Disrupted morphological grey matter networks in early-stage Parkinson’s disease

Suo, Xueling; Lei, Du; Li, Nannan; Li, Wenbin; Kemp, Graham J.; Sweeney, John A.; Peng, Rong; Gong, Qiyong

doi:10.1007/s00429-020-02200-9

Cited by 25 publications

(23 citation statements)

References 92 publications

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“…Many studies indicated that the lateral parietal cortex (including SPL) plays an important role in PD with movement dysfunction (Tian et al, 2020), and the precuneus is located in SPL and involved in visuospatial processing, episodic memory, self-reflection, and consciousness (Guo et al, 2020). Abnormal spontaneous brain activities in right PCL (Chen B. et al, 2017;Guo et al, 2020;Sheng et al, 2021;Suo et al, 2021), left ITG (Jiang et al, 2016;Chen B. et al, 2017;Guo et al, 2020;Tian et al, 2020), and STG (Chen B. et al, 2017;Lin et al, 2017) in patients with PD had also been reported. Those are consistent with the previous results.…”

Section: Discussionmentioning

confidence: 99%

Machine Learning for Detecting Parkinson’s Disease by Resting-State Functional Magnetic Resonance Imaging: A Multicenter Radiomics Analysis

Shi

Zhang

Wang

et al. 2022

Front. Aging Neurosci.

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Parkinson’s disease (PD) is one of the most common progressive degenerative diseases, and its diagnosis is challenging on clinical grounds. Clinically, effective and quantifiable biomarkers to detect PD are urgently needed. In our study, we analyzed data from two centers, the primary set was used to train the model, and the independent external validation set was used to validate our model. We applied amplitude of low-frequency fluctuation (ALFF)-based radiomics method to extract radiomics features (including first- and high-order features). Subsequently, t-test and least absolute shrinkage and selection operator (LASSO) were harnessed for feature selection and data dimensionality reduction, and grid search method and nested 10-fold cross-validation were applied to determine the optimal hyper-parameter λ of LASSO and evaluate the performance of the model, in which a support vector machine was used to construct the classification model to classify patients with PD and healthy controls (HCs). We found that our model achieved good performance [accuracy = 81.45% and area under the curve (AUC) = 0.850] in the primary set and good generalization in the external validation set (accuracy = 67.44% and AUC = 0.667). Most of the discriminative features were high-order radiomics features, and the identified brain regions were mainly located in the sensorimotor network and lateral parietal cortex. Our study indicated that our proposed method can effectively classify patients with PD and HCs, ALFF-based radiomics features that might be potential biomarkers of PD, and provided further support for the pathological mechanism of PD, that is, PD may be related to abnormal brain activity in the sensorimotor network and lateral parietal cortex.

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Section: Discussionmentioning

confidence: 99%

Machine Learning for Detecting Parkinson’s Disease by Resting-State Functional Magnetic Resonance Imaging: A Multicenter Radiomics Analysis

Shi

Zhang

Wang

et al. 2022

Front. Aging Neurosci.

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“…High-resolution (3.0 T or 7.0 T) MRI can provide information on pathologic changes in the brain of PD patients ( Sclocco et al, 2018 ). Previous brain network-related studies in PD patients have mainly focused on diagnosis; analyzing the relationship between GM network topology and the GM network determined from imaging data and disease severity can provide greater resolution for early diagnosis ( Suo et al, 2021b ). PD patients have higher E global and E local than normal subjects, which are unrelated to their clinical features ( Zhang et al, 2015 ).…”

Section: Discussionmentioning

confidence: 99%

“…The distribution divergence-based method has been used in morphologic brain network investigations including in PD ( Yoo et al, 2017 ; Fiorenzato et al, 2019 ; Yang et al, 2021 ). Specifically, Kullback–Leibler (KL) divergence ( Suo et al, 2021b ) was applied to construct the network according to the following formula:…”

Section: Methodsmentioning

confidence: 99%

Morphologic brain network predicts levodopa responsiveness in Parkinson disease

Xie

Gao²,

Wu³

et al. 2023

Front. Aging Neurosci.

