Investigation of the static and dynamic brain network mechanisms in patients with rhegmatogenous retinal detachment based on independent component analysis

•We investigated static and dynamic brain networks alterations in RRD patients.•RRD patients demonstrated alterations in both primary sensory networks and higher-order cognitive networks.•These results offer insights into the neural mechanisms of visual loss in RRD. Previous neuroimaging studies hav...

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Veröffentlicht in:Neuroscience Jg. 570; S. 84 - 94
Hauptverfasser: Ji, Yu, Wei, Bin, Dan, Yu-jing, Cheng, Qi, Fu, Wen-wen, Shu, Ben-liang, Huang, Qin-yi, Chai, Hua, Zhou, Lin, Yuan, Hao-yu, Wu, Xiao-rong
Format: Journal Article
Sprache:Englisch
Veröffentlicht: United States Elsevier Inc 27.03.2025
Schlagworte:
Adult
Brain - diagnostic imaging
Brain - physiopathology
Female
Functional connectivity
Humans
Independent component analysis
K-means clustering method
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nerve Net - diagnostic imaging
Nerve Net - physiopathology
Neural Pathways - diagnostic imaging
Neural Pathways - physiopathology
Resting-state functional magnetic resonance imaging
Retinal Detachment - diagnostic imaging
Retinal Detachment - physiopathology
Rhegmatogenous retinal detachment
Support Vector Machine
Functional connectivity
Support vector machine
Rhegmatogenous retinal detachment
Resting-state functional magnetic resonance imaging
K-means clustering method
Independent component analysis
ISSN:0306-4522, 1873-7544, 1873-7544
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Abstract •We investigated static and dynamic brain networks alterations in RRD patients.•RRD patients demonstrated alterations in both primary sensory networks and higher-order cognitive networks.•These results offer insights into the neural mechanisms of visual loss in RRD. Previous neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal detachment (RRD). Nonetheless, there remains a paucity of comprehensive research on the alterations in functional connectivity (FC) within large-scale static and dynamic brain networks in these patients. This study utilized independent component analysis (ICA) to investigate alterations in large-scale brain network FC in patients with RRD. Additionally, it employed support vector machine (SVM) to classify RRD patients and healthy controls (HCs) and examined the relationship between abnormal brain regions and clinical ophthalmic parameters. The RRD patients demonstrated significantly increased FC in the default mode network (DMN) and visual network (VN) compared to the HCs, whereas the FC in the auditory network (AN) and the sensorimotor network (SMN) was significantly decreased. Analysis of dynamic functional network connectivity (dFNC) revealed that the fraction of time (FT) spent in state 4 was significantly greater in RRD patients compared to HCs. SVM analysis showed that the AUC for classification using AN and FNC features reached 0.828 and 0.819, respectively. Additionally, the FC value of the right medial superior frontal gyrus (R-SFGmed) in RRD patients was positively correlated with axial length (r = 0.401, p = 0.038). This study revealed that patients with RRD exhibit both damage and adaptive remodeling in their brain functional networks. Alterations in the AN and FNC may serve as potential neuroimaging biomarkers for distinguishing RRD patients from HCs, providing crucial neuroimaging evidence for understanding the mechanisms underlying visual loss in RRD.
AbstractList Previous neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal detachment (RRD). Nonetheless, there remains a paucity of comprehensive research on the alterations in functional connectivity (FC) within large-scale static and dynamic brain networks in these patients. This study utilized independent component analysis (ICA) to investigate alterations in large-scale brain network FC in patients with RRD. Additionally, it employed support vector machine (SVM) to classify RRD patients and healthy controls (HCs) and examined the relationship between abnormal brain regions and clinical ophthalmic parameters. The RRD patients demonstrated significantly increased FC in the default mode network (DMN) and visual network (VN) compared to the HCs, whereas the FC in the auditory network (AN) and the sensorimotor network (SMN) was significantly decreased. Analysis of dynamic functional network connectivity (dFNC) revealed that the fraction of time (FT) spent in state 4 was significantly greater in RRD patients compared to HCs. SVM analysis showed that the AUC for classification using AN and FNC features reached 0.828 and 0.819, respectively. Additionally, the FC value of the right medial superior frontal gyrus (R-SFGmed) in RRD patients was positively correlated with axial length (r = 0.401, p = 0.038). This study revealed that patients with RRD exhibit both damage and adaptive remodeling in their brain functional networks. Alterations in the AN and FNC may serve as potential neuroimaging biomarkers for distinguishing RRD patients from HCs, providing crucial neuroimaging evidence for understanding the mechanisms underlying visual loss in RRD.
•We investigated static and dynamic brain networks alterations in RRD patients.•RRD patients demonstrated alterations in both primary sensory networks and higher-order cognitive networks.•These results offer insights into the neural mechanisms of visual loss in RRD. Previous neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal detachment (RRD). Nonetheless, there remains a paucity of comprehensive research on the alterations in functional connectivity (FC) within large-scale static and dynamic brain networks in these patients. This study utilized independent component analysis (ICA) to investigate alterations in large-scale brain network FC in patients with RRD. Additionally, it employed support vector machine (SVM) to classify RRD patients and healthy controls (HCs) and examined the relationship between abnormal brain regions and clinical ophthalmic parameters. The RRD patients demonstrated significantly increased FC in the default mode network (DMN) and visual network (VN) compared to the HCs, whereas the FC in the auditory network (AN) and the sensorimotor network (SMN) was significantly decreased. Analysis of dynamic functional network connectivity (dFNC) revealed that the fraction of time (FT) spent in state 4 was significantly greater in RRD patients compared to HCs. SVM analysis showed that the AUC for classification using AN and FNC features reached 0.828 and 0.819, respectively. Additionally, the FC value of the right medial superior frontal gyrus (R-SFGmed) in RRD patients was positively correlated with axial length (r = 0.401, p = 0.038). This study revealed that patients with RRD exhibit both damage and adaptive remodeling in their brain functional networks. Alterations in the AN and FNC may serve as potential neuroimaging biomarkers for distinguishing RRD patients from HCs, providing crucial neuroimaging evidence for understanding the mechanisms underlying visual loss in RRD.
