Lesion analysis in brain-injured populations complements what can be learned from functional neuroimaging. Voxelbased approaches to mapping lesion–behavior correlations in brain-injured populations are increasingly popular, and have the potential to leverage image analysis methods drawn from functional magnetic resonance imaging. However, power is a major concern for these studies, and is likely to vary regionally due to the distribution of lesion locations. Here, we outline general considerations for voxel-based methods, characterize the use of a nonparametric permutation test adapted from functional neuroimaging, and present methods for regional power analysis in lesion studies
Clinical research based on neuroimaging data has benefited from machine learning methods, which have...
The human brain is the most complex structure known. With its high number of cells, number of connec...
The study of patients with brain lesions has made major historical contributions to cognitive neuros...
Lesion analysis in brain-injured populations complements what can be learned from functional neuroim...
Power in Voxel-based Lesion–Symptom Mapping Lesion analysis in brain-injured populations complements...
AbstractElucidating the brain basis for psychological processes and behavior is a fundamental aim of...
Elucidating the brain basis for psychological processes and behavior is a fundamental aim of cogniti...
International audienceStudying brain-injured patients is important for investigating structure-funct...
For more than a century, lesion–symptom mapping studies have yielded valuable insights into the rela...
<p>(A) Lesion prevalence map. Voxels with white matter lesions in at least 10 patients are projected...
Lesion-symptom mapping is a key tool in understanding the relationship between structure and functio...
AbstractStudies attempting to map post-stroke cognitive or motor symptoms to lesion location have be...
An ever-increasing number of functional magnetic resonance imaging (fMRI) studies are now using info...
SummaryThe Wechsler Adult Intelligence Scale (WAIS) assesses a wide range of cognitive abilities and...
AbstractNeurological damage, due to conditions such as stroke, results in a complex pattern of struc...
Clinical research based on neuroimaging data has benefited from machine learning methods, which have...
The human brain is the most complex structure known. With its high number of cells, number of connec...
The study of patients with brain lesions has made major historical contributions to cognitive neuros...
Lesion analysis in brain-injured populations complements what can be learned from functional neuroim...
Power in Voxel-based Lesion–Symptom Mapping Lesion analysis in brain-injured populations complements...
AbstractElucidating the brain basis for psychological processes and behavior is a fundamental aim of...
Elucidating the brain basis for psychological processes and behavior is a fundamental aim of cogniti...
International audienceStudying brain-injured patients is important for investigating structure-funct...
For more than a century, lesion–symptom mapping studies have yielded valuable insights into the rela...
<p>(A) Lesion prevalence map. Voxels with white matter lesions in at least 10 patients are projected...
Lesion-symptom mapping is a key tool in understanding the relationship between structure and functio...
AbstractStudies attempting to map post-stroke cognitive or motor symptoms to lesion location have be...
An ever-increasing number of functional magnetic resonance imaging (fMRI) studies are now using info...
SummaryThe Wechsler Adult Intelligence Scale (WAIS) assesses a wide range of cognitive abilities and...
AbstractNeurological damage, due to conditions such as stroke, results in a complex pattern of struc...
Clinical research based on neuroimaging data has benefited from machine learning methods, which have...
The human brain is the most complex structure known. With its high number of cells, number of connec...
The study of patients with brain lesions has made major historical contributions to cognitive neuros...