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1. Differential cortical layer engagement during seizure initiation and spread in humans

Author

Pierre Bourdillon, Liankun Ren, Mila Halgren, Angelique C. Paulk, Pariya Salami, István Ulbert, Dániel Fabó, Jean-Rémi King, Kane M. Sjoberg, Emad N. Eskandar, Joseph R. Madsen, Eric Halgren, and Sydney S. Cash

Subjects
Science
Abstract

Abstract Despite decades of research, we still do not understand how spontaneous human seizures start and spread – especially at the level of neuronal microcircuits. In this study, we used laminar arrays of micro-electrodes to simultaneously record the local field potentials and multi-unit neural activities across the six layers of the neocortex during focal seizures in humans. We found that, within the ictal onset zone, the discharges generated during a seizure consisted of current sinks and sources only within the infra-granular and granular layers. Outside of the seizure onset zone, ictal discharges reflected current flow in the supra-granular layers. Interestingly, these patterns of current flow evolved during the course of the seizure – especially outside the seizure onset zone where superficial sinks and sources extended into the deeper layers. Based on these observations, a framework describing cortical-cortical dynamics of seizures is proposed with implications for seizure localization, surgical targeting, and neuromodulation techniques to block the generation and propagation of seizures.

Published
2024
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3. Causal associations between sleep traits and brain structure: a bidirectional Mendelian randomization study

Author

Qiao Wang, Shimin Hu, Lei Qi, Xiaopeng Wang, Guangyuan Jin, Di Wu, Yuke Wang, and Liankun Ren

Subjects
Sleep hygiene, Brain structure, Mendelian randomization, Causal effect, Epidemiology, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Emerging evidence suggests bidirectional causal relationships between sleep disturbance and psychiatric disorders, but the underlying mechanisms remain unclear. Understanding the bidirectional causality between sleep traits and brain imaging-derived phenotypes (IDPs) will help elucidate the mechanisms. Although previous studies have identified a range of structural differences in the brains of individuals with sleep disorders, it is still uncertain whether grey matter (GM) volume alterations precede or rather follow from the development of sleep disorders. Results After Bonferroni correction, the forward MR analysis showed that insomnia complaint remained positively associated with the surface area (SA) of medial orbitofrontal cortex (β, 0.26; 95% CI, 0.15–0.37; P = 5.27 × 10–6). In the inverse MR analysis, higher global cortical SA predisposed individuals less prone to suffering insomnia complaint (OR, 0.89; 95%CI, 0.85–0.94; P = 1.51 × 10–5) and short sleep (≤ 6 h; OR, 0.98; 95%CI, 0.97–0.99; P = 1.51 × 10–5), while higher SA in posterior cingulate cortex resulted in a vulnerability to shorter sleep durations (β, − 0.09; 95%CI, − 0.13 to − 0.05; P = 1.21 × 10–5). Conclusions Sleep habits not only result from but also contribute to alterations in brain structure, which may shed light on the possible mechanisms linking sleep behaviours with neuropsychiatric disorders, and offer new strategies for prevention and intervention in psychiatric disorders and sleep disturbance.

Published
2023
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4. Functional connectomic profile correlates with effective anterior thalamic stimulation for refractory epilepsy

Author

Cuiping Xu, Lei Qi, Xueyuan Wang, Frédéric L.W.V.J. Schaper, Di Wu, Tao Yu, Xiaoming Yan, Guangyuan Jin, Qiao Wang, Xiaopeng Wang, Xinqi Huang, Yuke Wang, Yuanhong Chen, Jinghui Liu, Yuping Wang, Andreas Horn, Robert S. Fisher, and Liankun Ren

Subjects
Anterior nucleus of the thalamus, Deep brain stimulation, Refractory epilepsy, Functional connectivity, Outcomes, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Background: Deep brain stimulation of the anterior nucleus of the thalamus (ANT-DBS) is an effective treatment for refractory epilepsy; however, seizure outcome varies among individuals. Identifying a reliable noninvasive biomarker to predict good responders would be helpful. Objectives: To test whether the functional connectivity between the ANT-DBS sites and the seizure foci correlates with effective seizure control in refractory epilepsy. Methods: We performed a proof-of-concept pilot study of patients with focal refractory epilepsy receiving ANT-DBS. Using normative human connectome data derived from 1000 healthy participants, we investigated whether intrinsic functional connectivity between the seizure foci and the DBS site was associated with seizure outcome. We repeated this analysis controlling for the extent of seizure foci, distance between the seizure foci and DBS site, and using functional connectivity of the ANT instead of the DBS site to test the contribution of variance in DBS sites. Results: Eighteen patients with two or more seizure foci were included. Greater functional connectivity between the seizure foci and the DBS site correlated with more favorable outcome. The degree of functional connectivity accounted for significant variance in clinical outcomes (DBS site: |r| = 0.773, p

Published
2023
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5. Identification of a common brain network associated with lesional epilepsy

Author

Di Wu, Jinghui Liu, and Liankun Ren

Subjects
Poststroke epilepsy, Lesion network mapping, Brain network, Neuromodulation, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Stroke is the leading cause of neurological diseases globally. Remarkably, epilepsy is a common complication of stroke, which greatly impairs the quality of life of patients and poses a significant clinical challenge. Therefore, a better understanding of the risk factors for poststroke epilepsy is crucial. A recent study published in JAMA Neurology studied the brain network associated with poststroke epilepsy in a group of 76 patients compared to a cohort of 625 control patients using lesion mapping techniques. The results showed that negative functional connectivity between lesion locations and regions in the basal ganglia and cerebellum confers a higher risk of developing epilepsy after stroke. The lesion network nodes associated with epilepsy were identical across different lesion types including hematomas, traumas, tumors, and tubers. Furthermore, the poststroke epilepsy brain network has potential therapeutic relevance to deep brain stimulation (DBS). In a cohort of 30 patients, the functional connectivity between anterior thalamic DBS sites and the lesion network nodes was found to correlate with seizure control after DBS. In summary, the finding provides a novel method for predicting the risk of poststroke epilepsy in patients and may guide brain stimulation treatments for epilepsy.

Published
2023
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6. Emerging personalized virtual brain models: next-generation resection neurosurgery for drug-resistant epilepsy?

Author

Qiao Wang, Guangyuan Jin, Tao Yu, Fabrice Bartolomei, and Liankun Ren

Subjects
Drug-resistant focal epilepsy, Personalized virtual brain models, Machine learning, Epileptogenic zone networks, Stereoelectroencephalography, Virtual surgery, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Recently, a novel workflow known as the virtual epileptic patient (VEP) has been proposed by a research team from Aix Marseille Université in their papers published in Lancet Neurology, Science Translational Medicine and Epilepsia. This method involves creating an individualized virtual brain model based on computational modelling, which can facilitate clinical decision-making by estimating the epileptogenic zone and performing the virtual surgery. Here, we summarize brief workflow, strengths, and limitations of VEP, as well as its performance in a retrospective study of 53 patients with drug-resistant focal epilepsy who underwent stereoelectroencephalography. A large-scale clinical trial (NCT03643016) is underway to further assess VEP, which is expected to enroll 356 patients prospectively. As supporting evidence accumulates, the clinical application of VEP has the potential to improve clinical practice, leading to better outcomes and qualities of life of patients.

Published
2023
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8. The alteration of cortical microstructure similarity in drug-resistant epilepsy correlated with mTOR pathway genesResearch in context

Author

Hang Cao, Penghu Wei, Yuda Huang, Ningrui Wang, Lin-Ai Guo, Xiaotong Fan, Zhenming Wang, Liankun Ren, Yueshan Piao, Jie Lu, Yongzhi Shan, Xiaosong He, and Guoguang Zhao

Subjects
Drug-resistant epilepsy, Laminar-related microstructure organization, Morphometric similarity networks, mTOR, Medicine, Medicine (General), R5-920
Abstract

Summary: Background: Drug-resistant epilepsy (DRE) is associated with distributed laminar disruptions due to cytoarchitectonic pathologies, which may be characterized by multimodal MRI approaches such as morphometric similarity networks (MSNs). However, the genetic and histological underpinning of MSN alterations in DRE remains poorly understood, hampering its clinical application. Methods: We enrolled 60 patients with DRE and 23 controls, acquiring T1 and diffusion spectrum imaging data with a 3.0T GE SIGNA Premier scanner. Morphometric similarity networks (MSNs) were constructed and analyzed to identify microstructure similarity differences between patients and controls. Subsequently, patient-specific MSN alteration patterns were associated with gene expression using the GAMBA tool, and layer-specific neuronal signature mapping were also applied. During these analyses, sex and age were adjusted as covariates and multiple comparisons corrections were applied when appropriate. Findings: We observed widespread MSN changes in patients with DRE and identified five distinct MSN alteration patterns. Major patterns presented pattern-specific associations with expressions of epilepsy-related genes, particularly involving the mTOR pathway. Histological analysis confirmed the presence of cortical microstructure changes in areas with MSN alterations and revealed cellular abnormalities matching the aforementioned genetic risks. Interpretation: Our findings highlight the potential of quantifying laminar-related microstructure integrity using MSN to uncover the cytoarchitectonic changes in the pathophysiology of DRE. This approach may facilitate the identification of genetic and histological underpinnings of MSN alterations in DRE, ultimately aiding in the development of targeted therapeutic strategies. Fundings: The National Natural Science Foundation of China, the Ministry of Science and Technology of the People's Republic of China, and the Beijing Municipal Health Commission.

