Arash Aghamohammadi‐Sereshki scite author profile

The involvement of the human amygdala in emotion-related processing has been studied using functional magnetic resonance imaging (fMRI) for many years. However, despite the amygdala being comprised of several subnuclei, most studies investigated the role of the entire amygdala in processing of emotions. Here we combined a novel anatomical tracing protocol with eventrelated high-resolution fMRI acquisition to study the responsiveness of the amygdala subnuclei to negative emotional stimuli and to examine intra-amygdala functional connectivity. The greatest sensitivity to negative emotional stimuli was observed in the centromedial amygdala, where the hemodynamic response amplitude elicited by negative emotional stimuli was greater and peaked later than for neutral stimuli. Connectivity patterns converge with extant findings in animals, such that the strongest connectivity was between the lateral nucleus and the nuclei of the basal amygdala. Current findings provide evidence of functional specialization within the human amygdala.

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In vivo quantification of amygdala subnuclei using 4.7 T fast spin echo imaging

Aghamohammadi‐Sereshki

Huang

Olsen

et al. 2018

NeuroImage

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Amygdala subnuclei and healthy cognitive aging

Aghamohammadi‐Sereshki

Hrybouski

Travis

et al. 2018

Human Brain Mapping

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Amygdala is a group of nuclei involved in the neural circuits of fear, reward learning, and stress. The main goal of this magnetic resonance imaging (MRI) study was to investigate the relationship between age and the amygdala subnuclei volumes in a large cohort of healthy individuals. Our second goal was to determine effects of the apolipoprotein E (APOE) and brain‐derived neurotrophic factor (BDNF) polymorphisms on the amygdala structure. One hundred and twenty‐six healthy participants (18–85 years old) were recruited for this study. MRI datasets were acquired on a 4.7 T system. Amygdala was manually segmented into five major subdivisions (lateral, basal, accessory basal nuclei, and cortical, and centromedial groups). The BDNF (methionine and homozygous valine) and APOE genotypes (ε2, homozygous ε3, and ε4) were obtained using single nucleotide polymorphisms. We found significant nonlinear negative associations between age and the total amygdala and its lateral, basal, and accessory basal nuclei volumes, while the cortical amygdala showed a trend. These age‐related associations were found only in males but not in females. Centromedial amygdala did not show any relationship with age. We did not observe any statistically significant effects of APOE and BDNF polymorphisms on the amygdala subnuclei volumes. In contrast to APOE ε2 allele carriers, both older APOE ε4 and ε3 allele carriers had smaller lateral, basal, accessory basal nuclei volumes compared to their younger counterparts. This study indicates that amygdala subnuclei might be nonuniformly affected by aging and that age‐related association might be gender specific.

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