Differential diagnosis of mild cognitive impairment and Alzheimer's disease using structural MRI cortical thickness, hippocampal shape, hippocampal texture, and volumetry

Sørensen, Lauge; Igel, Christian; Pai, Akshay; Balas, Ioana; Anker, Cecilie Benedicte; Lillholm, Martin; Nielsen, Mads; Initiative, Alzheimer’s Disease Neuroimaging

doi:10.1016/j.nicl.2016.11.025

Cited by 156 publications

(107 citation statements)

References 57 publications

(100 reference statements)

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“…Interestingly, HVLT-R total recall and NACC delayed recall for a passage were uniquely related to decreased CoTH in the superior parietal regions. There is increasing recognition that volumetric measures may differ from measures of CoTH in relationship to cognitive processes [24, 25], and our findings indicate that this is an area worthy of further research.…”

Section: Discussionmentioning

confidence: 72%

Recovery from Proactive Semantic Interference and MRI Volume: A Replication and Extension Study

Loewenstein

Curiel

DeKosky

et al. 2017

JAD

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Background The rise in incidence of Alzheimer’s disease (AD) has led to efforts to advance early detection of the disease during its preclinical stages. To achieve this, the field needs to develop more sensitive cognitive tests that relate to biological markers of disease pathology. Failure to recover from proactive interference (frPSI) is one such cognitive marker that is associated with volumetric reductions in the hippocampus, precuneus, and other AD-prone regions, and to amyloid load in the brain. Objective The current study attempted to replicate and extend our previous findings that frPSI is a sensitive marker of early AD, and related to a unique pattern of volumetric loss in AD prone areas. Methods Three different memory measures were examined relative to volumetric loss and cortical thickness among 45 participants with amnestic mild cognitive impairment. Results frPSI was uniquely associated with reduced volumes in the hippocampus (r = 0.50) precuneus (r = 0.41), and other AD prone regions, replicating previous findings. Strong associations between frPSI and lower entorhinal cortex volumes and cortical thickness (r ≥ 0.60) and precuneus (r = 0.50) were also observed. Conclusion Unique and strong associations between volumetric reductions and frPSI as observed by Loewenstein and colleagues were replicated. Together with cortical thickness findings, these results indicate that frPSI is worthy of further study as a sensitive and early cognitive marker of AD.

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Section: Discussionmentioning

confidence: 72%

Recovery from Proactive Semantic Interference and MRI Volume: A Replication and Extension Study

Loewenstein

Curiel

DeKosky

et al. 2017

JAD

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“…25 Another study reported 62.7% accuracy in classification of CU, MCI, and AD using anatomical features that included hippocampal shape, texture, and cortical thickness. 29 A whole-brain hierarchical network analysis of >700 brain images showed accuracy of CU vs. MCI: 84%; CU vs. AD: 94%; MCI vs.…”

Section: Discussionmentioning

confidence: 99%

Classifying cognitive impairment based on the spatial heterogeneity of cerebral blood flow images

