Your search keyword '"Zhao, Dengfa"' showing total 6 results

1. Additional file 1 of Verification of a clinical decision support system for the diagnosis of headache disorders based on patient–computer interactions: a multi-center study

Author

Han, Xun, Wan, Dongjun, Zhang, Shuhua, Yin, Ziming, Huang, Siyang, Xie, Fengbo, Guo, Junhong, Qu, Hongli, Yao, Yuanrong, Xu, Huifang, Li, Dongfang, Chen, Sufen, Wang, Faming, Wang, Hebo, Chen, Chunfu, He, Qiu, Dong, Ming, Wan, Qi, Xu, Yanmei, Chen, Min, Yan, Fanhong, Wang, Xiaolin, Wang, Rongfei, Zhang, Mingjie, Ran, Ye, Jia, Zhihua, Liu, Yinglu, Chen, Xiaoyan, Hou, Lei, Zhao, Dengfa, Dong, Zhao, and Yu, Shengyuan

Abstract

Additional file 1. Satisfaction Survey Questions.

Published

2023

2. The gut microbiome modulates nitroglycerin-induced migraine-related hyperalgesia in mice

Author

Shanshan Kong, Zhao Dengfa, Jing Liu, Mingjie Zhang, Yingji Li, Shengyuan Yu, Wenjing Tang, Yaofen Zhang, and Li Kang

Subjects

medicine.medical_specialty, Migraine Disorders, medicine.medical_treatment, Pain, Gut flora, Pathogenesis, Mice, Nitroglycerin, Basal (phylogenetics), Internal medicine, medicine, Animals, Humans, Saline, biology, business.industry, General Medicine, biology.organism_classification, medicine.disease, Gastrointestinal Microbiome, Endocrinology, Migraine, Hyperalgesia, Calcitonin, Tumor necrosis factor alpha, Neurology (clinical), medicine.symptom, business

Abstract

Background Gut microbiota disturbance is increasingly suggested to be involved in the pathogenesis of migraine but this connection remains unsubstantiated. This study aimed to investigate whether the gut microbiome influences migraine-related hyperalgesia. Methods Nitroglycerin-induced hyperalgesia was evaluated in mice with different gut microbiota statuses as follows: Specific pathogen-free mice; germ-free mice; specific pathogen-free mice treated with antibiotics to deplete the gut microbiome (ABX mice); and germ-free mice transplanted with the gut microbial profile from specific pathogen-free mice (GFC mice). Moreover, nitroglycerin-induced hyperalgesia was compared between recipient mice transplanted with gut microbiota from a patient with migraine and those that received gut microbiota from a sex- and age-matched healthy control. Results In specific pathogen-free mice, a decreased mechanical threshold in the hind paw, increased grooming time, increased c-Fos expression level and decreased calcitonin gene-related peptide expression level as well as increased tumor necrosis factor-α concentration in the trigeminal nucleus caudalis were observed after nitroglycerin administration compared with saline treatment. However, increased basal sensitivity and higher basal concentrations of TNF-α in the trigeminal nucleus caudalis were observed in germ-free and ABX mice, while no significant difference in hyperalgesia was observed between the nitroglycerin group and saline group in germ-free and ABX mice. Moreover, significant hyperalgesia was induced by nitroglycerin administration in GFC mice. The mice transplanted with the gut microbial profile from a patient with migraine had more severe nitroglycerin-induced hyperalgesia than the mice receiving microbiota from a matched healthy control. Conclusion Our findings highlight the involvement of the gut microbiome in normal mechanical pain sensation and pathogenesis of migraine.

Published

2021

3. Functional correlation of ATP1A2 mutations with phenotypic spectrum: from pure hemiplegic migraine to its variant forms

Author

Zhao Dong, Shengyuan Yu, Ruozhuo Liu, Yingji Li, Zhao Dengfa, Wenjing Tang, Li Kang, and Shanshan Kong

Subjects

Migraine with Aura, Mutant, Hemiplegia, Ouabain, Epilepsy, ATP1A2, Humans, Medicine, Missense mutation, Na+/K+-ATPase, Familial hemiplegic migraine, business.industry, General Medicine, medicine.disease, Phenotype, Molecular biology, HEK293 Cells, Anesthesiology and Pain Medicine, Mutation, Neurology (clinical), Sodium-Potassium-Exchanging ATPase, Patch clamp, business, HeLa Cells, Research Article, medicine.drug

