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[without reference to a Main Committee (A/70/L.1)] 70/1. Transforming our world: the 2030 Agenda for Sustainable Development. This resolution contains the 17 Sustainable Development Goals (SDGs). Their targets and indicators are in a resolution from 2017
Simplified diagram of frontal cortex to striatum to thalamus pathways. There are five defined frontostriatal circuits: motor and oculomotor circuits originating in the frontal eye fields are involved in motor functions; while dorsolateral prefrontal, orbital frontal, and anterior cingulate circuits are involved in executive functions, social behavior and motivational states. [2]
Two main frontal areas have been implicated in the dream process. The first involves the deep white matter of the frontal lobes (just above the eyes). The main systems at work here involve the mesolimbic and mesocortical dopaminergic pathways. There are connecting fibres that run between frontal and limbic structures.
View of the parietal lobe (red) in the left cerebral hemisphere. The parietal lobe is typically involved in processing sensory information and is situated in the superior region of the brain. [20] For prospective memory, the parietal lobe is important for recognizing cues that trigger an intended action, especially when the cues are visual or ...
The specific regions that show the most robust correlation between volume and intelligence are the frontal, temporal and parietal lobes of the brain. [ 10 ] [ 11 ] [ 12 ] A large number of studies have been conducted with uniformly positive correlations, leading to the generally safe conclusion that larger brains predict greater intelligence.
For example, children with learning difficulties have been found to exhibit persistent primitive reflexes. [25] In addition, a persistent ATNR has been found to be associated with lower reading and spelling scores, [26] and children with reading problems tend to display the tonic labyrinthine reflex more than children without reading problems. [27]
The orbitofrontal cortex (OFC) is a prefrontal cortex region in the frontal lobes of the brain which is involved in the cognitive process of decision-making. In non-human primates it consists of the association cortex areas Brodmann area 11, 12 and 13; in humans it consists of Brodmann area 10, 11 and 47. [1]
This form of development (known as "Proportional Development") explains why motor functions typically develop relatively quickly during childhood, while logic, which is controlled by the middle and front portions of the frontal lobe, usually will not develop until late childhood or early adolescence. [99]