Measurement of Longitudinal β-Amyloid Change with <sup>18</sup>F-Florbetapir PET and Standardized Uptake Value Ratios

Landau, Susan; Fero, Allison; Baker, Suzanne L.; Koeppe, Robert A.; Mintun, Mark A.; Chen, Kewei; Reiman, Eric M.; Jagust, William J.

doi:10.2967/jnumed.114.148981

Cited by 295 publications

(288 citation statements)

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“…Analysis of longitudinal studies has either been restricted to short time windows of no more than 2 years (19)(20)(21) or to studying the average deposition across the whole cortex (22). Thus, despite the large amount of in vivo data collected, a full characterisation of the spatiotemporal distribution of Aβ has yet to be performed.…”

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confidence: 99%

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

2017

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Telephone: +44 (0)208 008 6000.Fax: +44 (0)208 008 6491. Word count: 4985 words# Data used in preparation of this article were obtained from the Alzheimer's Disease Neuroimaging Initiative (ADNI) database (adni.loni.usc.edu). As such, the investigators within the ADNI contributed to the design and implementation of ADNI and/or provided data but did not participate in analysis or writing of this report. A complete listing of ADNI investigators can be found at: http://adni.loni.usc.edu/wpcontent/uploads/how_to_apply/ADNI_Acknowledgement_List.pdf and that its spatiotemporal distribution is a result of heterogeneous regional carrying capacities (regional maximum possible concentration of Aβ) for the aggregated protein rather than longer term spreading from seed regions.

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Section: Introductionmentioning

confidence: 99%

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

2017

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“…Although longitudinal analyses have the potential to track the progression of fibrillar Ab deposition over time, to relate this progression to progressive clinical decline, and to evaluate putative Ab-modifying treatments in therapeutic trials, we and others (18)(19)(20)(21)(22) have noted substantial variability in longitudinal florbetapir PET measurements of changes in fibrillar Ab deposition. Some of this variability appears to exceed that expected on the basis of biologic grounds alone (e.g., SUVR changes of .50%, in either direction, over a matter of weeks).…”

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confidence: 98%

“…In this article, we describe the use of a cerebral white matter reference ROI to reduce the variability in longitudinal florbetapir SUVRs, to improve the sensitivity for detecting corresponding increases, and to improve the power for evaluating Ab-modifying treatments-an approach that is also being evaluated by other groups (18)(19)(20)(21)(22). Although cross-sectional cerebral-to-cerebral white matter SUVRs could be affected by the combined effects of fibrillar Ab and partial-volume averaging, we surmised that this confound could be at least partly reduced in the assessment of longitudinal data because between-session differences in white matter measurements (including those related to the combined effects of small gray matter Ab PET changes and partialvolume averaging) would be relatively small.…”

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confidence: 99%

“…(In the accompanying report, Landau et al used baseline cerebrospinal fluid Ab 1-42 levels and longitudinal florbetapir PET data from the ADNI to demonstrate that a cerebral white matter reference ROI was more accurate than a cerebellar ROI in terms of its accuracy in distinguishing subjects who were expected to have longitudinal SUVR increases from those who were expected to have SUVRs that remained stable over time (22). Their data support the use of a white matter reference ROI in the analysis of longitudinal florbetapir PET scans.…”

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Improved Power for Characterizing Longitudinal Amyloid-β PET Changes and Evaluating Amyloid-Modifying Treatments with a Cerebral White Matter Reference Region

et al. 2015

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In this article, we describe an image analysis strategy with improved power for tracking longitudinal amyloid-β (Aβ) PET changes and evaluating Aβ-modifying treatments. Methods: Our aims were to compare the power of template-based cerebellar, pontine, and cerebral white matter reference regions to track 24-mo florbetapir standardized uptake value (SUV) ratio (SUVR) changes; to relate those changes to 24-mo clinical declines; and to evaluate Aβ-modifying treatments in Aβ-positive (Aβ1) and Aβ-negative (Aβ−) patients with probable Alzheimer dementia (pAD), in patients with mild cognitive impairment (MCI), in cognitively normal controls (NCs), and in cognitively normal apolipoprotein E4 (APOE4) carriers and noncarriers. We used baseline and follow-up (∼24 mo) florbetapir PET scans from 332 Aβ1 and Aβ− subjects participating in the multicenter Alzheimer's Disease Neuroimaging Initiative. Each of the proposed analyses included 31 pAD patients, 187 MCI patients, and 114 NCs. Cerebral-to-white matter, cerebellar, and pontine SUVRs were characterized in terms of their longitudinal variability; their power to track longitudinal fibrillar Aβ increases in Aβ1 and Aβ− subgroups and cognitively normal APOE4 carriers and noncarriers; the sample sizes needed to detect attenuated accumulation of or clearance of fibrillar Aβ accumulation in randomized clinical trials; and their ability to relate 24-mo fibrillar Aβ increases to clinical declines. Results: As predicted, cerebral-to-white matter SUVR changes were significantly less variable and had significantly greater power to detect 24-mo fibrillar Aβ increases and evaluate Aβ-modifying treatment effects in Aβ1 pAD, MCI, and NC subjects and cognitively normal APOE4 carriers. They were also distinguished by the ability to detect significant associations between 24-mo Aβ increases and clinical declines. Conclusion: A cerebral white matter reference region may improve the power to track longitudinal fibrillar Aβ increases, to characterize their relationship to longitudinal clinical declines, and to evaluate Aβ-modifying treatments in randomized clinical trials. PET ligands (1-15) have made it possible to investigate the fibrillar amyloid-b (Ab) burden in living people; to clarify its relationship to the dementia, mild cognitive impairment (MCI), and preclinical stages of Alzheimer disease (AD); to characterize the extent to which cross-sectional measurements predict subsequent clinical declines; to track longitudinal changes; and to help evaluate Ab-modifying treatments.Researchers commonly compute a semiquantitative cerebral-toreference region standardized uptake value ratio (SUVR) using PET counts from a cerebral region of interest (ROI) and from a whole cerebellar (2,3), cerebellar gray matter (10), or pontine (8) reference ROI that is thought to be relatively devoid of fibrillar Ab. Less commonly, researchers compute a cerebral-to-reference region distribution volume ratio or other quantitative measures using longer, dynamically acquired PET scans and the same cerebral and refe...

