The topography of grey matter involvement in early and late onset Alzheimer's disease

doi:10.1093/brain/awl377

Brain Advance Access originally published online on February 9, 2007
Brain 2007 130(3):720-730; doi:10.1093/brain/awl377

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The topography of grey matter involvement in early and late onset Alzheimer's disease

Giovanni B. Frisoni¹^,2, Michela Pievani¹, Cristina Testa¹, Francesca Sabattoli¹, Lorena Bresciani¹, Matteo Bonetti³, Alberto Beltramello⁴, Kiralee M. Hayashi⁵, Arthur W. Toga⁵ and Paul M. Thompson⁵

¹Laboratory of Epidemiology Neuroimaging and Telemedicine, ²Psychogeriatric Ward, IRCCS Centro San Giovanni di Dio FBF, The National Centre for Research and Care of Alzheimer's and Mental Diseases, ³Service of Neuroradiology, Istituto Clinico Città di Brescia, Brescia, ⁴Service of Neuroradiology, Ospedale Maggiore, Borgo Trento, Verona, Italy and ⁵Laboratory of Neuroimaging, Department of Neurology, UCLA School of Medicine, Los Angeles, CA, USA

Corresponding author: Giovanni B. Frisoni, MD, Laboratory of Epidemiology, Neuroimaging and Telemedicine, IRCCS Centro San Giovanni di Dio FBF, The National Centre for Research and Care of Alzheimer's and Mental Diseases, via Pilastroni 4, 25125 Brescia, Italy E-mail: papers{at}centroAlzheimer.it

Clinical observations have suggested that the neuropsychologicalprofile of early and late onset forms of Alzheimer's disease(EOAD and LOAD) differ in that neocortical functions are moreaffected in the former and learning in the latter, suggestingthat they might be different diseases. The aim of this studyis to assess the brain structural basis of these observations,and test whether neocortical areas are more heavily affectedin EOAD and medial temporal areas in LOAD. Fifteen patientswith EOAD and 15 with LOAD (onset before and after age 65; MiniMental State Examination 19.8, SD 4.0 and 20.7, SD 4.2) wereassessed with a neuropsychological battery and high-resolutionMRI together with 1:1 age- and sex-matched controls. Corticalatrophy was assessed with cortical pattern matching, and hippocampalatrophy with region-of-interest-based analysis. EOAD patientsperformed more poorly than LOAD on visuospatial, frontal-executiveand learning tests. EOAD patients had the largest atrophy inthe occipital [25% grey matter (GM) loss in the left and 24%in the right hemisphere] and parietal lobes (23% loss on bothsides), while LOAD patients were remarkably atrophic in thehippocampus (21 and 22% loss). Hippocampal GM loss of EOAD (9and 16% to the left and right) and occipital (12 and 14%) andparietal (13 and 12%) loss of LOAD patients were less marked.In EOAD, GM loss of 25% or more was mapped to large neocorticalareas and affected all lobes, with relative sparing of primarysensory, motor, and visual cortex, and anterior cingulate andorbital cortex. In LOAD, GM loss was diffusely milder (below15%); losses of 15–20% were confined to temporoparietaland retrosplenial cortex, and reached 25% in restricted areasof the medial temporal lobe and right superior temporal gyrus.These findings indicate that EOAD and LOAD differ in their typicaltopographic patterns of brain atrophy, suggesting differentpredisposing or aetiological factors.

Key Words: Alzheimer's disease; age at onset; magnetic resonance; hippocampus; computational neuroanatomy

Abbreviations: EOAD, early onset Alzheimer's disease; LOAD, late onset Alzheimer's disease; GM, grey matter; GMD, grey matter density

Received August 31, 2006. Revised October 26, 2006. Accepted December 15, 2006.

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