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BackgroundThe levodopa challenge test (LCT) has been routinely used in Parkinson disease (PD) evaluation and predicts the outcome of deep brain stimulation (DBS). Guidelines recommend that patients with an improvement in Unified Parkinson’s Disease Rating Scale (UPDRS)-III score > 33% in the LCT receive DBS treatment. However, LCT results are affected by many factors, and only provide information on the immediate effectiveness of dopamine. The aim of the present study was to investigate the relationship between LCT outcome and brain imaging features of PD patients to determine whether the latter can be used to identify candidates for DBS.MethodsA total of 38 PD patients were enrolled in the study. Based on improvement in UPDRS-III score in the LCT, patients were divided into low improvement (PD-LCT-L) and high improvement (PD-LCT-H) groups. Each patient’s neural network was reconstructed based on T1-weighted magnetic resonance imaging data using the Jensen–Shannon divergence similarity estimation method. The network was established with the multiple kernel support vector machine technique. We analyzed differences in individual morphologic brain networks and their global and local metrics to determine whether there were differences in the connectomes of PD-LCT-L and PD-LCT-H groups.ResultsThe 2 groups were similar in terms of demographic and clinical characteristics. Mean ± SD levodopa responsiveness was 26.52% ± 3.47% in the PD-LCT-L group (N = 13) and 58.66% ± 4.09% in the PD-LCT-H group (N = 25). There were no significant differences between groups in global and local metrics. There were 43 consensus connections that were affected in both groups; in PD-LCT-L patients, most of these connections were decreased whereas those related to the dorsolateral superior frontal gyrus and left cuneus were significantly increased.ConclusionMorphologic brain network assessment is a valuable method for predicting levodopa responsiveness in PD patients, which can facilitate the selection of candidates for DBS.

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“…Twenty‐nine HC matched for age, gender, and years of education, with no history of neuropsychiatric disease, were recruited for comparative purposes. Details of inclusion and exclusion criteria are described in our previous paper (Suo et al, 2017; Suo et al, 2019; Suo et al, 2021a).…”

Section: Methodsmentioning

confidence: 99%

Topologically convergent and divergent morphological gray matter networks in early‐stage Parkinson's disease with and without mild cognitive impairment

Suo

Lei

et al. 2021

Human Brain Mapping

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Patients with Parkinson's disease with mild cognitive impairment (PD-M) progress to dementia more frequently than those with normal cognition (PD-N), but the underlying neurobiology remains unclear. This study aimed to define the specific morphological brain network alterations in PD-M, and explore their potential diagnostic value.Twenty-four PD-M patients, 17 PD-N patients, and 29 healthy controls (HC) underwent a structural MRI scan. Similarity between interregional gray matter volume distributions was used to construct individual morphological brain networks.These were analyzed using graph theory and network-based statistics (NBS), and their relationship to neuropsychological tests was assessed. Support vector machine (SVM) was used to perform individual classification. Globally, compared with HC, PD-M showed increased local efficiency (p = .001) in their morphological networks, while PD-N showed decreased normalized path length (p = .008). Locally, similar nodal deficits were found in the rectus and lingual gyrus, and cerebellum of both PD groups relative to HC; additionally in PD-M nodal deficits involved several frontal and parietal regions, correlated with cognitive scores. NBS found that similar connections were involved in the default mode and cerebellar networks of both PD groups (to a greater extent in PD-M), while PD-M, but not PD-N, showed altered connections involving the frontoparietal network. Using connections identified by NBS, SVM Xueling Suo and Du Lei contributed equally to this work.

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Disrupted morphological grey matter networks in early-stage Parkinson’s disease

Cited by 25 publications

References 92 publications

Machine Learning for Detecting Parkinson’s Disease by Resting-State Functional Magnetic Resonance Imaging: A Multicenter Radiomics Analysis

Machine Learning for Detecting Parkinson’s Disease by Resting-State Functional Magnetic Resonance Imaging: A Multicenter Radiomics Analysis

Morphologic brain network predicts levodopa responsiveness in Parkinson disease

Topologically convergent and divergent morphological gray matter networks in early‐stage Parkinson's disease with and without mild cognitive impairment

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