Performance on several of the prosodic subtests here was associat

Performance on several of the prosodic subtests here was associated with GM changes in ‘visual’ cortical areas: this apparently paradoxical finding may reflect cross-modal influences (e.g.,

visual imagery) on the processing of prosodic signals (Brosch et al., 2009 and Foxton et al., 2010). Taken together, the present neuroanatomical findings are consistent check details with an emerging hierarchical and multidimensional organisation of prosodic processing (Wildgruber et al., 2006). Whereas deficits of speech processing have been emphasised on clinical and neuroanatomical grounds in PPA, this study suggests a more general defect (or defects) of vocal signal processing. Speech prosody serves a key ‘metalinguistic’ function in human communication, and deficits of prosody processing therefore have potentially important clinical consequences. Indeed, as PPA typically affects the left hemisphere initially, receptive dysprosodia may become more clinically significant with increasing right hemisphere involvement as the disease evolves. In future work, it will be essential to address prosody processing in the third canonical variant of PPA, SD, in order to arrive at a complete understanding of this important class of nonverbal vocal signals in the language-based dementias. In addition, the experimental battery used here was designed

to provide an initial overall assessment of receptive prosody, Bcr-Abl inhibitor sampling in each of the key prosodic dimensions (acoustic, linguistic and affective): analysis of specific components of each of these dimensions will be required in order to understand the mechanisms of prosodic dysfunction in PPA syndromes. Further longitudinal studies with larger PPA cohorts are needed to establish the natural history of prosody impairment in PPA in relation to linguistic deficits, GPX6 to define prosodic signatures of particular PPA subgroups, to explore related aspects of complex sound processing across the PPA spectrum and to define the brain basis of prosodic deficits in detail. We thank the subjects

for their participation. We are grateful to Drs Doris-Eva Bamiou and Joanna Goll for assistance with audiometric assessments. This work was undertaken at UCLH/UCL who received a proportion of funding from the Department of Health’s NIHR Biomedical Research Centres funding scheme. The Dementia Research Centre is an Alzheimer’s Research Trust Co-ordinating Centre. This work was also funded by the Medical Research Council UK. JDR is supported by a Brain Exit Scholarship. JDW is supported by a Wellcome Trust Senior Clinical Fellowship. “
“Children with specific language impairment (SLI) have below-average language abilities despite normal intellectual and sensory functioning (American Psychiatric Association, 2000 and World Health Organization, 2004). A number of proposals have suggested that the language problems in SLI are related to memory deficits in the disorder (for recent reviews, see Montgomery et al.

Comments are closed.