While the neural basis for linguistic communication has been linked to brain structural asymmetries found only in humans (wider connective spacing is found between the minicolumns of neurons in the left hemisphere language areas), it is unknown if the opposite microanatomical asymmetry exists in the fusiform gyrus which typically supports a right hemisphere bias for face processing. Unlike language, face processing is an ability shared with chimpanzees and, as Darwin observed, the widespread use of facial expressions in animal communication suggests a biological basis. We tested the principle that minicolumn asymmetry follows typical functional dominance in humans, and tested its evolutionary continuity, by measuring minicolumn width, neuro...
Brain lateralization is commonly interpreted as crucial for human brain function and cognition. Howe...
Most face processing studies in humans show stronger activation in the right compared to the left he...
The left hemisphere of the human brain is dominant in the production of speech and signed language. ...
While the neural basis for linguistic communication has been linked to brain structural asymmetries ...
The presence of asymmetry in the human cerebral hemispheres is detectable at both the macroscopic an...
The presence of asymmetry in the human cerebral hemispheres is detectable at both the macroscopic an...
Humans are the only species that can speak. Nonhuman primates, however, share some "domain-general" ...
Humans are the only species that can speak. Nonhuman primates, however, share some ‘domain-general’ ...
Humans are the only species that can speak. Nonhuman primates, however, share some ‘domain-general’ ...
The evolution of the brain in apes and man followed a joint pathway stemming from common ancestors 5...
The human cerebral cortex is symmetrically organized along large-scale axes but also presents inter-...
The human cerebral cortex is symmetrically organized along large-scale axes but also presents inter-...
Experimental and clinical studies have generally shown that the neural mechanisms for face processin...
hominids and modern humans suggest that cerebral lateralisation underlies the human capacity for lan...
The planum temporale (PT) is a critical region of the language functional network in the human brain...
Brain lateralization is commonly interpreted as crucial for human brain function and cognition. Howe...
Most face processing studies in humans show stronger activation in the right compared to the left he...
The left hemisphere of the human brain is dominant in the production of speech and signed language. ...
While the neural basis for linguistic communication has been linked to brain structural asymmetries ...
The presence of asymmetry in the human cerebral hemispheres is detectable at both the macroscopic an...
The presence of asymmetry in the human cerebral hemispheres is detectable at both the macroscopic an...
Humans are the only species that can speak. Nonhuman primates, however, share some "domain-general" ...
Humans are the only species that can speak. Nonhuman primates, however, share some ‘domain-general’ ...
Humans are the only species that can speak. Nonhuman primates, however, share some ‘domain-general’ ...
The evolution of the brain in apes and man followed a joint pathway stemming from common ancestors 5...
The human cerebral cortex is symmetrically organized along large-scale axes but also presents inter-...
The human cerebral cortex is symmetrically organized along large-scale axes but also presents inter-...
Experimental and clinical studies have generally shown that the neural mechanisms for face processin...
hominids and modern humans suggest that cerebral lateralisation underlies the human capacity for lan...
The planum temporale (PT) is a critical region of the language functional network in the human brain...
Brain lateralization is commonly interpreted as crucial for human brain function and cognition. Howe...
Most face processing studies in humans show stronger activation in the right compared to the left he...
The left hemisphere of the human brain is dominant in the production of speech and signed language. ...