October 1995

White Matter Lesions and Disequilibrium in Older PeopleII. Clinicopathologic Correlation

Author Affiliations

From the Departments of Neurology (Dr Baloh), Surgery (Head and Neck) (Dr Baloh), and Pathology and Laboratory Medicine (Dr Vinters) and the Brain Research Institute (Dr Vinters), UCLA School of Medicine, Los Angeles, Calif.

Arch Neurol. 1995;52(10):975-981. doi:10.1001/archneur.1995.00540340067014

Objective:  To identify the cause of subcortical white matter lesions seen on magnetic resonance imaging in older patients with progressive deterioration of gait and balance.

Design:  Postmortem examination of three patients with objective impairment of gait and balance thought to be due to subcortical white matter lesions identified on magnetic resonance imaging. Brain sections were stained with routine methods and for glial fibrillary acid protein using an immunoperoxidase technique.

Patients:  Part of a prospective study of gait and balance problems in older people. None had a history of hypertension or discrete strokelike episodes.

Results:  Other than a few small infarcts in the basal ganglia and internal capsule in the patient with the mildest gait disorder, there were no gross or microscopic features on routine examination post mortem to explain the white matter hyperintensities on magnetic resonance imaging or the progressive gait deterioration. By contrast, immunohistochemical staining with anti—glial fibrillary acid protein showed prominent astrocytosis T2-weighted high-intensity signal areas on magnetic resonance imaging.

Conclusions:  The astrocytes presumably swell as they take up extravasated protein at the site of a breakdown in the blood-brain barrier, and the increased water content per unit volume increases the magnetic resonance imaging proton signal. We hypothesize that the astrocytes may have been initially activated by small infarcts or subclinical ischemia, but the process then became selfperpetuating, ultimately involving most of the white matter and producing the severe gait disorder.