Researchers interested in hemispheric dominance frequently aim to infer latent functional differences between the hemispheres from observed lateral behavioural or brain-activation differences. To be valid, these inferences may not only rely on the observed laterality measures but also need to account for the antecedent probabilities of the studied latent classes. This fact is frequently ignored in the literature, leading to misclassifications especially when considering low probability classes as, for example, “atypical” right hemispheric language dominance. In the present paper, we revisit this inference problem (a) by outlining a general Bayesian framework for the inferential process and (b) by exemplarily applying this framework on the i...
Left-hemispheric language dominance has been suggested by observations in patients with brain damage...
Language and spatial processing are cognitive functions that are asymmetrically distributed across b...
Background Most people have strong left-brain lateralisation for language, with a minority showing ...
Researchers interested in hemispheric dominance frequently aim to infer latent functional difference...
Left-handers provide unique information about the relationship between cognitive functions because o...
Music processing and right hemispheric language lateralization share a common network in the right a...
Hemispheric lateralisation is a fundamental principle of functional brain organisation. We studied t...
There is a clearly established division of functional processing between left and right hemispheres ...
Dichotic listening is a well-established method to non-invasively assess hemispheric specialization ...
Words presented to the right visual field (RVF) are processed more rapidly than those in the left vi...
While functional lateralization of the human brain has been a widely studied topic in the past decad...
Music processing and right hemispheric language lateralization share a common network in the right a...
All major mental functions including language, spatial and emotional processing are lateralized but ...
Background: Most people have strong left-brain lateralisation for language, with a minority showing ...
Language and spatial processing are cognitive functions that are asymmetrically distributed across b...
Left-hemispheric language dominance has been suggested by observations in patients with brain damage...
Language and spatial processing are cognitive functions that are asymmetrically distributed across b...
Background Most people have strong left-brain lateralisation for language, with a minority showing ...
Researchers interested in hemispheric dominance frequently aim to infer latent functional difference...
Left-handers provide unique information about the relationship between cognitive functions because o...
Music processing and right hemispheric language lateralization share a common network in the right a...
Hemispheric lateralisation is a fundamental principle of functional brain organisation. We studied t...
There is a clearly established division of functional processing between left and right hemispheres ...
Dichotic listening is a well-established method to non-invasively assess hemispheric specialization ...
Words presented to the right visual field (RVF) are processed more rapidly than those in the left vi...
While functional lateralization of the human brain has been a widely studied topic in the past decad...
Music processing and right hemispheric language lateralization share a common network in the right a...
All major mental functions including language, spatial and emotional processing are lateralized but ...
Background: Most people have strong left-brain lateralisation for language, with a minority showing ...
Language and spatial processing are cognitive functions that are asymmetrically distributed across b...
Left-hemispheric language dominance has been suggested by observations in patients with brain damage...
Language and spatial processing are cognitive functions that are asymmetrically distributed across b...
Background Most people have strong left-brain lateralisation for language, with a minority showing ...