Hypometabolism Exceeds Atrophy in Presymptomatic Early-onset Familial Alzheimer's Disease

Overview

Journal J Nucl Med

Specialty Nuclear Medicine

Date 2006 Nov 3

PMID 17079810

Citations 135

Authors

Lisa Mosconi

Sandro Sorbi

Mony J de Leon

Yi Li

Benedetta Nacmias

Paul S Myoung

Wai Tsui

Andrea Ginestroni

Valentina Bessi

Mozghan Fayyazz

Paolo Caffarra

Alberto Pupi

Affiliations

Soon will be listed here.

Abstract

Unlabelled: The aim of the present study is to compare brain atrophy with hypometabolism as preclinical markers of Alzheimer's disease (AD) by studying presymptomatic individuals from families with known early-onset autosomal dominant AD (FAD) carrying mutations in the Presenilin 1 gene.

Methods: Seven asymptomatic at-risk FAD individuals (age, 35-49 y; 4 women; education >/= 12 y) and 7 matched healthy control subjects received complete clinical, neuropsychologic, MRI, and (18)F-FDG PET examinations. Regions of interest (ROIs: whole brain [WB], hippocampus [Hip], entorhinal cortex [EC], posterior cingulate cortex [PCC], inferior parietal lobule [IPL], and superior temporal gyrus (STG]) were drawn on the MRI scans of all subjects and used to measure volumes on MRI and glucose metabolism (MRglc) from the MRI-coregistered, atrophy-corrected PET scans.

Results: Compared with controls and after correcting for head size, MRI volume reductions in FAD subjects were restricted to the IPL (18%, P < 0.02). After atrophy correction and adjusting for pons MRglc, PET MRglc reductions were found in all FAD subjects compared with controls in the WB (13%), bilaterally in the IPL (17%) and in the STG (12%), and in the left EC (21%), PCC (20%), and Hip (12%) (P values < 0.05). PET MRglc measurements were consistently less variable than MRI measures, yielding significantly larger effect sizes in separating FAD from controls.

Conclusion: Presymptomatic FAD individuals show widespread MRglc reductions consistent with the typical AD PET pattern in the relative absence of structural brain atrophy. These data further suggest that PET MRglc measures may serve as biomarkers for the preclinical diagnosis of AD.

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