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“…The testretest reliability of the SUVRs was approximately 1.2% 6 0.8% (absolute mean change and SD in stable amyloid-negative controls), as reported previously. 17 Ninety-eight percent of patients with MCI and 100% of patients with AD who were florbetapir1 at baseline remained positive. Four of 54 (7%) patients with MCI and (1/9) 11% of patients with AD who were florbetapir2 at baseline were positive at follow-up.…”

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Amyloid negativity in patients with clinically diagnosed Alzheimer disease and MCI

et al. 2016

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Objective: To examine the clinical and biomarker characteristics of patients with amyloid-negative Alzheimer disease (AD) and mild cognitive impairment (MCI) from the Alzheimer's Disease Neuroimaging Initiative (ADNI), a prospective cohort study. Methods:We first investigated the reliability of florbetapir2 PET in patients with AD and patients with MCI using CSF-Ab 1-42 as a comparison amyloid measurement. We then compared florbetapir2 vs florbetapir1 patients with respect to several AD-specific biomarkers, baseline and longitudinal cognitive measurements, and demographic and clinician report data.Results: Florbetapir and CSF-Ab 1-42 1/2 status agreed for 98% of ADs (89% of MCIs), indicating that most florbetapir2 scans were a reliable representation of amyloid status. Florbetapir2 AD (n 5 27/177; 15%) and MCI (n 5 74/217, 34%) were more likely to be APOE4-negative (MCI 83%, AD 96%) than their florbetapir1 counterparts (MCI 30%, AD 24%). Florbetapir2 patients also had less AD-specific hypometabolism, lower CSF p-tau and t-tau, and better longitudinal cognitive performance, and were more likely to be taking medication for depression. In MCI only, florbetapir2 participants had less hippocampal atrophy and hypometabolism and lower functional activity questionnaire scores compared to florbetapir1 participants. Conclusions:Overall, image analysis problems do not appear to be a primary explanation of amyloid negativity. Florbetapir2 ADNI patients have a variety of clinical and biomarker features that differ from their florbetapir1 counterparts, suggesting that one or more non-AD etiologies (which may include vascular disease and depression) account for their AD-like phenotype. Alzheimer's Disease Neuroimaging Initiative; AGD 5 argyrophilic grain disease; MCI 5 mild cognitive impairment; metaROI 5 previously validated region of interest; MMSE 5 Mini-Mental State Examination; MPRAGE 5 magnetization-prepared rapid gradient echo; RAVLT 5 Rey Auditory Verbal Learning Test; SUVR 5 standardized uptake value ratio; TBM-SyN 5 tensorbased morphometry-symmetric diffeomorphic image normalization method; VBM 5 voxel-based morphometry; WM 5 white matter.The rate of b-amyloid (Ab) negativity in clinically diagnosed Alzheimer disease (AD) varies across a variety of study populations and as a function of APOE genotype status.1-6 Previous studies of patients with clinically diagnosed AD have shown that 12% were negative on amyloid PET in a recent meta-analysis, 7 and 10%-25% of APOE4-negative patients with AD did not meet the neuropathologic criteria for AD at autopsy. 8,9 Older adults with an amnestic profile that is suggestive of AD comprise a diverse group with heterogeneous pathology. Hippocampal sclerosis, argyrophilic grain disease, vascular dementia, Lewy body disease, and frontotemporal dementia have been observed at autopsy in addition to AD pathology 10 and in Ab2 cases with an antemortem AD diagnosis.

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Measurement of Longitudinal β-Amyloid Change with ¹⁸F-Florbetapir PET and Standardized Uptake Value Ratios

Cited by 295 publications

References 24 publications

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

Improved Power for Characterizing Longitudinal Amyloid-β PET Changes and Evaluating Amyloid-Modifying Treatments with a Cerebral White Matter Reference Region

Amyloid negativity in patients with clinically diagnosed Alzheimer disease and MCI

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Measurement of Longitudinal β-Amyloid Change with 18F-Florbetapir PET and Standardized Uptake Value Ratios

Cited by 295 publications

References 24 publications

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

Spatiotemporal Distribution of β-Amyloid in Alzheimer Disease Is the Result of Heterogeneous Regional Carrying Capacities

Improved Power for Characterizing Longitudinal Amyloid-β PET Changes and Evaluating Amyloid-Modifying Treatments with a Cerebral White Matter Reference Region

Amyloid negativity in patients with clinically diagnosed Alzheimer disease and MCI

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Measurement of Longitudinal β-Amyloid Change with ¹⁸F-Florbetapir PET and Standardized Uptake Value Ratios