Susan DeSanti scite author profile

Neuropathology studies show that patients with mild cognitive impairment (MCI) and Alzheimer's disease typically have lesions of the entorhinal cortex (EC), hippocampus (Hip), and temporal neocortex. Related observations with in vivo imaging have enabled the prediction of dementia from MCI. Although individuals with normal cognition may have focal EC lesions, this anatomy has not been studied as a predictor of cognitive decline and brain change. The objective of this MRI-guided 2-[ 18 F]fluoro-2-deoxy-D-glucose͞ positron-emission tomography (FDG͞PET) study was to examine the hypothesis that among normal elderly subjects, EC METglu reductions predict decline and the involvement of the Hip and neocortex. In a 3-year longitudinal study of 48 healthy normal elderly, 12 individuals (mean age 72) demonstrated cognitive decline (11 to MCI and 1 to Alzheimer's disease). Nondeclining controls were matched on apolipoprotein E genotype, age, education, and gender. At baseline, metabolic reductions in the EC accurately predicted the conversion from normal to MCI. Among those who declined, the baseline EC predicted longitudinal memory and temporal neocortex metabolic reductions. At follow-up, those who declined showed memory impairment and hypometabolism in temporal lobe neocortex and Hip. Among those subjects who declined, apolipoprotein E E4 carriers showed marked longitudinal temporal neocortex reductions. In summary, these data suggest that an EC stage of brain involvement can be detected in normal elderly that predicts future cognitive and brain metabolism reductions. Progressive E4-related hypometabolism may underlie the known increased susceptibility for dementia. Further study is required to estimate individual risks and to determine the physiologic basis for METglu changes detected while cognition is normal.W ith increasing age, there is an increased risk for memory impairment (1); however, the affected anatomy predicting future impairment has not been well characterized. Although many conditions result in memory loss, Alzheimer's disease (AD) may be the most common cause (2). Neuropathology studies of normal elderly and subjects with clinically recognizable mild cognitive impairments (MCI) show that both the entorhinal cortex (EC) and hippocampus (Hip), structures important for memory function, are particularly vulnerable to neurofibrillary tangle (NFT) pathology (3, 4) and neuronal loss (5). Braak and Braak (3) proposed a staging model for brain AD where the NFT distribution expands from an EC locus to involve the Hip and then the neocortex. Carriers of an apolipoprotein E (apoE) E4 allele show at younger ages increased neocortical beta amyloid deposits (6) and EC NFTs (7). These changes may contribute to their increased risk for AD.In vivo, little is known of the regional anatomical changes marking the transitions between normal cognition and dementia. Although cross-sectional MRI and positron-emission tomography (PET) studies support an in vivo adaptation of the Braak staging model (8, 9), longitudinal imaging s...

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The histological validation of post mortem magnetic resonance imaging-determined hippocampal volume in Alzheimer's disease

Bobinski

et al. 1999

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Regional analysis of FDG and PIB-PET images in normal aging, mild cognitive impairment, and Alzheimer’s disease

Rinne

Mosconi

et al. 2008

Eur J Nucl Med Mol Imaging

250

202

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Objective The objective of the study is to compare the diagnostic value of regional sampling of the cerebral metabolic rate of glucose metabolism (MRglc) using [18F]-fluoro-2-deoxyglucose ([18F]FDG)-positron emission tomography (PET) and amyloid-beta pathology using Pittsburgh Compound-B ([11C]PIB)-PET in the evaluation of patients with Alzheimer's disease (AD) and mild cognitive impairment (MCI) compared to normal elderly (NL). Materials and methods AD patients, 7 NL, 13 MCI, and 17, received clinical, neuropsychological, magnetic resonance imaging (MRI), FDG, and PIB-PET exams. Parametric images of PIB uptake and MRglc were sampled using automated regions-of-interest (ROI).Results AD showed global MRglc reductions, and MCI showed reduced hippocampus (HIP) and inferior parietal lobe (IP) MRglc compared to NL. On PIB, AD patients showed significantly increased uptake in the middle frontal gyrus (MFG), posterior cingulate cortex (PCC), and IP (ps< 0.05). PIB uptake in MCI subjects was either AD or NL-like. HIP MRglc and MFG PIB uptake were the best discriminators of NL from MCI and NL from AD. These two best measures showed high diagnostic agreement for AD (94%) and poor agreement for MCI (54%). For the NL vs. MCI discrimination, combining the two best measures increased the accuracy for PIB (75%) and for FDG (85%) to 90%. Conclusion For AD, the pattern of regional involvement for FDG and PIB differ, but both techniques show high diagnostic accuracy and 94% case by case agreement. In the classification of NL and MCI, FDG is superior to PIB, but there is only 54% agreement at a case level. Combining the two modalities improves the diagnostic accuracy for MCI.

