2010
DOI: 10.1007/s00422-010-0390-x
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Gamma oscillations as a mechanism for selective information transmission

Abstract: In the past decades, many studies have focussed on the relation between the input and output of neurons with the aim to understand information processing by neurons. A particular aspect of neuronal information, which has not received much attention so far, concerns the problem of information transfer when a neuron or a population of neurons receives input from two or more (populations of) neurons, in particular when these (populations of) neurons carry different types of information. The aim of the present stu… Show more

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Cited by 33 publications
(49 citation statements)
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References 40 publications
(64 reference statements)
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“…Gielen et al (2010) have conducted a theoretical and computer simulation study, and have come to the conclusion that the target neuron(s) fired in a pattern that was highly phase-locked with the larger of the two afferent signals. The question then arises what is the result if they are of equal size.…”
Section: Experiments To Test Our Hypothesismentioning
confidence: 99%
“…Gielen et al (2010) have conducted a theoretical and computer simulation study, and have come to the conclusion that the target neuron(s) fired in a pattern that was highly phase-locked with the larger of the two afferent signals. The question then arises what is the result if they are of equal size.…”
Section: Experiments To Test Our Hypothesismentioning
confidence: 99%
“…Their implicated roles also vary widely as a function of their amplitude and frequency [8,48]. While high frequency gamma oscillations are thought to play an important role during focused attention and recall [2,4], slower theta/beta band oscillations are thought to be important for learning [49,50].…”
Section: Discussionmentioning
confidence: 99%
“…Delta (1-4 Hz) [11], theta (4-10 Hz) [4,12], alpha (8)(9)(10)(11)(12) Hz) [11], and gamma (25-100 Hz) [2,3,[13][14][15][16] frequencies are more than just categorical denominations as each range is prominent and have independent functions in different areas. Accordingly, a considerable amount of work has been dedicated to the mechanisms involved in the generation of these oscillations (for example [15,17,18] and references therein).…”
mentioning
confidence: 99%
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“…In pursuit of the idea that synchronous rhythms are actually relevant to adaptive brain functioning, increasingly specific relationships have been proposed between neuronal oscillations and numerous cognitive functions. For instance, evidence from studies of the cortical gamma rhythm suggests that it is associated with temporal binding of sensory stimuli (Kaiser et al 2009;Tallon-Baudry 2009;Sederberg et al 2007), information transmission (Gielen et al 2010;Börgers and Kopell 2008;Li et al 2011), attentiveness (Lakatos et al 2008;Gu and Liljenström 2007), cognitive processing (Rojas-Líbano and Kay 2008), focused arousal (Lee et al 2001), sensory perception (Correa and Nobre 2008;Schroeder and Lakatos 2009) and movement (Cheyne et al 2008), memory (Ventriglia 2008). In addition to above evidence for normal function related with gamma oscillatory, more recent results clearly indicate that an altered or aberrant version of normal gamma oscillatory activity may be associated with cognitive and behavioral impairments in schizophrenia (Uhlhaas et al 2006;Uhlhaas and Singer 2010;Haenschel et al 2009).…”
Section: Introductionmentioning
confidence: 99%