This title appears in the Scientific Report : 2015 

Frontomedian cortex is central for moral deficits in behavioural variant frontotemporal dementia
Schroeter, M. L. (Corresponding Author)
Bzdok, Danilo / Eickhoff, Simon / Neumann, Jane
Strukturelle und funktionelle Organisation des Gehirns; INM-1
Journal of neurology, neurosurgery, and psychiatry, 86 (2015) S. 700-701
London BMJ Publishing Group 2015
Journal Article
Connectivity and Activity
Please use the identifier: in citations.
Please use the identifier: in citations.
Recently, neurodegenerative diseases have increasingly been conceptualised as ‘nexopathies’ or disconnection syndromes, in which connectivity changes in neural networks represent the most relevant and characteristic features.1 One of these diseases, behavioural variant frontotemporal dementia (bvFTD), is characterised by morally deviant actions as an early clinical hallmark of this disease, besides other specific changes in personality and behaviour.2 ,3 Elucidating on the neural correlates of these moral impairments contributes to their understanding in this in young patients frequent dementia syndrome and to the understanding of moral actions per se.One approach towards understanding moral impairments in bvFTD is by comparing affected neural networks in bvFTD with brain networks involved in moral processing in healthy participants during functional imaging studies. Remarkably, this approach enables extraction of new concepts of diseases by using two independent cohorts and imaging methods (lesion studies in disease cohorts vs functional imaging studies in healthy participants).3 Because numerous imaging studies have been published on these issues to date, quantitative meta-analytic approaches are possible.Accordingly, we combine here two comprehensive quantitative meta-analyses of anatomical and functional neuroimaging data by means of the well-established likelihood estimate method to provide evidence for alterations of regions involved in moral reasoning in bvFTD. Likelihood estimate meta-analyses are based on coordinates of peaks for atrophy or hypometabolism during rest in patients when compared with control participants, or coordinates from functional imaging studies, where …