Network localization of alien limb in patients with corticobasal syndrome

AM Tetreault, T Phan, KJ Petersen… - Annals of …, 2020 - Wiley Online Library
AM Tetreault, T Phan, KJ Petersen, DO Claassen, BJ Neth, J Graff‐Radford, F Albrecht
Annals of neurology, 2020Wiley Online Library
Objective Perirolandic atrophy occurs in corticobasal syndrome (CBS) but is not specific
versus progressive supranuclear palsy (PSP). There is heterogeneity in the locations of
atrophy outside the perirolandic cortex and it remains unknown why atrophy in different
locations would cause the same CBS‐specific symptoms. In prior work, we used a wiring
diagram of the brain called the human connectome to localize lesion‐induced disorders to
symptom‐specific brain networks. Here, we use a similar technique termed “atrophy network …
Objective
Perirolandic atrophy occurs in corticobasal syndrome (CBS) but is not specific versus progressive supranuclear palsy (PSP). There is heterogeneity in the locations of atrophy outside the perirolandic cortex and it remains unknown why atrophy in different locations would cause the same CBS‐specific symptoms. In prior work, we used a wiring diagram of the brain called the human connectome to localize lesion‐induced disorders to symptom‐specific brain networks. Here, we use a similar technique termed “atrophy network mapping” to localize single‐subject atrophy maps to symptom‐specific brain networks.
Methods
Single‐subject atrophy maps were generated by comparing cortical thickness in patients with CBS versus controls. Next, we performed seed‐based functional connectivity using a large normative connectome to determine brain regions functionally connected to each patient's atrophied locations.
Results
Patients with CBS had perirolandic atrophy versus controls at the group level, but locations of atrophy in CBS were heterogeneous outside of the perirolandic cortex at the single‐subject level (mean spatial correlation = 0.04). In contrast, atrophy occurred in locations functionally connected to the perirolandic cortex in all patients with CBS (spatial correlation = 0.66). Compared with PSP, patients with CBS had atrophy connected to a network of higher‐order sensorimotor regions beyond perirolandic cortex, matching a CBS atrophy network from a recent meta‐analysis. Finally, atrophy network mapping identified a symptom‐specific network for alien limb, matching a lesion‐induced alien limb network and a network associated with agency in healthy subjects.
Interpretation
We identified a syndrome‐specific network for CBS and symptom‐specific network for alien limb using single‐subject atrophy maps and the human connectome. ANN NEUROL 2020;88:1118–1131
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