Modular organization of brain resting state networks in patients with classical trigeminal neuralgia
•Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery.•Higher communication between the default mode network module and other modules before surgery was associated with better treatment response.•Subcortical modules was asso...
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| Published in | NeuroImage clinical Vol. 24; p. 102027 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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01.01.2019
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| Abstract | •Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery.•Higher communication between the default mode network module and other modules before surgery was associated with better treatment response.•Subcortical modules was associated with pain duration.•A lower connection between the default mode network and subcortical modules was associated with a better treatment response and the thalamus and midcingulate cortex were the major connectors within the subcortical module.
The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia.
A total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization.
Whole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module.
These findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response. |
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| AbstractList | The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia.
A total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization.
Whole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module.
These findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response. •Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery.•Higher communication between the default mode network module and other modules before surgery was associated with better treatment response.•Subcortical modules was associated with pain duration.•A lower connection between the default mode network and subcortical modules was associated with a better treatment response and the thalamus and midcingulate cortex were the major connectors within the subcortical module. The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia. A total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization. Whole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module. These findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response. Highlights•Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery. •Higher communication between the default mode network module and other modules before surgery was associated with better treatment response. •Subcortical modules was associated with pain duration. •A lower connection between the default mode network and subcortical modules was associated with a better treatment response and the thalamus and midcingulate cortex were the major connectors within the subcortical module. • Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery. • Higher communication between the default mode network module and other modules before surgery was associated with better treatment response. • Subcortical modules was associated with pain duration. • A lower connection between the default mode network and subcortical modules was associated with a better treatment response and the thalamus and midcingulate cortex were the major connectors within the subcortical module. Background: The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia. Methods: A total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization. Results: Whole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module. Conclusions: These findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response. Keywords: Trigeminal neuralgia, Radiofrequency rhizotomy, Functional MRI, Modular organization, Pain chronification The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia.BACKGROUNDThe modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule connectivity in patients with trigeminal neuralgia before and after percutaneous radiofrequency rhizotomy treatment to identify specific modules that may be associated with the development and brain plasticity of trigeminal neuralgia and to test the ability of modularity analysis to be a predictive imaging biomarker for the treatment effect in patients with trigeminal neuralgia.A total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization.METHODSA total of 25 patients with right trigeminal neuralgia and 20 matched healthy subjects were included. Blood-oxygen-level dependent resting state fMRI was used to analyze the brain modular organization.Whole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module.RESULTSWhole brain modularity analysis identified seven modules. The metric of intermodule connectivity, participation coefficient, of the sensorimotor network and default mode network modules were significantly lower in patients and increased after surgery. The participation coefficient of the subcortical modules was associated with the pain duration. Higher communication between the default mode network module and other modules before surgery was associated with a better treatment response. Furthermore, the subcortical module was a significant contributor to the participation coefficient relationship of the default mode network module with the treatment response, and the bilateral midcingulate cortex and thalamus were major connectors in the subcortical module.These findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response.CONCLUSIONSThese findings have important implications regarding the global brain modular responses to chronic neuropathic pain and it may be feasible to use the modularity analysis as part of a risk stratification to predict the treatment response. |
| ArticleNumber | 102027 |
| Author | Yang, Jen-Tsung Liang, Xia Tsai, Yuan-Hsiung Hsu, Li-Ming |
| AuthorAffiliation | c Department of Neurosurgery, Chang Gung Memorial Hospital at Chiayi, Chiayi, Taiwan d Chang-Gung University College of Medicine, Taoyuan, Taiwan e Department of Radiology and BRIC, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA a Department of Diagnostic Radiology, Chang Gung Memorial Hospital at Chiayi, Chiayi, Taiwan b Laboratory for Space Environment and Physical Sciences, Harbin Institute of Technology, Harbin 150001, China |
| AuthorAffiliation_xml | – name: a Department of Diagnostic Radiology, Chang Gung Memorial Hospital at Chiayi, Chiayi, Taiwan – name: e Department of Radiology and BRIC, University of North Carolina at Chapel Hill, Chapel Hill, NC, USA – name: d Chang-Gung University College of Medicine, Taoyuan, Taiwan – name: b Laboratory for Space Environment and Physical Sciences, Harbin Institute of Technology, Harbin 150001, China – name: c Department of Neurosurgery, Chang Gung Memorial Hospital at Chiayi, Chiayi, Taiwan |
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| CitedBy_id | crossref_primary_10_3389_fnhum_2023_1144159 crossref_primary_10_1016_j_neulet_2022_136866 crossref_primary_10_1016_j_pnpbp_2025_111326 crossref_primary_10_1162_netn_a_00398 crossref_primary_10_1186_s10194_022_01488_8 crossref_primary_10_1097_j_pain_0000000000003365 crossref_primary_10_1007_s10489_024_05308_1 crossref_primary_10_1186_s10194_024_01812_4 crossref_primary_10_1016_j_nicl_2022_103160 crossref_primary_10_2147_JPR_S483466 crossref_primary_10_3389_fnins_2022_930765 crossref_primary_10_1093_cercor_bhae337 crossref_primary_10_1080_00325481_2022_2067612 crossref_primary_10_1177_17448069241300939 crossref_primary_10_1186_s10194_021_01354_z |
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| Keywords | Functional MRI Modular organization Trigeminal neuralgia Radiofrequency rhizotomy Pain chronification |
| Language | English |
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| Snippet | •Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery.•Higher communication between... Highlights•Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery. •Higher... The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and intermodule... • Sensorimotor network and default mode network activities were lower in trigeminal neuralgia patients and increased after surgery. • Higher communication... Background: The modular organization of brain networks in trigeminal neuralgia patients has remained largely unknown. We aimed to analyze the brain modules and... |
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| SubjectTerms | Adult Aged Brain - diagnostic imaging Facial Pain - etiology Facial Pain - surgery Female Functional MRI Humans Magnetic Resonance Imaging Male Middle Aged Modular organization Nerve Net - diagnostic imaging Neural Pathways - diagnostic imaging Neurosurgical Procedures Pain chronification Prospective Studies Radiofrequency rhizotomy Radiology Radiosurgery - methods Regular Rest Rhizotomy Treatment Outcome Trigeminal neuralgia Trigeminal Neuralgia - diagnostic imaging Trigeminal Neuralgia - surgery |
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| Title | Modular organization of brain resting state networks in patients with classical trigeminal neuralgia |
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