Declining brain glucose metabolism in normal individuals with a maternal history of Alzheimer disease

doi:10.1212/01.wnl.0000333247.51383.43

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Published online before print November 12, 2008, doi:10.1212/01.wnl.0000333247.51383.43)

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Received April 30, 2008
Accepted July 24, 2008

Declining brain glucose metabolism in normal individuals with a maternal history of Alzheimer disease

L. Mosconi PhD^*, R. Mistur BA, R. Switalski MD, M. Brys MD, L. Glodzik MD, K. Rich MD, E. Pirraglia MA, W. Tsui MS, S. De Santi PhD, and M. J. de Leon EdD^*

From New York University School of Medicine (L.M., R.M., R.S., M.B., L.G., K.R., E.P., W.T., S.D.S., M.J.d.L.), New York; and Nathan S. Kline Institute for Psychiatric Research (W.T., M.J.d.L.), Orangeburg, NY.

^* To whom correspondence should be addressed. E-mail: lisa.mosconi{at}med.nyu.edu or mony.deleon{at}med.nyu.edu.

Background: At cross-section, cognitively normal individuals(NL) with a maternal history of late-onset Alzheimer disease(AD) have reduced glucose metabolism (CMRglc) on FDG-PET inthe same brain regions as patients with clinical AD as comparedto those with a paternal and a negative family history (FH)of AD. This longitudinal FDG-PET study examines whether CMRglcreductions in NL subjects with a maternal history of AD areprogressive.

Methods: Seventy-five 50- to 82-year-old NL received2-year follow-up clinical, neuropsychological, and FDG-PET examinations.These included 37 subjects with negative family history of AD(FH-), 9 with paternal (FHp), and 20 with maternal AD (FHm).Two subjects had parents with postmortem confirmed AD. Statisticalparametric mapping was used to compare CMRglc across FH groupsat baseline, follow-up, and longitudinally.

Results: At bothtime points, the FH groups were comparable for demographic andneuropsychological characteristics. At baseline and at follow-up,FHm subjects showed CMRglc reductions in the parieto-temporal,posterior cingulate, and medial temporal cortices as comparedto FH- and FHp (p < 0.001). Longitudinally, FHm had significantCMRglc declines in these regions, which were significantly greaterthan those in FH- and FHp (p < 0.05).

Conclusions: A maternalhistory of Alzheimer disease (AD) predisposes normal individualsto progressive CMRglc reductions in AD-vulnerable brain regions,which may be related to a higher risk for developing AD.

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