Published
2023
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9. The anterior nucleus of the thalamus plays a role in the epileptic network

Author

Hao Yan, Xueyuan Wang, Tao Yu, Duanyu Ni, Liang Qiao, Xiaohua Zhang, Cuiping Xu, Wei Shu, Yuping Wang, and Liankun Ren

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objectives We investigated both the metabolic differences and interictal/ictal discharges of the anterior nucleus of the thalamus (ANT) in patients with epilepsy to clarify the relationship between the ANT and the epileptic network. Methods Nineteen patients with drug‐resistant epilepsy who underwent stereoelectroencephalography were studied. Metabolic differences in ANT were analyzed using [18F] fluorodeoxyglucose–positron emission tomography with three‐dimensional (3D) visual and quantitative analyses. Interictal and ictal discharges in the ANT were analyzed using visual and time‐frequency analyses. The relationship between interictal discharge and metabolic differences was analyzed. Results We found that patients with temporal lobe epilepsy (TLE) showed significant metabolic differences in bilateral ANT compared with extratemporal lobe epilepsy in 3D visual and quantitative analyses. Four types of interictal activities were recorded from the ANT: spike, high‐frequency oscillation (HFO), slow‐wave, and α‐rhythmic activity. Spike and HFO waveforms were recorded mainly in patients with TLE. Two spike patterns were recorded: synchronous and independent. In 83.3% of patients, ANT was involved during seizures. Three seizure onset types of ANT were recorded: low‐voltage fast activity, rhythmic spikes, and theta band discharge. The time interval of seizure onset between the seizure onset zone and ANT showed two patterns: immediate and delayed. Interpretation ANT can receive either interictal discharges or ictal discharges which propagate from the epileptogenic zones. Independent epileptic discharges can also be recorded from the ANT in some patients. Metabolic anomalies and epileptic discharges in the ANT indicate that the ANT plays a role in the epileptic network in most patients with epilepsy, especially TLE.

Published
2022
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10. Intracranial direct electrical mapping reveals the functional architecture of the human basal ganglia

Author

Lei Qi, Cuiping Xu, Xueyuan Wang, Jialin Du, Quansheng He, Di Wu, Xiaopeng Wang, Guangyuan Jin, Qiao Wang, Jia Chen, Di Wang, Huaqiang Zhang, Xiaohua Zhang, Penghu Wei, Yongzhi Shan, Zaixu Cui, Yuping Wang, Yousheng Shu, Guoguang Zhao, Tao Yu, and Liankun Ren

Subjects
Biology (General), QH301-705.5
Abstract

Direct electrical stimulation of the basal ganglia using implanted SEEG electrodes produced a variety of motor and non-motor effects in human participants, providing insight into the functional architecture of this key brain region.

Published
2022
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11. Human anterior thalamic stimulation evoked cortical potentials align with intrinsic functional connectivity

Author

Di Wu, Frederic L.W.V.J. Schaper, Guangyuan Jin, Lei Qi, Jialin Du, Xiaopeng Wang, Yuke Wang, Cuiping Xu, Xueyuan Wang, Tao Yu, Michael D. Fox, and Liankun Ren

Subjects
Resting-state functional connectivity, Stereoelectroencephalography, Cortical evoked potential, Anterior nucleus of the thalamus, Thalamocortical circuit, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Characterizing human thalamocortical network is fundamental for understanding a vast array of human behaviors since the thalamus plays a central role in cortico-subcortical communication. Over the past few decades, advances in functional magnetic resonance imaging have allowed for spatial mapping of intrinsic resting-state functional connectivity (RSFC) between both cortical regions and in cortico-subcortical networks. Despite these advances, identifying the electrophysiological basis of human thalamocortical network architecture remains challenging. By leveraging stereoelectroencephalography electrodes temporarily implanted into distributed cortical regions and the anterior nucleus of the thalamus (ANT) of 10 patients with refractory focal epilepsy, we tested whether ANT stimulation evoked cortical potentials align with RSFC from the stimulation site, derived from a normative functional connectome (n = 1000). Our study identifies spatial convergence of ANT stimulation evoked cortical potentials and normative RSFC. Other than connections to the Papez circuit, the ANT was found to be closely connected to several distinct higher-order association cortices, including the precuneus, angular gyrus, dorsal lateral prefrontal cortex, and anterior insula. Remarkably, we found that the spatial distribution and magnitude of cortical-evoked responses to single-pulse electrical stimulation of the ANT aligned with the spatial pattern and strength of normative RSFC of the stimulation site. The present study provides electrophysiological evidence that stimulation evoked electrical activity flows along intrinsic brain networks connected on a thalamocortical level.

Published
2023
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12. Deep brain stimulation for patients with refractory epilepsy: nuclei selection and surgical outcome

Author

Hao Yan, Xueyuan Wang, Xiaohua Zhang, Liang Qiao, Runshi Gao, Duanyu Ni, Wei Shu, Cuiping Xu, Liankun Ren, and Tao Yu

Subjects
deep brain stimulation, refractory epilepsy, anterior nucleus of the thalamus, subthalamic nucleus, centromedian nucleus, Neurology. Diseases of the nervous system, RC346-429
Abstract

ObjectiveBy studying the surgical outcome of deep brain stimulation (DBS) of different target nuclei for patients with refractory epilepsy, we aimed to explore a clinically feasible target nucleus selection strategy.MethodsWe selected patients with refractory epilepsy who were not eligible for resective surgery. For each patient, we performed DBS on a thalamic nucleus [anterior nucleus of the thalamus (ANT), subthalamic nucleus (STN), centromedian nucleus (CMN), or pulvinar nucleus (PN)] selected based on the location of the patient's epileptogenic zone (EZ) and the possible epileptic network involved. We monitored the clinical outcomes for at least 12 months and analyzed the clinical characteristics and seizure frequency changes to assess the postoperative efficacy of DBS on the different target nuclei.ResultsOut of the 65 included patients, 46 (70.8%) responded to DBS. Among the 65 patients, 45 underwent ANT-DBS, 29 (64.4%) responded to the treatment, and four (8.9%) of them reported being seizure-free for at least 1 year. Among the patients with temporal lobe epilepsy (TLE, n = 36) and extratemporal lobe epilepsy (ETLE, n = 9), 22 (61.1%) and 7 (77.8%) responded to the treatment, respectively. Among the 45 patients who underwent ANT-DBS, 28 (62%) had focal to bilateral tonic-clonic seizures (FBTCS). Of these 28 patients, 18 (64%) responded to the treatment. Out of the 65 included patients, 16 had EZ related to the sensorimotor cortex and underwent STN-DBS. Among them, 13 (81.3%) responded to the treatment, and two (12.5%) were seizure-free for at least 6 months. Three patients had Lennox–Gastaut syndrome (LGS)-like epilepsy and underwent CMN-DBS; all of them responded to the treatment (seizure frequency reductions: 51.6%, 79.6%, and 79.5%). Finally, one patient with bilateral occipital lobe epilepsy underwent PN-DBS, reducing the seizure frequency by 69.7%.SignificanceANT-DBS is effective for patients with TLE or ETLE. In addition, ANT-DBS is effective for patients with FBTCS. STN-DBS might be an optimal treatment for patients with motor seizures, especially when the EZ overlaps the sensorimotor cortex. CMN and PN may be considered modulating targets for patients with LGS-like epilepsy or occipital lobe epilepsy, respectively.