Abstract

Background Mutations in ATP1A2, the gene encoding the α2 subunit of Na+/K+-ATPase, are the main cause of familial hemiplegic migraine type 2 (FHM2). The clinical presentation of FHM2 with mutations in the same gene varies from pure FHM to severe forms with epilepsy and intellectual disability, but the correlation of these symptoms with different ATP1A2 mutations is still unclear. Methods Ten ATP1A2 missense mutations were selected according to different phenotypes of FHM patients. They caused pure FHM (FHM: R65W, R202Q, R593W, G762S), FHM with epilepsy (FHME: R548C, E825K, R938P), or FHM with epilepsy and intellectual disability (FHMEI: T378N, G615R, D718N). After ouabain resistance and fluorescence modification, plasmids carrying those mutations were transiently transfected into HEK293T and HeLa cells. The biochemical functions were studied including cell survival assays, membrane protein extraction, western blotting, and Na+/K+-ATPase activity tests. The electrophysiological functions of G762S, R938P, and G615R mutations were investigated in HEK293T cells using whole-cell patch-clamp. Homology modeling was performed to determine the locational distribution of ATP1A2 mutations. Results Compared with wild-type pumps, all mutations showed a similar level of protein expression and decreased cell viability in the presence of 1 µM ouabain, and there was no significant difference among the mutant groups. The changes in Na+/K+-ATPase activity were correlated with the severity of FHM phenotypes. In the presence of 100 µM ouabain, the Na+/K+-ATPase activity was FHM > FHME > FHMEI. The ouabain-sensitive Na+/K+-ATPase activity of each mutant was significantly lower than that of the wild-type protein, and there was no significant difference among all mutant groups. Whole-cell voltage-clamp recordings in HEK293T cells showed that the ouabain-sensitive pump currents of G615R were significantly reduced, while those of G762S and R938P were comparable to those of the wild-type strain. Conclusions ATP1A2 mutations cause phenotypes ranging from pure FHM to FHM with epilepsy and intellectual disability due to varying degrees of deficits in biochemical and electrophysiological properties of Na+/K+-ATPase. Mutations associated with intellectual disability presented with severe impairment of Na+/K+-ATPase. Whether epilepsy is accompanied, or the type of epilepsy did not seem to affect the degree of impairment of pump function.

Published

2021

4. Additional file 1 of Functional correlation of ATP1A2 mutations with phenotypic spectrum: from pure hemiplegic migraine to its variant forms

Author

Li, Yingji, Tang, Wenjing, Kang, Li, Kong, Shanshan, Dong, Zhao, Zhao, Dengfa, Liu, Ruozhuo, and Yu, Shengyuan

Abstract

Additional file 1: Supplementary Figure 1. Representative images of transfection efficiency of wild-type and mutant constructs with 100μm scales. Supplementary Figure 2. Survival assays in HeLa cells. The survival rate of each mutant was significantly reduced compared to the wild-type (R65W: P = 0.032, other mutants: P < 0.0001, two-way ANOVA). Supplementary Figure 3. Survival assays in HEK293T cells. The survival rate of each mutant was significantly reduced compared to the wild-type (R65W: P = 0.016, other mutants: P < 0.0001, two-way ANOVA). Supplementary Figure 4. Survival assays in HeLa cells in the absence of ouabain. The survival rates of cells in each mutant group were similar to those in the WT group (P > 0.05, two-way ANOVA). Supplementary Table 1. Clinical characteristics of previously published patients with studied ATP1A2 mutations.

Published

2021

5. Response inhibition alterations in migraine: Evidence from event-related potentials and evoked oscillations

Author

Zhao Dong, Yansong Li, Ignacio Obeso, Rongfei Wang, Guoliang Chen, Zhao Dengfa, and Shengyuan Yu

Subjects

Delta oscillation, Aura, Migraine Disorders, lcsh:Medicine, Stop signal, 03 medical and health sciences, 0302 clinical medicine, Event-related potential, Parietal Lobe, Motor system, medicine, Reaction Time, Humans, Ictal, Cortical disexcitability, Evoked Potentials, Migraine, 030304 developmental biology, 0303 health sciences, business.industry, lcsh:R, N2, Cognition, P3, Neural Inhibition, General Medicine, ERPs, Theta oscillation, medicine.disease, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Scalp, Response inhibition, Female, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery, Research Article

