Cerebral amyloid angiopathy (CAA) is known to be associated with intracerebral hemorrhage in the elderly. In this study we demonstrated that, among 101 cases with intracerebral hemorrhages found in 1000 consecutive autopsied cases (average age, 82.9 years) at a geriatric hospital, CAA accounted for 10.9% of them (31.0% of lobar and 14.3% of cerebellar hemorrhages). Immunohistochemically, the cerebrovascular amyloid was positive for beta/A4 peptide, and less intensely for cystatin C. The CAA-related hemorrhages were characteristically located near the cortical surface and ruptured into the subarachnoid space. No mutation of the amyloid precursor protein gene or the cystatin C gene was detected in these cases. From the observation of 500 serial sections containing amyloid-laden vessels of a patient with CAA-related hemorrhage, it was suggested that the hemorrhage occurred at microaneurysms with fibrinoid necrosis, which were found in small arteries in the cerebral cortex. The spatial distribution of CAA was closely associated with that of subpial beta/A4 peptide deposits in the brain, raising the possibility that the cerebrovascular amyloid originates from the brain parenchyma. Finally, the severity of CAA did not seem to be influenced by the inheritance of the epsilon 4 allele of the apolipoprotein E gene, which is known as a risk factor for dementia of the Alzheimer type.