Published
2023
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13. Association of sleep complaints with all-cause and heart disease mortality among US adults

Author

Qiao Wang, Shimin Hu, Na Clara Pan, Tingting Zhang, Liankun Ren, and Yuping Wang

Subjects
sleep complaint, sleep duration, sleep disorder, all-cause mortality, heart disease mortality, Public aspects of medicine, RA1-1270
Abstract

IntroductionCompared with sleep disorders, no consensus has been reached on whether a subjective complaint of having trouble sleeping is associated with increased all-cause and heart disease mortality risk. Previous studies displayed considerable heterogeneity in population disease characteristics and duration of follow-up. Therefore, the aims of this study were to examine the relationship between sleep complaints and all-cause and heart disease mortality and whether the associations were influenced by follow-up time and population disease characteristics. In addition, we aimed to figure out the influence of the joint effects of sleep duration and sleep complaints on mortality risk.MethodsThe present study utilized data from five cycles of the National Health and Nutrition Examination Survey (NHANES) (2005~2014) linked with the most updated 2019 National Death Index (NDI). Sleep complaints were determined by answers to “Have you ever told a doctor or other health professional that you have trouble sleeping?” and “Have you ever been told by a doctor or other health professional that you have a sleep disorder?”. Those who answered ‘Yes' to either of the aforementioned two questions were considered as having sleep complaints.ResultsA total of 27,952 adult participants were included. During a median follow-up of 9.25 years (interquartile range, 6.75–11.75 years), 3,948 deaths occurred and 984 were attributable to heart disease. A multivariable-adjusted Cox model revealed that sleep complaints were significantly associated with all-cause mortality risk (HR, 1.17; 95% CI, 1.07–1.28). Subgroup analysis revealed that sleep complaints were associated with all-cause (HR, 1.17; 95% CI, 1.05–1.32) and heart disease (HR, 1.24; 95% CI, 1.01–1.53) mortality among the subgroup with cardiovascular disease (CVD) or cancer. In addition, sleep complaints were more strongly associated with short-term mortality than long-term mortality. The joint analysis of sleep duration and sleep complaints showed that sleep complaints mainly increased the mortality risk in those with short (< 6 h/day, sleep complaints HR, 1.40; 95% CI, 1.15–1.69) or recommended (6–8 h/day, sleep complaints HR, 1.15; 95% CI, 1.01–1.31) sleep duration group.DiscussionIn conclusion, sleep complaints were associated with increased mortality risk, indicating a potential public benefit of monitoring and managing sleep complaints in addition to sleep disorders. Of note, persons with a history of CVD or cancer may represent a potentially high-risk group that should be targeted with a more aggressive intervention of sleep problems to prevent premature all-cause and heart disease death.

Published
2023
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14. Repetitive transcranial magnetic stimulation to treat benign epilepsy with centrotemporal spikes

Author

Guangyuan Jin, Jia Chen, Jialin Du, Liu He, Lei Qi, Di Wu, Yuping Wang, Hua Lin, and Liankun Ren

Subjects
Epilepsy, Benign epilepsy with centrotemporal spikes, Repetitive transcranial magnetic stimulation, Neuromodulation, Electroencephalogram, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Objectives: To investigate the effects of low-frequency repetitive transcranial magnetic stimulation (rTMS) on patients with benign epilepsy with centrotemporal spikes (BECTS). Methods: In this open pilot study, we enrolled four BECTS patients who had frequent seizures (at least 3 seizures during the 3-month baseline). After localizing sources of interictal epileptiform discharges (IEDs) with magnetoencephalography, IEDs-source-rTMS (1 Hz) with 500 pulses at 90% of resting motor threshold was applied for 10 weekdays in each patient. The primary outcome measure was the seizure-reduction rate after rTMS. Other outcome measures were the spike-wave index (SWI), behavioral evaluation, and adverse effects. Results: All four patients received at least 3 months seizure-free after rTMS. Compared with baseline, SWI decreased significantly after rTMS in three patients (patient 1, 3 and 4) (P = .002, P = .007, and P

Published
2022
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15. Anterior thalamic stimulation improves working memory precision judgments

Author

Jiali Liu, Tao Yu, Jinfeng Wu, Yali Pan, Zheng Tan, Ruobing Liu, Xueyuan Wang, Liankun Ren, and Liang Wang

Subjects
Anterior nucleus of thalamus, Electrical stimulation, Hippocampus, Neural oscillations, Working memory precision, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Background: The anterior nucleus of thalamus (ANT) has been suggested as an extended hippocampal system. The circuit of ANT and hippocampus has been widely demonstrated to be associated with memory function. Both lesions to each region and disrupting inter-regional information flow can induce working memory impairment. However, the role of this circuit in working memory precision remains unknown. Objective: To test the role of the hippocampal-anterior thalamic pathway in working memory precision, we delivered intracranially electrical stimulation to the ANT. We hypothesize that ANT stimulation can improve working memory precision. Methods: Presurgical epilepsy patients with depth electrodes in ANT and hippocampus were recruited to perform a color-recall working memory task. Participants were instructed to point out the color they were supposed to recall by clicking a point on the color wheel, while the intracranial EEG data were synchronously recorded. For randomly selected half trials, a bipolar electrical stimulation was delivered to the ANT electrodes. Results: We found that compared to non-stimulation trials, working memory precision judgements were significantly improved for stimulation trials. ANT electrical stimulation significantly increased spectral power of gamma (30–100 Hz) oscillations and decreased interictal epileptiform discharges (IED) in the hippocampus. Moreover, the increased gamma power during the pre-stimulus and retrieval period predicted the improvement of working memory precision judgements. Conclusion: ANT electrical stimulation can improve working memory precision judgements and modulate hippocampal gamma activity, providing direct evidence on the role of the human hippocampal-anterior thalamic axis in working memory precision.

Published
2021
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16. Distinct Patterns of Automatic and Controlled Incongruent Information Processing in the Human Brain

Author

Jialin Du, Yu Zhu, Chengtian Zhao, Dongju Yang, Tao Yu, Xiaohua Zhang, Liankun Ren, and Yuping Wang

Subjects
incongruent information processing, stereoelectroencephalography, event-related potential, frontoparietal control network, default mode network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

It is a fundamental ability to discriminate incongruent information in daily activity. However, the underlying neural dynamics are still unclear. Using stereoelectroencephalography (SEEG), in this study, we investigated the fine-grained and different states of incongruent information processing in patients with refractory epilepsy who underwent intracranial electrode implantation. All patients performed a delayed match-to-sample paradigm in the sequential pairs of visual stimuli (S1 followed by S2). Participants were asked to discriminate whether the relevant feature of S2 was identical to S1 while ignoring the irrelevant feature. The spatiotemporal cortical responses evoked by different conditions were calculated and compared, respectively, in the context of brain intrinsic functional networks. In total, we obtained SEEG recordings from 241 contacts in gray matter. In the processing of irrelevant incongruent information, the activated brain areas included the superior parietal lobule, supramarginal gyrus, angular gyrus, inferior temporal gyrus, and fusiform gyrus. By comparing the relevant incongruent condition with the congruent condition, the activated brain areas included the middle frontal gyrus, superior temporal gyrus, middle temporal gyrus, posterior superior temporal sulcus, and posterior cingulate cortex. We demonstrated the dynamics of incongruent information processing with high spatiotemporal resolution and suggested that the process of automatic detection of irrelevant incongruent information requires the involvement of local regions and relatively few networks. Meanwhile, controlled discrimination of relevant incongruent information requires the participation of extensive regions and a wide range of nodes in the network. Furthermore, both the frontoparietal control network and default mode network were engaged in the incongruent information processing.

Published
2022
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17. Expert consensus on clinical applications of high-frequency oscillations in epilepsy

Author

Yuping Wang, Dong Zhou, Xiaofeng Yang, Xin Xu, Liankun Ren, Tao Yu, Wenjing Zhou, Xiaoqiu Shao, Zhixian Yang, Shuang Wang, Dezhi Cao, Chunyan Liu, Shang Yeong Kwan, and Jing Xiang

Subjects
High-frequency oscillations, Ripple, Fast ripple, Interictal spike, Epilepsy, Biomarker, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Studies in animal models of epilepsy and pre-surgical patients have unanimously found a strong correlation between high-frequency oscillations (HFOs, > 80 Hz) and the epileptogenic zone, suggesting that HFOs can be a potential biomarker of epileptogenicity and epileptogenesis. This consensus includes the definition and standard detection techniques of HFOs, the localizing value of pathological HFOs for epileptic foci, and different ways to distinguish physiological from epileptic HFOs. The latest clinical applications of HFOs in epilepsy and the related findings are also discussed. HFOs will advance our understanding of the pathophysiology of epilepsy.

