Humans have a strong need for social connections, which provide social security and a feeling of social acceptance. Across adolescence, peers emerge as important social interaction partners to... Show moreHumans have a strong need for social connections, which provide social security and a feeling of social acceptance. Across adolescence, peers emerge as important social interaction partners to fulfill the need for social connections. In her dissertation, Elisabeth Schreuders highlights adolescence as a sensitive period for pursuing personal goals and social development through interactions with different familiar peers, particularly friends.Neural reward-related processes and neural processes underlying prosocial behavior were examined using longitudinal and ecologically valid research designs. The findings show involvement of changes in ventral striatum reward sensitivity from early to mid-adolescence in the motivation to pursue personally valued goals, including stable friendships. It was furthermore found that adults who to a lesser extent adhered to the social norm of behaving in a prosocial manner toward friends yielded greater activity in the supplementary motor area and anterior insula. Additionally, exploratory analyses showed that mid-adolescents with greater social competence yielded greater activity in several brain areas implicated in prosocial decision-making involving friends, including the putamen and superior parietal lobule. Together, these findings highlight adolescence as a sensitive period for self and social development, in which social motivations are reflected in interactions with different types of peers. Show less
Achterberg, M.; Bakermans, M.J.; IJzendoorn, M.H. van; Meulen, M. van der; Tottenham, N.; Crone, E.A.M. 2018
Connectivity between limbic/subcortical and prefrontal-cortical brain regions develops considerably across childhood, but less is known about the heritability of these networks at this age. We... Show moreConnectivity between limbic/subcortical and prefrontal-cortical brain regions develops considerably across childhood, but less is known about the heritability of these networks at this age. We tested the heritability of limbic/subcortical-cortical and limbic/subcortical-subcortical functional brain connectivity in 7- to 9-year-old twins (N = 220), focusing on two key limbic/subcortical structures: the ventral striatum and the amygdala, given their combined influence on changing incentivised behavior during childhood and adolescence. Whole brain analyses with ventral striatum (VS) and amygdala as seeds in genetically independent groups showed replicable functional connectivity patterns. The behavioral genetic analyses revealed that in general VS and amygdala connectivity showed distinct influences of genetics and environment. VS-prefrontal cortex connections were best described by genetic and unique environmental factors (the latter including measurement error), whereas amygdala-prefrontal cortex connectivity was mainly explained by environmental influences. Similarities were also found: connectivity between both the VS and amygdala and ventral anterior cingulate cortex (vACC) showed influences of shared environment, while connectivity with the orbitofrontal cortex (OFC) showed heritability. These findings may inform future interventions that target behavioral control and emotion regulation, by taking into account genetic dispositions as well as shared and unique environmental factors such as child rearing. Show less