Consequences of adolescent's evening preference on psychological functioning: a review

This review provides an overview of the role of circadian preference in psychological functioning of adolescents taking into account their shift to eveningness during this stage of life. After a brief explanation about morningness/eveningness and other terms related, an overview of the changes that occur on three of the most important areas in the adolescent‟s life is presented: school performance, personality styles, and health. Consequences of evening preference on school achievement are considered from the analysis of the relevance of sleep debt and time-of-day in cognition and mood aspects. In general, students who are able to choose activity times coinciding with their preferred times may have a greater opportunity to optimize their performance. The personality styles and health of morning and evening types are also important factors related to school and family adaptation. At last, some recommendations and conclusions in order to promote a healthy psychological functioning are described.

The right hippocampus leads the bilateral integration of gamma-parsed lateralized information

It is unclear whether the two hippocampal lobes convey similar or different activities and how they cooperate. Spatial discrimination of electric fields in anesthetized rats allowed us to compare the pathway-specific field potentials corresponding to the gamma-paced CA3 output (CA1 Schaffer potentials) and CA3 somatic inhibition within and between sides. Bilateral excitatory Schaffer gamma waves are generally larger and lead from the right hemisphere with only moderate covariation of amplitude, and drive CA1 pyramidal units more strongly than unilateral waves. CA3 waves lock to the ipsilateral Schaffer potentials, although bilateral coherence was weak. Notably, Schaffer activity may run laterally, as seen after the disruption of the connecting pathways. Thus, asymmetric operations promote the entrainment of CA3-autonomous gamma oscillators bilaterally, synchronizing lateralized gamma strings to converge optimally on CA1 targets. The findings support the view that interhippocampal connections integrate different aspects of information that flow through the left and right lobes.