Articles: amyloid-metabolism.
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We report the in vivo evaluation, in a murine model, of MRI measurements of the extracellular volume fraction (ECV) for the detection and monitoring of systemic amyloidosis. A new inducible transgenic model was used, with increased production of mouse serum amyloid A protein controlled by oral administration of doxycycline, that causes both the usual hepatic and splenic amyloidosis and also cardiac deposits. ⋯ In a further four mice that received human serum amyloid P component (SAP) followed by anti-human SAP antibody, a treatment to eliminate visceral amyloid deposits, ECV in the liver and spleen returned to baseline after therapy (p < 0.01). MRI measurement of ECV is a sensitive marker of amyloid deposits with potential application for early detection and monitoring therapies promoting their clearance.
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Annals of neurology · May 2013
Pathogenesis of cerebral microbleeds: In vivo imaging of amyloid and subcortical ischemic small vessel disease in 226 individuals with cognitive impairment.
Cerebral microbleeds (CMBs) are a neuroimaging marker of small vessel disease (SVD) with relevance for understanding disease mechanisms in cerebrovascular disease, cognitive impairment, and normal aging. It is hypothesized that lobar CMBs are due to cerebral amyloid angiopathy (CAA) and deep CMBs are due to subcortical ischemic SVD. We tested this hypothesis using structural magnetic resonance imaging (MRI) markers of subcortical SVD and in vivo imaging of amyloid in patients with cognitive impairment. ⋯ Our findings suggest that although deep CMBs are mainly linked to subcortical SVD, both subcortical SVD and amyloid-related pathologies (eg, CAA) contribute to the pathogenesis of lobar CMBs, at least in subjects with mixed lobar and deep CMBs. Furthermore, subcortical SVD and amyloid-related pathologies interact to increase the risk of lobar CMBs.
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Am J Geriatr Psychiatry · Mar 2013
Multicenter StudyCognition and amyloid load in Alzheimer disease imaged with florbetapir F 18(AV-45) positron emission tomography.
To examine the association between regional brain uptake of a novel amyloid positron emission tomography (PET) tracer florbetapir F 18 ([(18)F]-AV-45) and cognitive performance in a pilot study. ⋯ [(18)F]-AV-45 SUVR in several brain regions was associated with worse global cognitive performance particularly in HC, suggesting its potential as a marker of preclinical AD.
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To compare the neocortical amyloid loads among cognitively normal (CN), amnestic mild cognitive impairment (aMCI), and Alzheimer's disease (AD) subjects with [(18)F]AV-45 positron emission tomography (PET). ⋯ Amyloid deposition occurs relatively early in precuneus, frontal and posterior cingulate in aMCI subjects. Higher [(18)F]AV-45 accumulation is present in parietal, occipital and temporal gyri in AD subjects compared to the aMCI group. Significant correlation between MMSE scores and [(18)F]AV-45 SUVRs can be observed among CN, aMCI and AD subjects.
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The ε4 allele of the polymorphic apolipoprotein E gene is associated with increased risk of Alzheimer's disease (AD), deposition of β-amyloid (Aβ), and reduction in cerebral glucose metabolism in asymptomatic people. Although ApoE4 may exert an effect on AD risk through amyloidogenic pathways, whether its effect on glucose metabolism is related to Aβ is unknown. To answer this question, we examined data from 175 cognitively normal older people (mean age, 77; 87 men, 88 women) in the Alzheimer's disease neuroimaging initiative studied concurrently with [(18)F]flurodeoxyglucose (FDG) positron emission tomography measures of glucose metabolism and the radiotracer [(18)F]florbetapir, an imaging agent which labels fibrillar Aβ in vivo. ⋯ As expected, there was a significant association between ApoE4 genotype and florbetapir positivity. Florbetapir status, however, was not significantly associated with glucose metabolism, but the ApoE4 genotype was associated with lower metabolism in both voxelwise and ROI approaches. These results show that ApoE genotype, and not aggregated fibrillar forms of Aβ, contributes to reduced glucose metabolism in aging and adds to a growing list of neural consequences of ApoE that do not appear to be related to Aβ.