Shirzadi

Stefanović

Mutsaerts

et al. 2019

Magnetic Resonance Imaging

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Background The spatial coefficient of variation (sCoV) of arterial spin‐labeled (ASL) MRI can index cerebral blood flow spatial heterogeneity. This metric reflects delayed blood delivery—seen as a hyperintense ASL signal juxtaposed by hypointense regions. Purpose To investigate the use of ASL‐sCoV in the classification of cognitively unimpaired (CU), mild cognitive impairment (MCI), and Alzheimer's disease (AD) cohorts. Study Type Prospective/cohort. Population Baseline ASL images from AD neuroimaging initiative dataset in three groups of CU, MCI, and AD (N = 258). Field Strength/Sequence Pulsed ASL (PICORE QT2) images were acquired on 3 T Siemens systems (TE/TR = 12/3400 msec, TI1/2 = 700/1900 msec). Assessment ASL‐sCoV was calculated in temporal, parietal, occipital, and frontal lobes as well as whole gray matter. Statistical Tests The primary analysis used an analysis of covariance to investigate sCoV and cognitive group (CU, MCI, AD) associations. We also evaluated the repeatability of sCoV by calculating within‐subject agreement in a subgroup of CU participants with a repeat ASL. The secondary analyses assessed ventricular volume, amyloid burden, glucose uptake, ASL‐sCoV, and regional CBF as cognitive group classifiers using logistic regression models and receiver operating characteristic analyses. Results We found that global and temporal lobe sCoV differed between cognitive groups (P = 0.006). Post‐hoc tests showed that temporal lobe sCoV was lower in CU than in MCI (Cohen's d = –0.36) or AD (Cohen's d = –1.36). We found that sCoV was moderately repeatable in CU (intersession intraclass correlation = 0.50; intrasession intraclass correlation = 0.88). Subsequent logistic regression analyses revealed that temporal lobe sCoV and amyloid uptake classified CU vs. MCI (P < 0.01; accuracy = 78%). Temporal lobe sCoV, amyloid, and glucose uptake classified CU vs. AD (P < 0.01; accuracy = 97%); glucose uptake significantly classified MCI vs. AD (P < 0.01; accuracy = 85%). Data Conclusion We showed that ASL spatial heterogeneity can be used alongside AD neuroimaging markers to distinguish cognitive groups, in particular, cognitively unimpaired from cognitively impaired individuals. Level of Evidence: 2 Technical Efficacy: Stage 3 J. Magn. Reson. Imaging 2019;50:858–867.

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“…Texture analysis is a statistical method of quantifying gray‐level intensity and patterns in an image that the human eye cannot detect. Studies have applied texture analysis in conventional MR images to characterize and diagnose various neurological diseases including brain tumors and Alzheimer's disease (Kickingereder et al, ; Sørensen et al, ). A novel three‐dimensional (3D) voxel‐wise texture analysis method also revealed the spatial pattern of pathology involving the medial temporal lobes in Alzheimer's disease in a hypothesis‐free study (Maani, Yang, & Kalra, ).…”

Section: Introductionmentioning

confidence: 99%

Corticospinal tract degeneration in ALS unmasked in T1‐weighted images using texture analysis

Ishaque

Mah

Seres

et al. 2018

Human Brain Mapping

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The purpose of this study was to investigate whether textures computed from T1‐weighted (T1W) images of the corticospinal tract (CST) in amyotrophic lateral sclerosis (ALS) are associated with degenerative changes evaluated by diffusion tensor imaging (DTI). Nineteen patients with ALS and 14 controls were prospectively recruited and underwent T1W and diffusion‐weighted magnetic resonance imaging. Three‐dimensional texture maps were computed from T1W images and correlated with the DTI metrics within the CST. Significantly correlated textures were selected and compared within the CST for group differences between patients and controls using voxel‐wise analysis. Textures were correlated with the patients' clinical upper motor neuron (UMN) signs and their diagnostic accuracy was evaluated. Voxel‐wise analysis of textures and their diagnostic performance were then assessed in an independent cohort with 26 patients and 13 controls. Results showed that textures autocorrelation, energy, and inverse difference normalized significantly correlated with DTI metrics (p < .05) and these textures were selected for further analyses. The textures demonstrated significant voxel‐wise differences between patients and controls in the centrum semiovale and the posterior limb of the internal capsule bilaterally (p < .05). Autocorrelation and energy significantly correlated with UMN burden in patients (p < .05) and classified patients and controls with 97% accuracy (100% sensitivity, 92.9% specificity). In the independent cohort, the selected textures demonstrated similar regional differences between patients and controls and classified participants with 94.9% accuracy. These results provide evidence that T1‐based textures are associated with degenerative changes in the CST.

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Differential diagnosis of mild cognitive impairment and Alzheimer's disease using structural MRI cortical thickness, hippocampal shape, hippocampal texture, and volumetry

Cited by 156 publications

References 57 publications

Recovery from Proactive Semantic Interference and MRI Volume: A Replication and Extension Study

Recovery from Proactive Semantic Interference and MRI Volume: A Replication and Extension Study

Classifying cognitive impairment based on the spatial heterogeneity of cerebral blood flow images

Corticospinal tract degeneration in ALS unmasked in T1‐weighted images using texture analysis

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