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Longitudinal CSF and MRI biomarkers improve the diagnosis of mild cognitive impairment

Leon

DeSanti

Zinkowski³

et al. 2006

Neurobiology of Aging

233

184

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MRI and CSF studies in the early diagnosis of Alzheimer's disease

Leon

DeSanti

Zinkowski³

et al. 2004

Journal of Internal Medicine

186

127

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The main goal of our studies has been to use MRI, FDG-PET, and CSF biomarkers to identify in cognitively normal elderly (NL) subjects and in patients with mild cognitive impairment (MCI), the earliest clinically detectable evidence for brain changes due to Alzheimer's disease (AD). A second goal has been to describe the cross-sectional and longitudinal interrelationships amongst anatomical, CSF and cognition measures in these patient groups. It is now well known that MRI-determined hippocampal atrophy predicts the conversion from MCI to AD. In our summarized studies, we show that the conversion of NL subjects to MCI can also be predicted by reduced entorhinal cortex (EC) glucose metabolism, and by the rate of medial temporal lobe atrophy as determined by a semi-automated regional boundary shift analysis (BSA-R). However, whilst atrophy rates are predictive under research conditions, they are not specific for AD and cannot be used as primary evidence for AD. Consequently, we will also review our effort to improve the diagnostic specificity by evaluating the use of CSF biomarkers and to evaluate their performance in combination with neuroimaging. Neuropathology studies of normal ageing and MCI identify the hippocampal formation as an early locus of neuronal damage, tau protein pathology, elevated isoprostane levels, and deposition of amyloid beta 1-42 (Ab42). Many CSF studies of MCI and AD report elevated T-tau levels (a marker of neuronal damage) and reduced Ab42 levels (possibly due to increased plaque sequestration). However, CSF T-tau and Ab42 level elevations may not be specific to AD. Elevated isoprostane levels are also reported in AD and MCI but these too are not specific for AD. Importantly, it has been recently observed that CSF levels of P-tau, tau hyperphosphorylated at threonine 231 (P-tau231) are uniquely elevated in AD and elevations found in MCI are useful in predicting the conversion to AD. In our current MCI studies, we are examining the hypothesis that elevations in P-tau231 are accurate and specific indicators of AD-related changes in brain and cognition. In cross-section and longitudinally, our results show that evaluations of the P-tau231 level are highly correlated with reductions in the MRI hippocampal volume and by using CSF and MRI measures together one improves the separation of NL and MCI. The data suggests that by combining MRI and CSF measures, an early (sensitive) and more specific diagnosis of AD is at hand. Numerous studies show that neither T-tau nor P-tauX (X refers to all hyper-phosphorylation site assays) levels are sensitive to the longitudinal progression of AD. The explanation for the failure to observe longitudinal changes is not known. One possibility is that brainderived proteins are diluted in the CSF compartment. We recently used MRI to estimate ventricular CSF volume and demonstrated that an MRI-based adjustment for CSF volume dilution enables detection of a diagnostically useful longitudinal P-tau231 elevation. Curiously, our most recent data show that the CSF isopros...

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Susan DeSanti

Prediction of cognitive decline in normal elderly subjects with 2-[ ¹⁸ F]fluoro-2-deoxy- d -glucose/positron-emission tomography (FDG/PET)

The histological validation of post mortem magnetic resonance imaging-determined hippocampal volume in Alzheimer's disease

Regional analysis of FDG and PIB-PET images in normal aging, mild cognitive impairment, and Alzheimer’s disease

Longitudinal CSF and MRI biomarkers improve the diagnosis of mild cognitive impairment

MRI and CSF studies in the early diagnosis of Alzheimer's disease

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Susan DeSanti

Prediction of cognitive decline in normal elderly subjects with 2-[ 18 F]fluoro-2-deoxy- d -glucose/positron-emission tomography (FDG/PET)

The histological validation of post mortem magnetic resonance imaging-determined hippocampal volume in Alzheimer's disease

Regional analysis of FDG and PIB-PET images in normal aging, mild cognitive impairment, and Alzheimer’s disease

Longitudinal CSF and MRI biomarkers improve the diagnosis of mild cognitive impairment

MRI and CSF studies in the early diagnosis of Alzheimer's disease

Contact Info

Product

Resources

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Prediction of cognitive decline in normal elderly subjects with 2-[ ¹⁸ F]fluoro-2-deoxy- d -glucose/positron-emission tomography (FDG/PET)