Eugene Kronberg scite author profile

Spontaneous magnetoencephalographic activity was recorded in awake, healthy human controls and in patients suffering from neurogenic pain, tinnitus, Parkinson's disease, or depression. Compared with controls, patients showed increased low-frequency rhythmicity, in conjunction with a widespread and marked increase of coherence among high-and low-frequency oscillations. These data indicate the presence of a thalamocortical dysrhythmia, which we propose is responsible for all the above mentioned conditions. This coherent activity, the result of a resonant interaction between thalamus and cortex, is due to the generation of lowthreshold calcium spike bursts by thalamic cells. The presence of these bursts is directly related to thalamic cell hyperpolarization, brought about by either excess inhibition or disfacilitation. The emergence of positive clinical symptoms is viewed as resulting from ectopic ␥-band activation, which we refer to as the ''edge effect.'' This effect is observable as increased coherence between low-and high-frequency oscillations, probably resulting from inhibitory asymmetry between high-and low-frequency thalamocortical modules at the cortical level.edge effect ͉ activity ͉ ␥ activity ͉ humans

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Residual cerebral activity and behavioural fragments can remain in the persistently vegetative brain

Schiff

et al. 2002

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Transient and steady-state auditory gamma-band responses in first-degree relatives of people with autism spectrum disorder

et al. 2011

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BackgroundStimulus-related γ-band oscillations, which may be related to perceptual binding, are reduced in people with autism spectrum disorders (ASD). The purpose of this study was to examine auditory transient and steady-state γ-band findings in first-degree relatives of people with ASD to assess the potential familiality of these findings in ASD.MethodsMagnetoencephalography (MEG) recordings in 21 parents who had a child with an autism spectrum disorder (pASD) and 20 healthy adult control subjects (HC) were obtained. Gamma-band phase locking factor (PLF), and evoked and induced power to 32, 40 and 48 Hz amplitude-modulated sounds were measured for transient and steady-state responses. Participants were also tested on a number of behavioral and cognitive assessments related to the broad autism phenotype (BAP).ResultsReliable group differences were seen primarily for steady-state responses. In the left hemisphere, pASD subjects exhibited lower phase-locked steady-state power in all three conditions. Total γ-band power, including the non-phase-locked component, was also reduced in the pASD group. In addition, pASD subjects had significantly lower PLF than the HC group. Correlations were seen between MEG measures and BAP measures.ConclusionsThe reduction in steady-state γ-band responses in the pASD group is consistent with previous results for children with ASD. Steady-state responses may be more sensitive than transient responses to phase-locking errors in ASD. Together with the lower PLF and phase-locked power in first-degree relatives, correlations between γ-band measures and behavioral measures relevant to the BAP highlight the potential of γ-band deficits as a potential new autism endophenotype.

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Eugene Kronberg

Thalamocortical dysrhythmia: A neurological and neuropsychiatric syndrome characterized by magnetoencephalography

Residual cerebral activity and behavioural fragments can remain in the persistently vegetative brain

Transient and steady-state auditory gamma-band responses in first-degree relatives of people with autism spectrum disorder

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