Published
2020
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18. Electrophysiological properties and seizure networks in hypothalamic hamartoma

Author

Di Wang, Yongzhi Shan, Fabrice Bartolomei, Philippe Kahane, Yang An, Muyang Li, Huaqiang Zhang, Xiaotong Fan, Siqi Ou, Yanfeng Yang, Penghu Wei, Chao Lu, Yihe Wang, Jialin Du, Liankun Ren, Yuping Wang, and Guoguang Zhao

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objective Little is known about the intrinsic electrophysiological properties of hypothalamic hamartoma (HH) in vivo and seizure network since only few cases using stereoelectroencephalography (SEEG) electrodes exploring both cortex and HH have been published. To elucidate these issues, we analyzed simultaneous SEEG recordings in HH and cortex systematically. Methods We retrospectively investigated data from 15 consecutive patients with SEEG electrodes into the HH for the treatment purpose of radiofrequency thermocoagulation treatment. Additional SEEG electrodes were placed into the cortex in 11 patients to assess extra‐HH involvement. Interictal discharges within the HH and anatomo‐electroclinical correlations during seizures of each patient were qualitatively and quantitatively analyzed. Results Overall, 77 electrodes with 719 contacts were implanted, and 33 spontaneous seizures were recorded during long‐term SEEG monitoring. Interictally, distinct electrophysiological patterns, including isolated intermittent spikes/sharp waves, burst spike and wave trains, paroxysmal fast discharges, periodic discharges, and high‐frequency oscillations, were identified within the HH. Notably, synchronized or independent interictal discharges in the cortex were observed. Regarding the ictal discharges, the electrical onset pattern within the HH always started with abrupt giant shifts superimposed on low‐voltage fast activity across patients. The gelastic seizure network mainly involved the HH, orbitofrontal areas, and cingulate gyrus. Seizures with automatisms and impaired awareness primarily propagated to mesial temporal lobes. Moreover, independent ictal discharges arising from the mesial temporal lobe were detected in three out of nine patients. Interpretation This study comprehensively reveals intrinsic electrophysiological patterns and epileptogenic networks in vivo, providing new insights into the mechanisms underlying cortical and subcortical epileptogenesis.

Published
2020
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19. Specific structuro-metabolic pattern of thalamic subnuclei in fatal familial insomnia: A PET/MRI imaging study

Author

Kexin Xie, Yaojing Chen, Min Chu, Yue Cui, Zhongyun Chen, Jing Zhang, Li Liu, Donglai Jing, Chunlei Cui, Zhigang Liang, Liankun Ren, Pedro Rosa-Neto, Imad Ghorayeb, Zhanjun Zhang, and Liyong Wu

Subjects
Fatal familial insomnia, Magnetic resonance imaging, 18F-Fluorodeoxyglucose, Positron-Emission Tomography, Thalamic nuclei, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429
Abstract

Background: Dysfunction of the thalamus has been proposed as a core mechanism of fatal familial insomnia. However, detailed metabolic and structural alterations in thalamic subnuclei are not well documented. We aimed to address the multimodal structuro-metabolic pattern at the level of the thalamic nuclei in fatal familial insomnia patients, and investigated the clinical presentation of primary thalamic alterations. Materials and Methods: Five fatal familial insomnia patients and 10 healthy controls were enrolled in this study. All participants underwent neuropsychological assessments, polysomnography, electroencephalogram, and cerebrospinal fluid tests. MRI and fluorodeoxyglucose PET were acquired on a hybrid PET/MRI system. Structural and metabolic changes were compared using voxel-based morphometry analyses and standardized uptake value ratio analyses, focusing on thalamic subnuclei region of interest analyses. Correlation analysis was conducted between gray matter volume and metabolic decrease ratios, and clinical features. Results: The whole-brain analysis showed that gray matter volume decline was confined to the bilateral thalamus and right middle temporal pole in fatal familial insomnia patients, whereas hypometabolism was observed in the bilateral thalamus, basal ganglia, and widespread cortices, mainly in the forebrain. In the regions of interest analysis, gray matter volume and metabolism decreases were prominent in bilateral medial dorsal nuclei, anterior nuclei, and the pulvinar, which is consistent with neuropathological and clinical findings. A positive correlation was found between gray matter volume and metabolic decrease ratios. Conclusions: Our study revealed specific structuro-metabolic pattern of fatal familial insomnia that demonstrated the essential roles of medial dorsal nuclei, anterior nuclei, and pulvinar, which may be a potential biomarker in diagnosis. Also, primary thalamic subnuclei alterations may be correlated with insomnia, neuropsychiatric, and autonomic symptoms sparing primary cortical involvement.

Published
2022
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22. A vertigo network derived from human brain lesions and brain stimulation

Author

Yanran Li, Lei Qi, Frédéric L W V J Schaper, Di Wu, Maximilian Friedrich, Jialin Du, Tao Yu, Qiao Wang, Xiaopeng Wang, Di Wang, Guangyuan Jin, Aihua Liu, Chunqiu Fan, Yuping Wang, Michael D Fox, and Liankun Ren

Subjects
Cellular and Molecular Neuroscience, Psychiatry and Mental health, Neurology, Biological Psychiatry
Abstract

Vertigo is a common neurological complaint, which can result in significant morbidity and decreased quality of life. While pathology to peripheral and subtentorial brain structures is a well-established cause of vertigo, cortical lesions have also been linked to vertigo and may lend insight into relevant neuroanatomy. Here, we investigate the supratentorial lesion locations associated with vertigo and test whether they map to a common brain network. We performed a systematic literature search and identified 23 cases of supratentorial brain lesions associated with vertigo. We mapped the lesion locations to a standard brain template and computed the network of brain regions functionally connected to each lesion location, using a ‘wiring diagram’ of the human brain termed the human connectome (n = 1000). Sensitivity was assessed by identifying the most common connection to lesion locations associated with vertigo, and specificity was assessed through comparison with control lesions associated with symptoms other than vertigo (n = 68). We found that functional connectivity between lesion locations and the bilateral ventral posterior insula was both sensitive (22/23 lesions) and specific (voxel-wise family-wise error-corrected P < 0.05) for lesion-induced vertigo. We computed connectivity with this hub region to define a lesion-based vertigo network, which included regions in the bilateral insula, somatosensory cortex, higher-level visual areas, cingulate sulcus, thalamus and multiple cerebellar regions in the territory of the posterior inferior cerebellar artery. Next, we used stereo-electroencephalography (80 stimulation sites across 17 patients) to test whether stimulation sites associated with vertigo mapped to this same network. We found that 36/42 (86%) of stimulation sites eliciting vertigo fell within the lesion-based vertigo network in contrast to 16/39 (41%) of stimulation sites that did not elicit vertigo. Connectivity between stimulation sites and our lesion-based hub in the ventral posterior insula was also significantly associated with vertigo (P < 0.0001). We conclude that cortical lesions and direct electrical stimulation sites associated with vertigo map to a common brain network, offering insights into the causal neuroanatomical substrate of vertigo.

Published
2023

23. Integrative roles of human amygdala subdivisions: Insight from direct intracerebral stimulations via stereotactic EEG.

