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American Journal of Neuroradiology 21:524-531 (3 2000)
© 2000 American Society of Neuroradiology

ARTICLE

Functional MR Imaging Using a Visually Guided Saccade Paradigm for Comparing Activation Patterns in Patients with Probable Alzheimer's Disease and in Cognitively Able Elderly Volunteers

Keith R. Thulborn^,a, Claudine Martin^a and James T. Voyvodic^a

^a From the Department of Radiology, MR Research Center, University of Pittsburgh Medical Center, Pittsburgh, PA.

BACKGROUND AND PURPOSE: Alzheimer's disease is associated with progressive visuo-spatial dysfunction. This study used functional MR (fMR) imaging with an eye movement paradigm to investigate differences in visuospatial cognition between patients with probable Alzheimer's disease (pAD) and cognitively able elderly volunteers.

METHODS: Using established, although imperfect, clinical criteria, patients with pAD (n = 18) and cognitively able elderly volunteers (n = 10) were selected for study. All patients underwent echo-planar fMR imaging at 1.5 T. The visually guided saccade paradigm consisted of alternating periods (30 s) of central fixation and visually guided saccades to a target appearing randomly along the horizontal meridian. Activation maps were derived using a voxel-wise t test, comparing the signal intensities between the two steady-state conditions. The activation patterns were characterized by Talairach coordinates, activation volumes, and laterality ratios (LRs).

RESULTS: Statistically significant differences existed between the activation patterns of the patients with pAD and those of the volunteers. In contrast to the control group, a left-dominant parietal activation pattern and enhanced prefrontal cortical activation were observed in most patients with pAD.

CONCLUSION: Within the limitations of the imperfect clinical standard of reference, the reduction in right parietal activation producing the left-dominant LR for the intraparietal sulcus may reflect the progressive dysfunction in spatial attention associated with Alzheimer's disease, considering the known parietal lobe involvement in this function and the disease. The high specificity of a positive intraparietal sulcal LR measured by fMR imaging may have a role in detecting and monitoring Alzheimer's disease.

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