Radiomic Features of Hippocampal Subregions in Alzheimer’s Disease and Amnestic Mild Cognitive Impairment

Feng, Feng; Wang, Pan; Zhao, Kun; Zhou, Bo; Yao, Hongxiang; Meng, Qinglei; Wang, Lei; Zhang, Zengqiang; Ding, Yanhui; Wang, Luning; An, Ning; Zhang, Xi; Liu, Yong

doi:10.3389/fnagi.2018.00290

Cited by 90 publications

(111 citation statements)

References 74 publications

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“…Compared with previous techniques that process medical images as pictures for visual inspection, radiomics introduces a new way to mine the information contained in medical images, and thus, radiomics offers an unprecedented opportunity for clinically assisted diagnosis. 17 Radiomics analysis has been successfully applied to produce imaging biomarkers for neuropsychiatric diseases such as Alzheimer disease, 18 human immunodeficiency virus-related neurodegeneration, 19 and bipolar disorder. Therefore, such studies have demonstrated the potential of radiomics in predicting hippocampal sclerosis.…”

Section: Introductionmentioning

confidence: 99%

Automated detection of hippocampal sclerosis using clinically empirical and radiomics features

Liu

Sun

et al. 2019

Epilepsia

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Objective: Temporal lobe epilepsy is a common form of epilepsy that might be amenable to surgery. However, magnetic resonance imaging (MRI)-negative hippocampal sclerosis (HS) can hamper early diagnosis and surgical intervention for patients in clinical practice, resulting in disease progression. Our aim was to automatically detect and evaluate the structural alterations of HS. Methods: Eighty patients with pharmacoresistant epilepsy and histologically proven HS and 80 healthy controls were included in the study. Two automated classifiers relying on clinically empirical and radiomics features were developed to detect HS. Cross-validation was implemented on all participants, and specificity was assessed in the 80 controls. The performance, robustness, and clinical utility of the model were also evaluated. Structural analysis was performed to investigate the morphological abnormalities of HS. Results: The computational model based on clinical empirical features showed excellent performance, with an area under the curve (AUC) of 0.981 in the primary cohort and 0.993 in the validation cohort. One of the features, gray-white matter boundary blurring in the temporal pole, exhibited the highest weight in model performance.Another model based on radiomics features also showed satisfactory performance, with AUC of 0.997 in the primary cohort and 0.978 in the validation cohort. In particular, the model improved the detection rate of MRI-negative HS to 96.0%. The novel feature of cortical folding complexity of the temporal pole not only played a crucial role in the classifier but also had significant correlation with disease duration. |MO et al.

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Section: Introductionmentioning

confidence: 99%

Automated detection of hippocampal sclerosis using clinically empirical and radiomics features

Liu

Sun

et al. 2019

Epilepsia

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“…As expected, the pure clinical data-based classi cation models were meaningless in this stage, and the traditional volumetric and functional indices are also not sensitive enough (details were presented in the Supplementary Table 5 and Material). Although it is generally believed that radiomics analysis is more sensitive, but current studies are still limited to symptomatic stages [18,19,22,23,29] . Chaddad et al found the features derived from a single subcortical region produced an AUCs up to 80% for classifying AD-dementia from healthy individuals, and reached 91.54% when combined all regions [22] .…”

Section: Discussionmentioning

confidence: 99%

“…Chaddad et al found the features derived from a single subcortical region produced an AUCs up to 80% for classifying AD-dementia from healthy individuals, and reached 91.54% when combined all regions [22] . By using hippocampal features, researchers can distinguish AD-dementia with an accuracy of 86.75%, and 70.51% of MCI [19] . Identical conclusions were obtained in a recent large-scale multicenter study where the hippocampal features served as robust biomarkers for clinical identi cation of AD-dementia/MCI and further predicted whether MCI patients would convert to dementia [23] .…”

Section: Discussionmentioning

confidence: 99%

Radiomics analysis of magnetic resonance imaging helps to identify preclinical Alzheimer’s disease: an exploratory study

Li¹,

Wu²,

Jiang³

et al. 2020

Preprint

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Background: Diagnosing Alzheimer’s disease (AD) in the preclinical stage offers opportunities to early intervention, however, there is a lack of convenient biomarkers currently. By using the methods of radiomics analysis, we aimed to determine whether the features extracted from multi-parameter magnetic resonance imaging (MRI) can be used as potential biomarkers. Methods: This study is part of the SILCODE project (NCT03370744). All participants were cognitively healthy at baseline. The cohort 1 (n=183) was divided into individuals with preclinical AD (n=78) and controls (n=105) by amyloid-positron emission tomography, used as the training dataset (80%) and validation dataset (the rest 20%); cohort 2 (n=51) was divided into “converters” and “non-converters” by individuals’ future cognitive status, used as a separate test dataset; cohort 3 included 37 “converters” (13 from ADNI), was used as another test set for independent longitudinal researches. We extracted radiomics features from multi-parameter MRI of each participant, used t-tests, autocorrelation tests, and three independent selection algorithms, respectively, to select features. Then we established two classification models (support vector machine (SVM) and random forest (RF)) to verify the efficiency of retained features. Five-fold cross-validation and 100 repetitions were carried out for the above process. Furthermore, the acquired stable high-frequency features were tested in cohort 3 by paired two-sample t-tests and survival analyses, in order to identify whether their levels change with cognitive decline and impact conversion time. Results: The SVM and RF models both showed excellent classification efficiency, with the average accuracy of 89.65%-95.90% and 87.07%-90.81% respectively in the validation set, 81.86%-89.10% and 83.19%-83.68% respectively in the test set. Three stable high-frequency features were identified, namely Large zone high-gray-level emphasis feature of right posterior cingulate gyrus, Variance feature of left superior parietal gyrus and Coarseness feature of left posterior cingulate gyrus, all based on structural MRI modality; their levels were correlated with amyloid-β deposition, played good roles in predicting future cognitive decline (AUCs 64.9%-76.1%). In addition, levels of the Variance feature at baseline timepoint decreased with cognitive decline, and can affect the conversion time (p<0.05). Conclusion: In this exploratory study, we show radiomics features of multi-parameter MRI can be potential biomarkers of preclinical AD.

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“…To maximize the generalizability of the present study, we applied the SVM classification with a radial basis function (RBF) kernel using default parameters (C = 4, g = 2 À5 ), with the top 2000 voxels using t-test feature selection [62,63]. We performed training and testing steps using the leave-one-site-out crossvalidation method to improve the predictive power [64][65][66][67].…”

Section: Multivariate Classificationmentioning

confidence: 99%

“…Hence, we concluded that brain activity is an additional measure for distinguishing AD patients from NCs. Next, we plan to carefully study other measures, such as the network architecture of the whole brain [102], functional connectivity density, gray matter volume [103], cortical thickness and texture of important brain regions [63], in AD to determine more powerful and robust features based on these datasets. All the results, including the pipeline codes, will be shared online and open for researchers to build better pattern recognition algorithms for potential clinical applications.…”

Section: Caveats Limitations and Future Directionsmentioning

confidence: 99%

Radiomic Features of Hippocampal Subregions in Alzheimer’s Disease and Amnestic Mild Cognitive Impairment

Cited by 90 publications

References 74 publications

Automated detection of hippocampal sclerosis using clinically empirical and radiomics features

Automated detection of hippocampal sclerosis using clinically empirical and radiomics features

Radiomics analysis of magnetic resonance imaging helps to identify preclinical Alzheimer’s disease: an exploratory study

ASAF: altered spontaneous activity fingerprinting in Alzheimer’s disease based on multisite fMRI

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