Author

Huaqiang Zhang, Di Wang, Penghu Wei, Xiaotong Fan, Yanfeng Yang, Yang An, Yang Dai, Tao Feng, Yongzhi Shan, Liankun Ren, and Guoguang Zhao

Subjects
AMYGDALOID body, NEURAL circuitry, ELECTRIC stimulation, ELECTROENCEPHALOGRAPHY, EVOKED potentials (Electrophysiology), NEUROBEHAVIORAL disorders, EPILEPSY
Abstract

Substantial studies of human amygdala function have revealed its importance in processing emotional experience, autonomic regulation, and sensory information; however, the neural substrates and circuitry subserving functions have not been directly mapped at the level of the subnuclei in humans. We provide a useful overview of amygdala functional characterization by using direct electrical stimulation to various amygdala regions in 48 patients with drug-resistant epilepsy undergoing stereoelectroencephalography recordings. This stimulation extends beyond the anticipated emotional, neurovegetative, olfactory, and somatosensory responses to include visual, auditory, and vestibular sensations, which may be explained by the functional connectivity with cortical and subcortical regions due to evoked amygdala-cortical potentials. Among the physiological symptom categories for each subnucleus, the most frequently evoked neurovegetative symptoms were distributed in almost every subnucleus. Laterobasal subnuclei are mainly associated with emotional responses, somatosensory responses, and vestibular sensations. Superficial subnuclei are mainly associated with emotional responses and olfactory and visual hallucinations. Our findings contribute to a better understanding of the functional architecture of the human amygdala at the subnuclei level and as a mechanistic basis for the clinical practice of amygdala stimulation in treating patients with neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Deep brain stimulation of the subthalamic nucleus for epilepsy

Author

Hao Yan, Liankun Ren, and Tao Yu

Subjects
Drug Resistant Epilepsy, Neurology, Subthalamic Nucleus, Deep Brain Stimulation, Humans, Parkinson Disease, Neurology (clinical), General Medicine
Abstract

Deep brain stimulation of the subthalamic nucleus (STN-DBS) is a promising palliative option for patients with refractory epilepsy. However, crucial questions remain unanswered: Which patients are the optimal candidates? How, where, and when to stimulate the STN? And what is the mechanism of STN-DBS action on epilepsy? Thus, we reviewed the clinical evidence on the antiepileptic effects of STN-DBS and its possible mechanisms on drug-resistant epilepsy, its safety, and the factors influencing stimulation outcomes. This information may guide clinical decision-making. In addition, based on the current knowledge on the effect of STN-DBS on epilepsy, we suggest research that needs to be carried out in the future.

Published
2022

25. Functional organization of the human primary somatosensory cortex: A stereo-electroencephalography study

Author

Guojun Zhang, Zhiwei Ren, Tao Yu, Xiaohua Zhang, Runshi Gao, Liankun Ren, and Fengqiao Sun

Subjects
Adult, Male, Drug Resistant Epilepsy, Adolescent, Electroencephalography, Transcranial Direct Current Stimulation, Somatosensory system, 050105 experimental psychology, 03 medical and health sciences, Homunculus, 0302 clinical medicine, Evoked Potentials, Somatosensory, Physiology (medical), Cortex (anatomy), Body Image, medicine, Humans, 0501 psychology and cognitive sciences, medicine.diagnostic_test, 05 social sciences, Somatosensory Cortex, Sensory Systems, medicine.anatomical_structure, Neurology, Forehead, Female, Body region, Neurology (clinical), Functional organization, Psychology, Neuroscience, 030217 neurology & neurosurgery, Brodmann area
Abstract

Objective The classical homunculus of the human primary somatosensory cortex (S1) established by Penfield has mainly portrayed the functional organization of convexial cortex, namely Brodmann area (BA) 1. However, little is known about the functions in fissural cortex including BA2 and BA3. We aim at drawing a refined and detailed somatosensory homunculus of the entire S1. Methods We recruited 20 patients with drug-resistant focal epilepsy who underwent stereo-electroencephalography for preoperative assessments. Direct electrical stimulation was performed for functional mapping. Montreal Neurological Institute coordinates of the stimulation sites lying in S1 were acquired. Results Stimulation of 177 sites in S1 yielded 149 positive sites (84%), most of which were located in the sulcal cortex. The spatial distribution of different body-part representations across the S1 surface revealed that the gross medial-to-lateral sequence of body representations within the entire S1 was consistent with the classical “homunculus”. And we identified several unreported body-part representations from the sulcal cortex, such as forehead, deep elbow and wrist joints, and some dorsal body regions. Conclusions Our results reveal general somatotopical characteristics of the entire S1 cortex and differences with the previous works of Penfield. Significance The classical S1 homunculus was extended by providing further refinement and additional detail.

Published
2021

26. Expert consensus on clinical applications of high-frequency oscillations in epilepsy

Author

Dong Zhou, Tao Yu, Xiaofeng Yang, Wenjing Zhou, Chunyan Liu, Xiaoqiu Shao, Xin Xu, Zhixian Yang, Shuang Wang, Liankun Ren, Dezhi Cao, Shang Yeong Kwan, Yuping Wang, and Jing Xiang

Subjects
0301 basic medicine, medicine.medical_specialty, Neurology, Epileptogenesis, Fast ripple, lcsh:RC346-429, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, medicine, Ripple, High-frequency oscillations, lcsh:Neurology. Diseases of the nervous system, General Environmental Science, business.industry, Expert consensus, Interictal spike, Biomarker, medicine.disease, Epileptogenic zone, 030104 developmental biology, Potential biomarkers, General Earth and Planetary Sciences, business, Epileptic foci, Neuroscience, 030217 neurology & neurosurgery
Abstract

Studies in animal models of epilepsy and pre-surgical patients have unanimously found a strong correlation between high-frequency oscillations (HFOs, > 80 Hz) and the epileptogenic zone, suggesting that HFOs can be a potential biomarker of epileptogenicity and epileptogenesis. This consensus includes the definition and standard detection techniques of HFOs, the localizing value of pathological HFOs for epileptic foci, and different ways to distinguish physiological from epileptic HFOs. The latest clinical applications of HFOs in epilepsy and the related findings are also discussed. HFOs will advance our understanding of the pathophysiology of epilepsy.

Published
2020

27. Amygdalar and hippocampal beta rhythm synchrony during human fear memory retrieval

Author

Minjing Hu, Duanyu Ni, Jing Liu, Xueyuan Wang, Di Wang, Zhaoyang Huang, Jialin Du, Liang Qiao, Xi Zhang, Xueming Wang, Runshi Gao, Tao Yu, Liankun Ren, and Yuping Wang

Subjects
medicine.medical_specialty, Neurology, Emotion classification, Hippocampus, Local field potential, Hippocampal formation, Amygdala, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Memory, Humans, Medicine, Beta Rhythm, Mechanism (biology), business.industry, Fear, medicine.anatomical_structure, nervous system, Surgery, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery
Abstract

Fear, as one of the basic emotions, is crucial in helping humans to perceive hazards and adapt to social activities. Clinically, fear memory is also involved in a wide spectrum of psychiatric disorders. A better understanding of the neural mechanisms of fear thereby has both neuroscientific and clinical significance. In recent years, data from animal models have demonstrated the key role of the amygdala-hippocampal circuit in the development of fear. However, the neural processing of fear memory remains unclear in humans, which is mainly due to the limitation of indirect measure of neural activity. Herein, we investigated fear memory by direct intracranial recordings from 8 intractable epilepsy patients with depth electrodes in both the hippocampus and ipsilateral amygdala. All the patients were subjected to a well-established Pavlovian fear memory paradigm consisted of the familiarization task, conditioning task, and retrieval task, respectively. Simultaneous local field potentials from the hippocampus and amygdala were recorded during different stages. The oscillatory activities from the amygdala and hippocampus were analyzed during fear memory retrieval compared with neutral stages. Consistent with previous rodent studies, our results showed that the amygdala was involved in fear memory retrieval rather than neutral memory retrieval, while the hippocampus was involved both in fear memory retrieval and neutral memory retrieval. In particular, we found that there was an enhanced synchronized activity between the amygdala and hippocampus at beta frequencies (14–30 Hz), which suggested that enhanced synchronized activity at beta frequencies between the amygdala and hippocampus play a pivotal role during retrieval of fear memory in human. Thus, our observation that the amygdala-hippocampal system contributing to fear memory retrieval in human with frequency-depended specificity has provided new insights into the mechanism of fear and have potential clinical relevance.

Published
2020

29. Transformative neural representations support long-term episodic memory

Author

Baoqing Lu, Qinhao Yang, Liang Zhang, Hui Zhang, Gui Xue, Tao Yu, Jing Liu, Nikolai Axmacher, Duanyu Ni, and Liankun Ren

Subjects
Cognitive science, Multidisciplinary, Artificial neural network, Recall, Computer science, Cognitive Neuroscience, Process (computing), SciAdv r-articles, Term (time), Psychological Science, Stimulus (psychology), Encoding (memory), Mental representation, Episodic memory, Research Article, Neuroscience
Abstract

Description, Greater representational transformation during encoding is associated with stronger semantic formats and better long-term memory., Memory is often conceived as a dynamic process that involves substantial transformations of mental representations. However, the neural mechanisms underlying these transformations and their role in memory formation and retrieval have only started to be elucidated. Combining intracranial EEG recordings with deep neural network models, we provide a detailed picture of the representational transformations from encoding to short-term memory maintenance and long-term memory retrieval that underlie successful episodic memory. We observed substantial representational transformations during encoding. Critically, more pronounced semantic representational formats predicted better subsequent long-term memory, and this effect was mediated by more consistent item-specific representations across encoding events. The representations were further transformed right after stimulus offset, and the representations during long-term memory retrieval were more similar to those during short-term maintenance than during encoding. Our results suggest that memory representations pass through multiple stages of transformations to achieve successful long-term memory formation and recall.