Previous neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal detachment (RRD). Nonetheless, there remains a paucity of comprehensive research on the alterations in functional connectivity (FC) within large-scale static and dynamic brain networks in these patients.BACKGROUNDPrevious neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal detachment (RRD). Nonetheless, there remains a paucity of comprehensive research on the alterations in functional connectivity (FC) within large-scale static and dynamic brain networks in these patients.This study utilized independent component analysis (ICA) to investigate alterations in large-scale brain network FC in patients with RRD. Additionally, it employed support vector machine (SVM) to classify RRD patients and healthy controls (HCs) and examined the relationship between abnormal brain regions and clinical ophthalmic parameters.METHODSThis study utilized independent component analysis (ICA) to investigate alterations in large-scale brain network FC in patients with RRD. Additionally, it employed support vector machine (SVM) to classify RRD patients and healthy controls (HCs) and examined the relationship between abnormal brain regions and clinical ophthalmic parameters.The RRD patients demonstrated significantly increased FC in the default mode network (DMN) and visual network (VN) compared to the HCs, whereas the FC in the auditory network (AN) and the sensorimotor network (SMN) was significantly decreased. Analysis of dynamic functional network connectivity (dFNC) revealed that the fraction of time (FT) spent in state 4 was significantly greater in RRD patients compared to HCs. SVM analysis showed that the AUC for classification using AN and FNC features reached 0.828 and 0.819, respectively. Additionally, the FC value of the right medial superior frontal gyrus (R-SFGmed) in RRD patients was positively correlated with axial length (r = 0.401, p = 0.038).RESULTSThe RRD patients demonstrated significantly increased FC in the default mode network (DMN) and visual network (VN) compared to the HCs, whereas the FC in the auditory network (AN) and the sensorimotor network (SMN) was significantly decreased. Analysis of dynamic functional network connectivity (dFNC) revealed that the fraction of time (FT) spent in state 4 was significantly greater in RRD patients compared to HCs. SVM analysis showed that the AUC for classification using AN and FNC features reached 0.828 and 0.819, respectively. Additionally, the FC value of the right medial superior frontal gyrus (R-SFGmed) in RRD patients was positively correlated with axial length (r = 0.401, p = 0.038).This study revealed that patients with RRD exhibit both damage and adaptive remodeling in their brain functional networks. Alterations in the AN and FNC may serve as potential neuroimaging biomarkers for distinguishing RRD patients from HCs, providing crucial neuroimaging evidence for understanding the mechanisms underlying visual loss in RRD.CONCLUSIONThis study revealed that patients with RRD exhibit both damage and adaptive remodeling in their brain functional networks. Alterations in the AN and FNC may serve as potential neuroimaging biomarkers for distinguishing RRD patients from HCs, providing crucial neuroimaging evidence for understanding the mechanisms underlying visual loss in RRD.
Author Shu, Ben-liang
Yuan, Hao-yu
Zhou, Lin
Dan, Yu-jing
Cheng, Qi
Chai, Hua
Wei, Bin
Ji, Yu
Fu, Wen-wen
Wu, Xiao-rong
Huang, Qin-yi
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  surname: Ji
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  organization: Department of Ophthalmology, The First Affiliated Hospital, Jiangxi Medical College, Nanchang University, Nanchang 330006 Jiangxi Province, China
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  givenname: Bin
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  fullname: Wei, Bin
  organization: Department of Ophthalmology, The First Affiliated Hospital, Jiangxi Medical College, Nanchang University, Nanchang 330006 Jiangxi Province, China
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  surname: Dan
  fullname: Dan, Yu-jing
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  givenname: Qin-yi
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  givenname: Hua
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  organization: Department of Ophthalmology, The First Affiliated Hospital, Jiangxi Medical College, Nanchang University, Nanchang 330006 Jiangxi Province, China
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  givenname: Lin
  surname: Zhou
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  givenname: Hao-yu
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  givenname: Xiao-rong
  orcidid: 0000-0003-4580-4304
  surname: Wu
  fullname: Wu, Xiao-rong
  email: ndyfy03457@ncu.edu.cn
  organization: Department of Ophthalmology, The First Affiliated Hospital, Jiangxi Medical College, Nanchang University, Nanchang 330006 Jiangxi Province, China
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1873-7544
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Keywords Functional connectivity
Support vector machine
Rhegmatogenous retinal detachment
Resting-state functional magnetic resonance imaging
K-means clustering method
Independent component analysis
Language English
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Snippet •We investigated static and dynamic brain networks alterations in RRD patients.•RRD patients demonstrated alterations in both primary sensory networks and...
Previous neuroimaging studies have identified substantial structural and functional abnormalities in the brains of patients with rhegmatogenous retinal...
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SubjectTerms Adult
Brain - diagnostic imaging
Brain - physiopathology
Female
Functional connectivity
Humans
Independent component analysis
K-means clustering method
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nerve Net - diagnostic imaging
Nerve Net - physiopathology
Neural Pathways - diagnostic imaging
Neural Pathways - physiopathology
Resting-state functional magnetic resonance imaging
Retinal Detachment - diagnostic imaging
Retinal Detachment - physiopathology
Rhegmatogenous retinal detachment
Support Vector Machine
Title Investigation of the static and dynamic brain network mechanisms in patients with rhegmatogenous retinal detachment based on independent component analysis
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