Tehila Eilam‐Stock scite author profile

Accumulating evidence suggests that autonomic signals and their cortical representations are closely linked to emotional processes, and that related abnormalities could lead to social deficits. Although socio-emotional impairments are a defining feature of autism spectrum disorder (ASD), empirical evidence directly supporting the link between autonomic, cortical, and socio-emotional abnormalities in ASD is still lacking. In this study, we examined autonomic arousal indexed by skin conductance responses (SCR), concurrent cortical responses measured by functional magnetic resonance imaging, and effective brain connectivity estimated by dynamic causal modeling, in seventeen un-medicated high-functioning adults with ASD and seventeen matched controls, while they performed an empathy-for-pain task. Compared to controls, adults with ASD showed enhanced SCR related to empathetic pain, along with increased neural activity in the anterior insular cortex, although their behavioral empathetic pain discriminability was reduced and overall SCR was decreased. ASD individuals also showed enhanced correlation between SCR and neural activities in the anterior insula. Importantly, significant group differences in effective brain connectivity were limited to greater reduction in the negative intrinsic connectivity of the anterior insular cortex in the ASD group, indicating a failure in attenuating anterior insular responses to empathetic pain. These results suggest that aberrant interoceptive precision, as indexed by abnormalities in autonomic activity and its central representations, may underlie empathy deficits in ASD.

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Bisphenol-A impairs memory and reduces dendritic spine density in adult male rats.

Eilam‐Stock

Serrano

Frankfurt

et al. 2012

Behavioral Neuroscience

107

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Exposure to Bisphenol-A (BPA), an endocrine disruptor used in plastics, occurs in the United States on a daily basis. Recent studies suggest exposure during development causes memory deficits later in life, however the ramifications of exposure in adulthood are unclear. We examined the effects of acute BPA administration (40μg/kg) on memory and synaptic plasticity in adult male rats. BPA significantly impaired both visual and spatial memory and decreased dendritic spine density on pyramidal cells in CA1 and the medial prefrontal cortex (mPFC). Additionally, BPA significantly decreased PSD-95, a synaptic marker, in the hippocampus and increased cytosolic pCREB, a transcription factor, in mPFC. Together, these findings show that a single dose of BPA, below the U.S.E.P.A. reference safe daily limit of 50 ug/kg/day, may block the formation of new memories by interfering with neural plasticity processes in the adult brain.

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Tehila Eilam‐Stock

Autonomic and brain responses associated with empathy deficits in autism spectrum disorder

Bisphenol-A impairs memory and reduces dendritic spine density in adult male rats.

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