Published
2021

30. Characterizing the hyper- and hypometabolism in temporal lobe epilepsy using multivariate machine learning

Author

Gaolang Gong, Dongyan Wu, Xiaosong He, Yumin Zheng, Di Wu, Lei Qi, Liankun Ren, Chaoling Jin, Liyuan Yang, Yanran Li, and Zaixu Cui

Subjects
business.industry, Frontal gyrus, Machine learning, computer.software_genre, medicine.disease, Magnetic Resonance Imaging, Temporal Lobe, nervous system diseases, Temporal lobe, Lingual gyrus, Machine Learning, Cellular and Molecular Neuroscience, Epilepsy, Frontal lobe, Epilepsy, Temporal Lobe, Inferior temporal gyrus, Fluorodeoxyglucose F18, Positron-Emission Tomography, Hypermetabolism, Medicine, Humans, Artificial intelligence, business, computer, Insula
Abstract

Mesial temporal lobe epilepsy (MTLE) is the most common type of focal epilepsy, presenting both structural and metabolic abnormalities in the ipsilateral mesial temporal lobe. While it has been demonstrated that the metabolic abnormalities in MTLE actually extend beyond the epileptogenic zone, how such multidimensional information is associated with the diagnosis of MTLE remains to be tested. Here, we explore the whole-brain metabolic patterns in 23 patients with MTLE and 24 healthy controls using [18 F]fluorodeoxyglucose PET imaging. Based on a multivariate machine learning approach, we demonstrate that the brain metabolic patterns can discriminate patients with MTLE from controls with a superior accuracy (>95%). Importantly, voxels showing the most extreme contributing weights to the classification (i.e., the most important regional predictors) distribute across both hemispheres, involving both ipsilateral negative weights over the anterior part of lateral and medial temporal lobe, posterior insula, and lateral orbital frontal gyrus, and contralateral positive weights over the anterior frontal lobe, temporal lobe, and lingual gyrus. Through region-of-interest analyses, we verify that in patients with MTLE, the negatively weighted regions are hypometabolic, and the positively weighted regions are hypermetabolic, compared to controls. Interestingly, despite that both hypo- and hypermetabolism have mutually contributed to our model, they may reflect different pathological and/or compensative responses. For instance, patients with earlier age at epilepsy onset present greater hypometabolism in the ipsilateral inferior temporal gyrus, while we find no evidence of such association with hypermetabolism. In summary, quantitative models utilizing multidimensional brain metabolic information may provide additional assistance to presurgical workups in TLE.

Published
2021

31. Histological type of focal cortical dysplasia is associated with the risk of postsurgical seizure in children and adolescents

Author

Zhaoyang Huang, Liankun Ren, Jia Chen, Yuping Wang, and Liping Li

Subjects
Pediatrics, medicine.medical_specialty, Chemical Health and Safety, business.industry, Histological type, Treatment options, General Medicine, 030204 cardiovascular system & hematology, Cortical dysplasia, medicine.disease, Incomplete Resection, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Medicine, Pharmacology (medical), Epilepsy surgery, 030212 general & internal medicine, General Pharmacology, Toxicology and Pharmaceutics, business, Safety Research, International league against epilepsy, Pathological
Abstract

Aim Focal cortical dysplasia (FCD) is a common cause of refractory epilepsy in children and adolescents. Epilepsy surgery is a treatment option for FCD. This study aimed to investigate the relationship between postsurgical outcomes and FCD types according to the International League Against Epilepsy (ILAE) classification and assess prognostic factors in pediatric and adolescent epilepsy surgery. Methods We retrospectively analyzed 92 children and adolescents with a proven pathological diagnosis of FCD who underwent resective surgery at our epilepsy center between August 2012 and September 2015. The patients were followed up for at least 1 year to evaluate the surgical outcomes, and a multivariable regression analysis was performed to identify risk factors of seizure relapse. Results After surgery, 53.3% of the patients were completely seizure-free during the entire follow-up period. The FCD types, incomplete resection of the epileptic cortex, and use of intracranial electrode were independent risk factors of seizure recurrence. The patients with FCD type II had relatively favorable surgical outcomes compared to the patients with FCD type I. The difference in the postoperative outcome between patients with FCD types III and I was not significant. Conclusion There is a significant association between FCD types and surgical outcomes in children and adolescents with epilepsy. These findings provide guidance for the optimization of surgical strategies.

Published
2019

32. Stereotactic-EEG Guided Radiofrequency Thermocoagulation Versus Anterior Temporal Lobectomy for Mesial Temporal Lobe Epilepsy with Hippocampal Sclerosis: Study protocol for a randomized controlled trial

Author

Yi-He Wang, Xiaotong Fan, Jialin Du, Liankun Ren, Si-Chang Chen, Kun Yang, Yongzhi Shan, Fei Meng, Guoguang Zhao, and Peng-Hu Wei

Subjects
medicine.medical_specialty, Medicine (General), medicine.medical_treatment, Medicine (miscellaneous), Electroencephalography, Stereotatic electroencephalograph (SEEG)-guided radiofrequency thermocoagulation (RF-TC), Hippocampus, Stereoelectroencephalography, law.invention, Temporal lobe, Study Protocol, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Radiofrequency thermocoagulation, Physical medicine and rehabilitation, R5-920, Randomized controlled trial, law, Electrocoagulation, medicine, Humans, Pharmacology (medical), 030212 general & internal medicine, Anterior temporal lobectomy, Randomized Controlled Trials as Topic, Randomised controlled trial, Hippocampal sclerosis, Sclerosis, medicine.diagnostic_test, business.industry, Mesial temporal lobe epilepsy, Anterior Temporal Lobectomy, medicine.disease, Treatment Outcome, Epilepsy, Temporal Lobe, Child, Preschool, Quality of Life, business, 030217 neurology & neurosurgery
Abstract

Introduction In this report, we aim to describe the design for the randomised controlled trial of Stereotactic electroencephalogram (EEG)-guided Radiofrequency Thermocoagulation versus Anterior Temporal Lobectomy for Mesial Temporal Lobe Epilepsy with Hippocampal Sclerosis (STARTS). Mesial temporal lobe epilepsy (mTLE) is a classical subtype of temporal lobe epilepsy that often requires surgical intervention. Although anterior temporal lobectomy (ATL) remains the most popular treatment for mTLE, accumulating evidence has indicated that ATL can cause tetartanopia and memory impairments. Stereotactic EEG (SEEG)-guided radiofrequency thermocoagulation (RF-TC) is a non-invasive alternative associated with lower seizure freedom but greater preservation of neurological function. In the present study, we aim to compare the safety and efficacy of SEEG-guided RF-TC and classical ATL in the treatment of mTLE. Methods and analysis STARTS is a single-centre, two-arm, randomised controlled, parallel-group clinical trial. The study includes patients with typical mTLE over the age of 14 who have drug-resistant seizures for at least 2 years and have been determined via detailed evaluation to be surgical candidates prior to randomisation. The primary outcome measure is the cognitive function at the 1-year follow-up after treatment. Seizure outcomes, visual field abnormalities after surgery, quality of life, ancillary outcomes, and adverse events will also be evaluated at 1-year follow-up as secondary outcomes. Discussion SEEG-guided RF-TC for mTLE remains a controversial seizure outcome but has the advantage for cognitive and visual field protection. This is the first RCT studying cognitive outcomes and treatment results between SEEG-guided RF-TC and standard ATL for mTLE with hippocampal sclerosis. This study may provide higher levels of clinical evidence for the treatment of mTLE. Trial registration ClinicalTrials.gov NCT03941613. Registered on May 8, 2019. The STARTS protocol has been registered on the US National Institutes of Health. The status of the STARTS was recruiting and the estimated study completion date was December 31, 2021.

