OBJECTIVE: The objective of this study was to correlate the densities of neurofibrillary tangles (NFTs) and senile plaques (SPs) in 10 patients with Alzheimer's disease (AD) with comprehensive neuropsychological data obtained within 1 year of death. BACKGROUND: Clinicopathologic studies in AD have been essentially limited to correlate neuropathologic data with severity of dementia. Very few studies have addressed the correlations between distribution of lesions and specific cognitive deficits. This is partly due to the limitation imposed by the interval between the last neuropsychological evaluation and death. METHODS: Ten patients with a postmortem diagnosis of AD, with a mean age at death of 80.4+/-6.6 years and a mean duration of symptoms of 5.6+/-2.9 years, were selected for the study. All of these patients were submitted to neuropsychological testing within 1 year of death, including 17 tests assessing memory, language, visuoperceptual, visuospatial, and constructional abilities as well as limb praxis. The neuropathologic study was performed using a modified Bielschowsky technique. Mean densities of SPs and NFTs were determined in the hippocampal formation (CA1, subiculum, and parasubiculum) and in six neocortical areas (midfrontal, orbitofrontal, cingulum, fusiform gyrus, superior and inferior parietal cortices). Statistical correlations were determined between cognitive scores and SP and NFT densities. RESULTS: For NFTs, significant correlations emerged only between tangle density in CA1 and visuoperceptual scores. For SP density values, significant correlations were found between visuoperceptual tests and lesions in the subiculum and in the fusiform gyrus, significant correlations were found between language scores and SPs in the superior parietal cortex and between visuospatial deficits and lesions in the superior parietal cortex and fusiform gyrus. CONCLUSIONS: SPs in specific brain areas displayed a good correlation with the cognitive deficits detected in this selected group of AD patients. The association of fusiform gyrus and superior parietal lobule involvement with visuoperceptual and visuospatial deficits, respectively, is in agreement with current knowledge of the anatomic basis of visual processing.
OBJECTIVE: The objective of this study was to correlate the densities of neurofibrillary tangles (NFTs) and senile plaques (SPs) in 10 patients with Alzheimer's disease (AD) with comprehensive neuropsychological data obtained within 1 year of death. BACKGROUND: Clinicopathologic studies in AD have been essentially limited to correlate neuropathologic data with severity of dementia. Very few studies have addressed the correlations between distribution of lesions and specific cognitive deficits. This is partly due to the limitation imposed by the interval between the last neuropsychological evaluation and death. METHODS: Ten patients with a postmortem diagnosis of AD, with a mean age at death of 80.4+/-6.6 years and a mean duration of symptoms of 5.6+/-2.9 years, were selected for the study. All of these patients were submitted to neuropsychological testing within 1 year of death, including 17 tests assessing memory, language, visuoperceptual, visuospatial, and constructional abilities as well as limb praxis. The neuropathologic study was performed using a modified Bielschowsky technique. Mean densities of SPs and NFTs were determined in the hippocampal formation (CA1, subiculum, and parasubiculum) and in six neocortical areas (midfrontal, orbitofrontal, cingulum, fusiform gyrus, superior and inferior parietal cortices). Statistical correlations were determined between cognitive scores and SP and NFT densities. RESULTS: For NFTs, significant correlations emerged only between tangle density in CA1 and visuoperceptual scores. For SP density values, significant correlations were found between visuoperceptual tests and lesions in the subiculum and in the fusiform gyrus, significant correlations were found between language scores and SPs in the superior parietal cortex and between visuospatial deficits and lesions in the superior parietal cortex and fusiform gyrus. CONCLUSIONS: SPs in specific brain areas displayed a good correlation with the cognitive deficits detected in this selected group of ADpatients. The association of fusiform gyrus and superior parietal lobule involvement with visuoperceptual and visuospatial deficits, respectively, is in agreement with current knowledge of the anatomic basis of visual processing.
Authors: Peter T Nelson; Irina Alafuzoff; Eileen H Bigio; Constantin Bouras; Heiko Braak; Nigel J Cairns; Rudolph J Castellani; Barbara J Crain; Peter Davies; Kelly Del Tredici; Charles Duyckaerts; Matthew P Frosch; Vahram Haroutunian; Patrick R Hof; Christine M Hulette; Bradley T Hyman; Takeshi Iwatsubo; Kurt A Jellinger; Gregory A Jicha; Enikö Kövari; Walter A Kukull; James B Leverenz; Seth Love; Ian R Mackenzie; David M Mann; Eliezer Masliah; Ann C McKee; Thomas J Montine; John C Morris; Julie A Schneider; Joshua A Sonnen; Dietmar R Thal; John Q Trojanowski; Juan C Troncoso; Thomas Wisniewski; Randall L Woltjer; Thomas G Beach Journal: J Neuropathol Exp Neurol Date: 2012-05 Impact factor: 3.685
Authors: Peter T Nelson; Erin L Abner; Stephen W Scheff; Frederick A Schmitt; Richard J Kryscio; Gregory A Jicha; Charles D Smith; Ela Patel; William R Markesbery Journal: Neurosci Lett Date: 2008-11-08 Impact factor: 3.046