The transition from late adolescence to young adulthood is marked by anatomical maturation of various brain regions. In parallel, defining life changes take place, such as entrance into college. Up till now research has not focused on functional brain differences during this particular developmental stage. The current cross-sectional fMRI study investigates age differences in cognitive control by comparing late adolescents, 18-19 years old, with young adults, 23-25 years old. Seventy-four male and female medical students carried out a combined cognitive and emotional Stroop task. Overall, lateral frontoparietal and medial parietal activation was observed during cognitive interference resolution. Young adults showed stronger activation in th...
Adolescents often fail to adaptively regulate their emotions and behaviors. This is most clearly dem...
AbstractWorking memory ability matures through puberty and early adulthood. Deficits in working memo...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
AbstractThe transition from late adolescence to young adulthood is marked by anatomical maturation o...
Background: Adolescence is a time of ongoing neural maturation and cognitive development, especially...
Cortical regions supporting cognitive control and memory judgment are structurally immature in adole...
An individual is typically considered an adult at age 18, although the age of adulthood varies for d...
Imaging studies on neuronal network formation provide relevant information as to how the brain matur...
Adolescence is commonly characterized by impulsivity, poor decision-making, and lack of foresight. H...
This study used functional magnetic resonance imaging (fMRI) to examine the neural systems activated...
During task performance, our level of cognitive control is dynamically adjusted to task demands as r...
Adolescence is commonly characterized by impulsivity, poor decision-making, and lack of foresight. H...
Working memory ability matures through puberty and early adulthood. Deficits in working memory are l...
Critical changes in adolescence involve brain cognitive maturation of inhibitory control processes t...
Salient maturational changes in cognitive functioning not only characterize the first years of a chi...
Adolescents often fail to adaptively regulate their emotions and behaviors. This is most clearly dem...
AbstractWorking memory ability matures through puberty and early adulthood. Deficits in working memo...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...
AbstractThe transition from late adolescence to young adulthood is marked by anatomical maturation o...
Background: Adolescence is a time of ongoing neural maturation and cognitive development, especially...
Cortical regions supporting cognitive control and memory judgment are structurally immature in adole...
An individual is typically considered an adult at age 18, although the age of adulthood varies for d...
Imaging studies on neuronal network formation provide relevant information as to how the brain matur...
Adolescence is commonly characterized by impulsivity, poor decision-making, and lack of foresight. H...
This study used functional magnetic resonance imaging (fMRI) to examine the neural systems activated...
During task performance, our level of cognitive control is dynamically adjusted to task demands as r...
Adolescence is commonly characterized by impulsivity, poor decision-making, and lack of foresight. H...
Working memory ability matures through puberty and early adulthood. Deficits in working memory are l...
Critical changes in adolescence involve brain cognitive maturation of inhibitory control processes t...
Salient maturational changes in cognitive functioning not only characterize the first years of a chi...
Adolescents often fail to adaptively regulate their emotions and behaviors. This is most clearly dem...
AbstractWorking memory ability matures through puberty and early adulthood. Deficits in working memo...
The mature brain is organized into distinct neural networks defined by regions demonstrating correla...