Published
2021

34. Anterior thalamic stimulation improves working memory precision judgments

Author

Ruobing Liu, Xueyuan Wang, Yali Pan, Zheng Tan, Tao Yu, Liang Wang, Liankun Ren, Jinfeng Wu, and Jiali Liu

Subjects
Working memory precision, Deep Brain Stimulation, Thalamus, Biophysics, Hippocampus, Stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, Hippocampal formation, Anterior nucleus of thalamus, Judgment, Medicine, Humans, Ictal, Neural oscillations, Thalamic stimulator, Recall, Working memory, business.industry, General Neuroscience, fungi, food and beverages, Memory, Short-Term, Anterior Thalamic Nuclei, Electrical stimulation, Neurology (clinical), business, Neuroscience, RC321-571
Abstract

Background: The anterior nucleus of thalamus (ANT) has been suggested as an extended hippocampal system. The circuit of ANT and hippocampus has been widely demonstrated to be associated with memory function. Both lesions to each region and disrupting inter-regional information flow can induce working memory impairment. However, the role of this circuit in working memory precision remains unknown. Objective: To test the role of the hippocampal-anterior thalamic pathway in working memory precision, we delivered intracranially electrical stimulation to the ANT. We hypothesize that ANT stimulation can improve working memory precision. Methods: Presurgical epilepsy patients with depth electrodes in ANT and hippocampus were recruited to perform a color-recall working memory task. Participants were instructed to point out the color they were supposed to recall by clicking a point on the color wheel, while the intracranial EEG data were synchronously recorded. For randomly selected half trials, a bipolar electrical stimulation was delivered to the ANT electrodes. Results: We found that compared to non-stimulation trials, working memory precision judgements were significantly improved for stimulation trials. ANT electrical stimulation significantly increased spectral power of gamma (30-100 Hz) oscillations and decreased interictal epileptiform discharges (IED) in the hippocampus. Moreover, the increased gamma power during the pre-stimulus and retrieval period predicted the improvement of working memory precision judgements. Conclusion: ANT electrical stimulation can improve working memory precision judgements and modulate hippocampal gamma activity, providing direct evidence on the role of the human hippocampalanterior thalamic axis in working memory precision. (c) 2021 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Published
2021

35. Lateralizing the affected side of hippocampal sclerosis with quantitative high angular resolution diffusion scalars: a preliminary approach validated by diffusion spectrum imaging

Author

Yi-He Wang, Peng-Hu Wei, Liankun Ren, Chao Lu, Yongzhi Shan, Jie Lu, Xiaotong Fan, Guoguang Zhao, and Zhen-Ming Wang

Subjects
Diffusion Spectrum Imaging, Hippocampal sclerosis, business.industry, Fornix, Hippocampus, General Medicine, Grey matter, Entorhinal cortex, medicine.disease, Lateralization of brain function, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, medicine, Cingulum (brain), Original Article, business, Nuclear medicine, 030217 neurology & neurosurgery
Abstract

BACKGROUND: Conflicts in regarding the lateralization of the seizure onset for mesial temporal lobe epilepsy (MTLE) are frequently encountered during presurgical evaluation. As a more elaborate, quantified protocol, indices of diffusion spectrum imaging (DSI) might be sensitive to evaluate the seizure involvement. However, the accuracy was less revealed. Herein, we determined the lateralizing value of the DSI indices among MTLE patients. METHODS: Eleven MTLE patients were enrolled together with 11 matched health contrasts. All the participants underwent a DSI scan and with reconstruction of the diffusion scalar, including quantitative anisotropy (QA), isotropic (ISO), and track density imaging (TDI) values. Statistics of these indices were applied to identify the differences between the healthy and ipsilateral sides, and those between the patients and the controls, with special attention to areas of the crura of fornix (FORX), the parahippocampal radiation of the cingulum (PHCR), the hippocampus (HP), parahippocampus (PHC), amygdala (AM) and entorhinal cortex (EC). RESULTS: Regarding lateralization, TDI of the FORX and the PHCR reached an AUC value of 0.95 and 0.93, respectively (P

Published
2021

36. Glucose Metabolism Characteristics of Extra-Hypothalamic Cortex in Patients With Hypothalamic Hamartomas (HH) Undergoing Epilepsy Evaluation: A Retrospective Study of 16 Cases

Author

Peng-Hu Wei, Di Wang, Xiaotong Fan, Yongzhi Shan, Fei Meng, Yi-He Wang, Liankun Ren, Yan-Feng Yang, Guoguang Zhao, and Yang An

Subjects
0301 basic medicine, glucose metabolism, Hippocampal formation, lcsh:RC346-429, hypothalamic hamartomas, Lateralization of brain function, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Cortex (anatomy), medicine, Ictal, lcsh:Neurology. Diseases of the nervous system, Original Research, Temporal cortex, Neocortex, business.industry, extra-hypothalamic cortex, Anatomy, medicine.disease, PET, 030104 developmental biology, medicine.anatomical_structure, nervous system, Neurology, epilepsy, Neurology (clinical), business, 030217 neurology & neurosurgery, Neuroanatomy
Abstract

Purpose: There are few studies on the glucose metabolic characteristics of the extra-hypothalamic cortex in the hypothalamic hamartomas (HH). A comprehensive understanding of pathogenic progression of the disease is required from the perspective of cortical metabolism; therefore, we aimed to characterize metabolic characteristics of extra-hypothalamic in HH patients.Methods: We investigated the metabolic characteristics of 16 HH patients, all of whom underwent epilepsy evaluation at Xuan Wu Hospital between 2017 and 2019. The lateralization and cortical distribution pattern of hypometabolism was assessed and related to HH mass neuroanatomy on magnetic resonance imaging (MRI) as well as scalp-electroencephalogram (scalp-EEG) abnormalities. Furthermore, asymmetry measurements of region of interest (ROI) in the temporal cortex (hippocampal formation, amygdala, and lateral temporal neocortex) were quantitatively assessed based on the normalized average positron emission tomography (PET) voxel values. The surgery prognosis was assessed using the International League Against Epilepsy (ILAE) classification system.Results: The lateralization of hypometabolism in global visual ratings was consistent with the HH mass lateralization seen on MRI. Cortical hypometabolism showed three patterns depending whether the HH mass involved mammillary bodies, middle hypothalamus nucleus, or both. The three patterns were hypometabolism of the mesial temporal cortex with symptom of mesial temporal epilepsy (3/16, pattern I), lateral temporal, and extratemporal (frontal or parietal) cortex with symptom of neocortex temporal or frontal epilepsy (5/16, pattern II), and mesial and lateral temporal cortex and extratemporal (frontal or parietal) cortex with varied symptoms (8/16, pattern III), respectively. A significant difference in PET voxel values was found between bilateral hippocampal formation (P = 0.001) and lateral temporal neocortex in the third group (P = 0.005). We suggest that the hypometabolic characteristics of the extra-hypothalamic cortex in HH patients have three patterns. The final cortical hypometabolic pattern depends on the neuroanatomic location of the HH mass and was consistent with the main involved cortex of the interictal and ictal discharges. The third hypometabolic pattern with the most extensive cortical hypometabolism has a poorer prognosis.

Published
2021

37. Stable maintenance of multiple representational formats in human visual short-term memory

Author

Qinhao Yang, Liankun Ren, Di Wang, Nikolai Axmacher, Baoqing Lu, Rebekka Heinen, Duanyu Ni, Hui Zhang, Tao Yu, Gui Xue, and Jing Liu

Subjects
Adult, Male, Cognitive science, Epilepsy, Multidisciplinary, Computer science, Representation (systemics), Social Sciences, Electroencephalography, Hippocampus, Intracranial eeg, Intracranial Electroencephalography, Nontherapeutic Human Experimentation, Semantics, Memory, Short-Term, Encoding (memory), Visual Perception, Deep neural networks, Humans, Female, Neural Networks, Computer, Visual short-term memory, Levels-of-processing effect
Abstract

Visual short-term memory (VSTM) enables humans to form a stable and coherent representation of the external world. However, the nature and temporal dynamics of the neural representations in VSTM that support this stability are barely understood. Here we combined human intracranial electroencephalography (iEEG) recordings with analyses using deep neural networks and semantic models to probe the representational format and temporal dynamics of information in VSTM. We found clear evidence that VSTM maintenance occurred in two distinct representational formats which originated from different encoding periods. The first format derived from an early encoding period (250 to 770 ms) corresponded to higher-order visual representations. The second format originated from a late encoding period (1,000 to 1,980 ms) and contained abstract semantic representations. These representational formats were overall stable during maintenance, with no consistent transformation across time. Nevertheless, maintenance of both representational formats showed substantial arrhythmic fluctuations, i.e., waxing and waning in irregular intervals. The increases of the maintained representational formats were specific to the phases of hippocampal low-frequency activity. Our results demonstrate that human VSTM simultaneously maintains representations at different levels of processing, from higher-order visual information to abstract semantic representations, which are stably maintained via coupling to hippocampal low-frequency activity.

