cortical impedance spectrum in monkeys: implications for signal propagation.

Inference of hand movements from local field potentials in monkey motor cortex.

Inferring spike trains from local ﬁ eld potentials.

Inhibitory postsynaptic potentials carry synchronized frequency information in active cortical networks.

Interneurons unbound.

Intracellular features predicted by extracellular recordings in the hippocampus in vivo.

Layer, column and cell-type speciﬁ c genetic manipulation in mouse barrel cortex.

LFP power spectra in V1 cortex: the graded effect of stimulus contrast.

Local ﬁ eld potential reﬂ ects perceptual suppression in monkey visual cortex.

Mechanisms of gamma oscillations in the hippocampus of the behaving rat.

Modulation of oscillatory neuronal synchronization by selective visual attention.

Neural correlates of high-gamma oscillations (60–200 Hz) in macaque local field potentials and their potential implications in electrocorticography.

Neuronal selectivity and local map structure in visual cortex.

Neurophysiological investigation of the basis of the fMRI signal.

Neurophysiology of the BOLD fMRI signal in awake monkeys.

On oscillating neuronal responses in the visual cortex of the monkey.

Orientation selectivity in macaque V1: diversity and laminar dependence.

Oscillations in local ﬁ eld potentials of the primate motor cortex during voluntary movement.

Perception-related modulations of local ﬁ eld potential power and coherence in primary visual cortex of awake monkey during binocular rivalry.

Properties of the evoked potential generators: current source-density analysis of visually evoked potentials in the cat cortex.

Receptive ﬁ elds and functional architecture of monkey striate cortex.

Relationships between orientationpreference pinwheels, cytochrome oxidase blobs, and ocular-dominance columns in primate striate cortex.

Selecting the signals for a brain-machine interface.

Sequence regularity and geometry of orientation columns in the monkey striate cortex.

Simultaneous recordings of multi-unit activity (MUA) and surface EEG in alert macaques during presentation of movie clips.

Speciﬁ c impedance of rabbit cerebral cortex.

Synaptic mechanisms of synchronized gamma oscillations in inhibitory interneuron networks.

Synchronized oscillations in interneuron networks driven by metabotropic glutamate receptor activation.

Temporal structure in neuronal activity during working memory in macaque parietal cortex.

Tetrodes markedly improve the reliability and yield of multiple single-unit isolation from multi-unit recordings in cat striate cortex.

The effects Frontiers in Neuroscience www.frontiersin.org

The gamma cycle.

The underpinnings of the BOLD functional magnetic resonance imaging signal.

Theta oscillations in somata and dendrites of hippocampal pyramidal cells in vivo: activitydependent phase-precession of action potentials.

Three-dimensional random access multiphoton microscopy for functional imaging of neuronal activity.

Timeline of the history of EEG and associated ﬁ elds.

Tuning to sound frequency in auditory ﬁ eld potentials.

Visual stimulation elicits

What we can do and what we cannot do with fMRI.

http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2622750

Feature Selectivity of the Gamma-Band of the Local Field Potential in Primate Primary Visual Cortex

Feature Selectivity of the Gamma-Band of the Local Field Potential in Primate Primary Visual Cortex

Abstract

Similar works

Full text

Available Versions

Directory of Open Access Journals

The University of Manchester - Institutional Repository

Crossref

MPG.PuRe

Max Planck Society eDoc Server

MPG.PuRe