Abstract

Background Migraine is characterized by a hypersensitivity to environmental stimulation which climaxes during headache attacks but persists during attack-free period. Despite ongoing debates about the nature of the mechanisms giving rise to this abnormality, the presence of deficient inhibitory cortical processes has been proposed to be one possible mechanism underlying its pathogenesis. Empirical evidence supporting this claim is mainly based on previous accounts showing functional cortical disexcitability in the sensory domain. Considering that a general inhibitory control process can play an important role across early to later stage of information processing, this may indicate the important role other dimensions of inhibitory control can play in migraine disability. The present study examined the pathophysiological features of inhibitory control that takes place during suppression of prepotent responses in migraineurs. Methods Twenty-two patients with migraine without aura (mean age = 30.86 ± 5.69 years; 19 females) during the interictal period and 25 healthy controls (mean age = 30.24 ± 3.52 years; 18 females) were recruited. We used a stop signal task in combination with event-related potentials (ERPs) to examine participants’ neural activity supporting response inhibition. Results Behaviorally, migraineurs exhibited prolonged stop signal reaction times relative to healthy controls. At the neural level, the amplitude of the stop-N2 over fronto-central, central and centro-parietal scalp regions, a component of the ERPs related to conflict monitoring during early, non-motoric stages of inhibition, was significantly increased in migraineurs. Meanwhile, the amplitude of the stop-P3 over central and centro-parietal scalp regions, a component of the ERPs reflecting late-stage inhibition of the motor system and cognitive evaluation of motor inhibition, was also significantly increased in migraineurs. Ultimately, our time-frequency analysis further revealed increased delta activity in migraineurs. Conclusions Consistent with the theory that alterations in cognitive cortical processes are a key signature of migraine, our findings revealed an abnormal state of suppressing prepotent responses in migraineurs, which can be attributed to cortical disexcitability of the pre-frontal executive network and centro-parietal sensorimotor network. These novel findings extend to show the existence of dysfunctional inhibition control that occurs during suppression of prepotent responses in migraneurs.

Published

2020

6. Response inhibition alterations in migraine: Evidence from event-related potentials and evoked oscillations

Author

Zhao Dong, Yansong Li, Guoliang Chen, Zhao Dengfa, Ignacio Obeso, Rongfei Wang, and Shengyuan Yu

Subjects

Aura, business.industry, Cognition, Stop signal, medicine.disease, medicine.anatomical_structure, Migraine, Event-related potential, Scalp, Motor system, medicine, Ictal, business, Neuroscience

Abstract

Background: Migraine is characterized by a hypersensitivity to environmental stimulation which climaxes during headache attacks but persists during attack-free period. Despite ongoing debates about the nature of the mechanisms giving rise to this abnormality, the presence of deficient inhibitory cortical processes has been proposed to be one possible mechanism underlying its pathogenesis. Empirical evidence supporting this claim is mainly based on previous accounts showing functional cortical disexcitability in the sensory domain. Considering that a general inhibitory control process can play an important role across early to later stage of information processing, this may indicate the important role other dimensions of inhibitory control can play in migraine disability. The present study examined the pathophysiological features of inhibitory control that takes place during suppression of prepotent responses in migraineurs. Methods: Twenty-two patients with migraine without aura (mean age = 30.86 ± 5.69 years; 19 females) during the interictal period and 25 healthy controls (mean age = 30.24 ± 3.52 years; 18 females) were recruited. We used a stop signal task in combination with event-related potentials (ERPs) to examine participants’ neural activity supporting response inhibition. Results: Behaviorally, migraineurs exhibited prolonged stop signal reaction times relative to healthy controls. At the neural level, the amplitude of the stop-N2 over fronto-central, central and centro-parietal scalp regions, a component of the ERPs related to conflict monitoring during early, non-motoric stages of inhibition, was significantly increased in migraineurs. Meanwhile, the amplitude of the stop-P3 over central and centro-parietal scalp regions, a component of the ERPs reflecting late-stage inhibition of the motor system and cognitive evaluation of motor inhibition, was also significantly increased in migraineurs. Ultimately, our time-frequency analysis further revealed increased delta activity in migraineurs. Conclusions: Consistent with the theory that alterations in cognitive cortical processes are a key signature of migraine, our findings revealed an abnormal state of suppressing prepotent responses in migraineurs, which can be attributed to cortical disexcitability of the pre-frontal executive network and centro-parietal sensorimotor network. These novel findings extend to show the existence of dysfunctional inhibition control that occurs during suppression of prepotent responses in migraneurs.nctional inhibition control that occurs during suppression of prepotent responses in migraneurs.

Published

2020