Progressive non-fluent aphasia is associated with hypometabolism centred on the left anterior insula

doi:10.1093/brain/awg240

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Brain, Vol. 126, No. 11, 2406-2418, November 2003
© 2003 Guarantors of Brain
doi: 10.1093/brain/awg240

Progressive non-fluent aphasia is associated with hypometabolism centred on the left anterior insula

Peter J. Nestor¹, Naida L. Graham³, Tim D. Fryer², Guy B. Williams², Karalyn Patterson³ and John R. Hodges¹^,3

¹ University of Cambridge, Neurology Unit, ² Wolfson Brain Imaging Centre, Addenbrooke’s Hospital and ³ MRC Cognition and Brain Sciences Unit, Cambridge, UK

Correspondence to: J. R. Hodges, MRC Cognition and Brain Sciences Unit, 15 Chaucer Road, Cambridge CB2 2EF, UK E-mail: john.hodges{at}mrc-cbu.cam.ac.uk

Progressive non-fluent aphasia (PNFA) is a syndrome in whichpatients lose the ability to communicate fluently in the contextof relative preservation of single word comprehension and non-linguisticcognitive abilities. Neuroimaging in case studies with PNFAhas failed to identify a consistent neural substrate for thelanguage disorder. In this study of a group of patients (n = 10)whose presenting complaint was progressive dysfluency, restingcerebral metabolism was measured using [¹⁸F]fluorodeoxyglucose-PETand analysed with the technique of statistical parametric mapping(SPM). Regional atrophy was assessed with voxel-based morphometry(VBM). Seven patients had a ‘pure’ PNFA syndrome,while the remaining three had additional features of a morepervasive dementia. Compared with controls, the patients showedhypometabolism in several regions that, most notably, includedthe left anterior insula/frontal opercular region. The VBM analysisrevealed only one small area of atrophy in the left peri-Sylvianregion. Analysis of the pure PNFA cases (n = 7) relativeto controls yielded qualitatively similar results to those ofthe whole group, suggesting that these cases were also at riskof a more generalized dementia, a finding borne out in subsequentfollow-up of two cases to date. The PNFA group was then comparedwith a group with Alzheimer’s disease (n = 10)whose clinical profile did not include non-fluent aphasic features.In this analysis, the only persisting hypometabolic region wasthat centred over the left anterior insula. VBM did not identifyany regional differences in atrophy between PNFA and Alzheimer’sdisease. In the light of current theories of fluent languageproduction, the findings offer anatomical evidence that thebreakdown in fluency is due to a motor articulatory planningdeficit (speech apraxia) combined with a variable degree ofagrammatism.

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				P. J. Nestor, K. Balan, H. K. Cheow, T. D. Fryer, J. A. Knibb, J. H. Xuereb, and J. R. Hodges Nuclear imaging can predict pathologic diagnosis in progressive nonfluent aphasia Neurology, January 16, 2007; 68(3): 238 - 239. [Full Text] [PDF]

				A.-L. R. Adlam, K. Patterson, T. T. Rogers, P. J. Nestor, C. H. Salmond, J. Acosta-Cabronero, and J. R. Hodges Semantic dementia and fluent primary progressive aphasia: two sides of the same coin? Brain, November 1, 2006; 129(Pt 11): 3066 - 3080. [Abstract] [Full Text] [PDF]

				K. A. Josephs, J. R. Duffy, E. A. Strand, J. L. Whitwell, K. F. Layton, J. E. Parisi, M. F. Hauser, R. J. Witte, B. F. Boeve, D. S. Knopman, et al. Clinicopathological and imaging correlates of progressive aphasia and apraxia of speech Brain, June 1, 2006; 129(6): 1385 - 1398. [Abstract] [Full Text] [PDF]

				M Grossman and P Moore A longitudinal study of sentence comprehension difficulty in primary progressive aphasia J. Neurol. Neurosurg. Psychiatry, May 1, 2005; 76(5): 644 - 649. [Abstract] [Full Text] [PDF]

				A. Graham, R. Davies, J. Xuereb, G. Halliday, J. Kril, H. Creasey, K. Graham, and J. Hodges Pathologically proven frontotemporal dementia presenting with severe amnesia Brain, March 1, 2005; 128(3): 597 - 605. [Abstract] [Full Text] [PDF]

				J C Janssen, J M Schott, L Cipolotti, N C Fox, R I Scahill, K A Josephs, J M Stevens, and M N Rossor Mapping the onset and progression of atrophy in familial frontotemporal lobar degeneration J. Neurol. Neurosurg. Psychiatry, February 1, 2005; 76(2): 162 - 168. [Abstract] [Full Text] [PDF]

				N. Dronkers and J. Ogar Brain areas involved in speech production Brain, July 1, 2004; 127(7): 1461 - 1462. [Full Text] [PDF]

				A. E. Hillis, M. Work, P. B. Barker, M. A. Jacobs, E. L. Breese, and K. Maurer Re-examining the brain regions crucial for orchestrating speech articulation Brain, July 1, 2004; 127(7): 1479 - 1487. [Abstract] [Full Text] [PDF]

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