Cortical event-related potentials in preclinical familial Alzheimer disease.

OBJECTIVE: To define changes in cortical function in persons inheriting familial Alzheimer disease (FAD) mutations before the onset of cognitive decline. METHODS: Twenty-six subjects with a family history of FAD were divided into 2 subgroups according to genotype (FAD mutation carriers, n = 15; FAD noncarriers, n = 11). Subjects were given standardized tests of cognitive function and the Clinical Dementia Rating scale (CDR). Sensory (P50, N100, P200) and cognitive (N200, P300) event-related potentials were recorded during an auditory discrimination task. Amplitudes and latencies of cortical potentials were compared among FAD mutation carriers and noncarriers. RESULTS: FAD mutation carriers and noncarriers did not significantly differ in age or on measures of cognitive function, but FAD carriers had a greater incidence of 0.5 CDR scores (1/10 noncarriers, 5/15 carriers). Relative to noncarriers, FAD mutation carriers had significantly longer latencies of the N100, P200, N200, and P300 components, and smaller slow wave amplitudes. Subanalyses of subjects having CDR scores of 0.0 also showed latency increases in FAD mutation carriers. CONCLUSIONS: Auditory sensory and cognitive cortical potentials in persons with familial Alzheimer disease (FAD) mutations are abnormal approximately 10 years before dementia will be manifest. Longer event-related potential latencies suggest slowing of cortical information processing in FAD mutation carriers.

Biochemical markers in persons with preclinical familial Alzheimer disease.

BACKGROUND: Persons at risk for familial Alzheimer disease (FAD) provide a model in which biomarkers can be studied in presymptomatic disease. METHODS: Twenty-one subjects at risk for presenilin-1 (n = 17) or amyloid precursor protein (n = 4) mutations underwent evaluation with the Clinical Dementia Rating (CDR) scale. We obtained plasma from all subjects and CSF from 11. Plasma (Abeta(40), Abeta(42), F(2)-isoprostanes) and CSF (F(2)-isoprostanes, t-tau, p-tau(181), Abeta(40), Abeta(42), and Abeta(42)/Abeta(40) ratio) levels were compared between FAD mutation carriers (MCs) and noncarriers (NCs). RESULTS: Plasma Abeta(42) levels (25.1 pM vs 15.5 pM, p = 0.031) and the ratio of Abeta(42)/Abeta(40) (0.16 vs 0.11, p = 0.045) were higher in presymptomatic MCs. Among MCs, those with CDR scores of 0.5 had lower plasma Abeta(42) levels than those with CDR scores of 0 (14.1 pM vs 25.1, p = 0.02). The ratio of Abeta(42) to Abeta(40) was also reduced in the CSF (0.08 vs 0.15, p = 0.046) of nondemented MCs compared to NCs. Total CSF tau and p-tau(181) levels were elevated in presymptomatic FAD MCs. CSF levels of F(2)-isoprostanes were also elevated in MCs (n = 7, 48.6 pg/mL) compared to NCs (n = 4, 21.6 pg/mL, p = 0.031). CONCLUSIONS: Our data indicate that Abeta(42) is elevated in plasma in familial Alzheimer disease (FAD) mutation carriers (MCs) and suggests that this level may decrease with disease progression prior to the development of overt dementia. We also demonstrated that the ratio of Abeta(42) to Abeta(40) was reduced in the CSF of nondemented MCs and that elevations of t-tau and p-tau(181) are sensitive indicators of presymptomatic disease. Our finding of elevated F(2)-isoprostane levels in the CSF of preclinical FAD MCs suggests that oxidative stress occurs downstream to mismetabolism of amyloid precursor protein.