Developmental changes within the extended face processing network: A cross‐sectional functional magnetic resonance imaging study
In the field of face processing, the so‐called “core network” has been intensively researched. Its neural activity can be reliably detected in children and adults using functional magnetic resonance imaging (fMRI). However, the core network's counterpart, the so‐called “extended network,” has b...
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| Published in | Developmental neurobiology (Hoboken, N.J.) Vol. 82; no. 1; pp. 64 - 76 |
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| Main Authors | , , , , , , , , |
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| Language | English |
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| Abstract | In the field of face processing, the so‐called “core network” has been intensively researched. Its neural activity can be reliably detected in children and adults using functional magnetic resonance imaging (fMRI). However, the core network's counterpart, the so‐called “extended network,” has been less researched. In the present study, we compared children's and adults’ brain activity in the extended system, in particular in the amygdala, the insula, and the inferior frontal gyrus (IFG). Using fMRI, we compared the brain activation pattern between children aged 7–9 years and adults during an emotional face processing task. On the one hand, children showed increased activity in the extended face processing system in relation to adults, particularly in the left amygdala, the right insula, and the left IFG. On the other hand, lateralization indices revealed a “leftward bias” in children's IFG compared to adults. These results suggest that brain activity associated with face processing is characterized by a developmental decrease in activity. They further show that the development is associated with a rightward migration of face‐related IFG activation, possibly due to the competition for neural space between several developing brain functions (“developmental competition hypothesis”). |
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| AbstractList | In the field of face processing, the so‐called “core network” has been intensively researched. Its neural activity can be reliably detected in children and adults using functional magnetic resonance imaging (fMRI). However, the core network's counterpart, the so‐called “extended network,” has been less researched. In the present study, we compared children's and adults’ brain activity in the extended system, in particular in the amygdala, the insula, and the inferior frontal gyrus (IFG). Using fMRI, we compared the brain activation pattern between children aged 7–9 years and adults during an emotional face processing task. On the one hand, children showed increased activity in the extended face processing system in relation to adults, particularly in the left amygdala, the right insula, and the left IFG. On the other hand, lateralization indices revealed a “leftward bias” in children's IFG compared to adults. These results suggest that brain activity associated with face processing is characterized by a developmental decrease in activity. They further show that the development is associated with a rightward migration of face‐related IFG activation, possibly due to the competition for neural space between several developing brain functions (“developmental competition hypothesis”). In the field of face processing, the so-called "core network" has been intensively researched. Its neural activity can be reliably detected in children and adults using functional magnetic resonance imaging (fMRI). However, the core network's counterpart, the so-called "extended network," has been less researched. In the present study, we compared children's and adults' brain activity in the extended system, in particular in the amygdala, the insula, and the inferior frontal gyrus (IFG). Using fMRI, we compared the brain activation pattern between children aged 7-9 years and adults during an emotional face processing task. On the one hand, children showed increased activity in the extended face processing system in relation to adults, particularly in the left amygdala, the right insula, and the left IFG. On the other hand, lateralization indices revealed a "leftward bias" in children's IFG compared to adults. These results suggest that brain activity associated with face processing is characterized by a developmental decrease in activity. They further show that the development is associated with a rightward migration of face-related IFG activation, possibly due to the competition for neural space between several developing brain functions ("developmental competition hypothesis").In the field of face processing, the so-called "core network" has been intensively researched. Its neural activity can be reliably detected in children and adults using functional magnetic resonance imaging (fMRI). However, the core network's counterpart, the so-called "extended network," has been less researched. In the present study, we compared children's and adults' brain activity in the extended system, in particular in the amygdala, the insula, and the inferior frontal gyrus (IFG). Using fMRI, we compared the brain activation pattern between children aged 7-9 years and adults during an emotional face processing task. On the one hand, children showed increased activity in the extended face processing system in relation to adults, particularly in the left amygdala, the right insula, and the left IFG. On the other hand, lateralization indices revealed a "leftward bias" in children's IFG compared to adults. These results suggest that brain activity associated with face processing is characterized by a developmental decrease in activity. They further show that the development is associated with a rightward migration of face-related IFG activation, possibly due to the competition for neural space between several developing brain functions ("developmental competition hypothesis"). |
| Author | Thome, Ina Kessler, Roman Jansen, Andreas Hildesheim, Franziska E. Sahraei, Isabell Rusch, Kristin M. Kamp‐Becker, Inge Stark, Rudolf Sommer, Jens |
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| CitedBy_id | crossref_primary_10_1111_jon_13185 crossref_primary_10_1016_j_neuroimage_2022_119587 crossref_primary_10_1016_j_neubiorev_2024_105729 |
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| Snippet | In the field of face processing, the so‐called “core network” has been intensively researched. Its neural activity can be reliably detected in children and... In the field of face processing, the so-called "core network" has been intensively researched. Its neural activity can be reliably detected in children and... |
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| SubjectTerms | Adult Amygdala Brain - diagnostic imaging Brain - physiology Brain mapping Brain Mapping - methods Child Children Children & youth Competition Cross-Sectional Studies extended face processing network Face Facial Recognition - physiology Frontal gyrus Functional magnetic resonance imaging Hemispheric laterality Humans inferior frontal gyrus insula lateralization Magnetic resonance imaging Magnetic Resonance Imaging - methods Neuroimaging |
| Title | Developmental changes within the extended face processing network: A cross‐sectional functional magnetic resonance imaging study |
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