Published
2020

38. Stereo-crossed ablation guided by stereoelectroencephalography for epilepsy: comprehensive coagulations a network of multi-electrodes

Author

Peng-Hu Wei, Fei Meng, Yan-Feng Yang, Yongzhi Shan, Hua-Qiang Zhang, Si-Chang Chen, Yi-He Wang, Mu-Yang Li, Liankun Ren, Xiaotong Fan, Si-Qi Ou, Yang An, Chao Lu, and Guoguang Zhao

Subjects
medicine.medical_treatment, stereo-crossed, Stereoelectroencephalography, lcsh:RC346-429, 030218 nuclear medicine & medical imaging, stereoelectroencephalography, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Radiofrequency thermocoagulation, medicine, lcsh:Neurology. Diseases of the nervous system, Original Research, Pharmacology, Therapeutic Perspectives in Neurology, business.industry, radiofrequency thermocoagulation, Ablation, medicine.disease, Neurology, Electrode, epilepsy, Neurology (clinical), business, 030217 neurology & neurosurgery, Biomedical engineering
Abstract

Background: Introducing multiple different stereoelectroencephalography electrodes in a three-dimensional (3D) network to create a 3D-lesioning field or stereo-crossed radiofrequency thermocoagulation (scRF-TC) might create larger lesioning size; however, this has not been quantified to date. This study aimed to quantify the configurations essential for scRF-TC. Methods: By using polyacrylamide gel (PAG), we investigated the effect of electrode conformation (angled/parallel/multiple edges) and electrode distance of creating an electrode network. Volume, time, and temperature were analyzed quantitatively with magnetic resonance imaging, video analysis, and machine learning. A network of electrodes to the pathological left area 47 was created in a patient; the seizure outcome and coverage range were further observed. Results: After the compatibility test between the PAG and brain tissue, the sufficient distance of contacts (from different electrodes) for confluent lesioning was 7 mm with the PAG. Connection to the lesioning field could be achieved even with a different arrangement of electrodes. One contact could achieve at least six connections with different peripheral contacts. Coagulation with a network of electrodes can create more significant lesioning sizes, 1.81–2.12 times those of the classic approaches. The confluent lesioning field created by scRF-TC had a volume of 38.7 cm3; the low metabolic area was adequately covered. The representative patient was free of seizures throughout the 12-month follow up. Conclusion: Lesioning with electrodes in a network manner is practical for adequate 3D coverage. A secondary craniotomy could be potentially prevented by combining both monitoring and a large volume of lesions.

Published
2020

39. Subthalamic Nucleus Stimulation Modulates Motor Epileptic Activity in Humans

Author

Di Wang, Xueyuan Wang, Yuping Wang, Tao Yu, Duanyu Ni, Yongjie Li, Fabrice Bartolomei, Guojun Zhang, and Liankun Ren

Subjects
0301 basic medicine, Adult, Male, Drug Resistant Epilepsy, Deep brain stimulation, Adolescent, medicine.medical_treatment, Deep Brain Stimulation, Stimulation, Stereoelectroencephalography, Stereotaxic Techniques, 03 medical and health sciences, Epilepsy, Young Adult, 0302 clinical medicine, Subthalamic Nucleus, medicine, Humans, Ictal, Child, business.industry, Electroencephalography, Focal motor seizures, medicine.disease, nervous system diseases, Electrodes, Implanted, Subthalamic nucleus, surgical procedures, operative, 030104 developmental biology, medicine.anatomical_structure, nervous system, Neurology, Female, Neurology (clinical), business, therapeutics, Neuroscience, 030217 neurology & neurosurgery, Motor cortex
Abstract

Objective Pharmaco-refractory focal motor epileptic seizures pose a significant challenge. Deep brain stimulation (DBS) is a recently recognized therapeutic option for the treatment of refractory epilepsy. To identify the specific target for focal motor seizures, we evaluate the modulatory effects of the subthalamic nucleus (STN) stimulation because of the critical role of STN in cortico-subcortical motor processing. Methods Seven patients with epilepsy with refractory seizures who underwent chronic stereoelectroencephalography (SEEG) monitoring were studied in presurgical evaluation. Seizure onset zone was hypothesized to be partially involved in the motor areas in 6 patients. For each patient, one electrode was temporally implanted into the STN that was ipsilateral to the seizure onset zone. The cortical-subcortical seizure propagation was systemically evaluated. The simultaneously electrophysiological responses over distributed cortical areas to STN stimulation at varied frequencies were quantitatively assessed. Results We observed the consistent downstream propagation of seizures from the motor cortex toward the ipsilateral STN and remarkable cortical responses on motor cortex to single-pulse STN stimulation. Furthermore, we showed frequency-dependent upstream modulatory effect of STN stimulation on motor cortex specifically. In contrast to the enhanced effects of low frequency stimulation, high-frequency stimulation of the STN can significantly reduce interictal spikes, high-frequency oscillations over motor cortex disclosing effective connections to the STN. Interpretation This result showed that the STN is not only engaged in as a propagation network of focal motor seizures but STN stimulation can profoundly modulate the epileptic activity of motor cortex in humans, suggesting a mechanism-based alternative for patients suffering from refractory focal motor seizures. ANN NEUROL 2020;88:283-296.

Published
2020

40. Long-term outcome of unilateral deep brain stimulation of the subthalamic nucleus for a patient with drug-resistant focal myoclonic seizure

Author

Tao Yu, Di Wang, Yuping Wang, Xueyuan Wang, Jialin Du, Liankun Ren, Cuiping Xu, Yongjie Li, and Zhiwei Ren

Subjects
Deep brain stimulation, business.industry, medicine.medical_treatment, Case Report, General Medicine, Drug resistance, Lower risk, medicine.disease, 03 medical and health sciences, Epilepsy, Subthalamic nucleus, 0302 clinical medicine, medicine.anatomical_structure, Refractory, Anesthesia, medicine, 030212 general & internal medicine, business, Neurostimulation, 030217 neurology & neurosurgery, Motor cortex
Abstract

It remains an unsolved problem in the treatment of patients with refractory focal epilepsy originating from the motor cortex since resection surgery can result in significant morbidity. Neurostimulation has emerged as an effective method for treating patients who are not suitable for conventional surgical procedures due to its relative safety, reversibility, and lower risk of complications. The subthalamic nucleus (STN) has been shown to be a potential target for treating refractory motor seizures. Here, we report a favorable outcome of unilateral deep brain stimulation (DBS) of the STN for a patient with drug-resistant focal myoclonic seizures during a 5-year follow-up period.

Published
2020

41. Electrophysiological properties and seizure networks in hypothalamic hamartoma

Author

Chao Lu, Xiaotong Fan, Yongzhi Shan, Peng-Hu Wei, Yang An, Yi-He Wang, Si-Qi Ou, Fabrice Bartolomei, Yan-Feng Yang, Jialin Du, Guoguang Zhao, Hua-Qiang Zhang, Liankun Ren, Yuping Wang, Mu-Yang Li, Di Wang, Philippe Kahane, Otten, Lisa, Capital University of Medical Sciences [Beijing] (CUMS), Institut de Neurosciences des Systèmes (INS), Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut National de la Santé et de la Recherche Médicale (INSERM), Université Grenoble Alpes (UGA), and National Natural Science Foundation of China (Grant No. 81871009, 81801288, 81571271, 81771398), National Key R&D Program of China (Grant No. 2018YFC1314500, Grant No. 2016YFC0103909), the Key Project of Beijing Science and Technology Commission (Capital characteristics, Grant No. Z161100000516008) and Beijing Key Clinical Speciality Excellence Project

Subjects
0301 basic medicine, Adult, Male, Adolescent, Hamartoma, Neurosciences. Biological psychiatry. Neuropsychiatry, Epileptogenesis, Stereoelectroencephalography, Temporal lobe, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Gyrus, Seizures, Gelastic seizure, Cortex (anatomy), medicine, Humans, Ictal, Child, RC346-429, Research Articles, Retrospective Studies, Cerebral Cortex, business.industry, General Neuroscience, [SCCO.NEUR]Cognitive science/Neuroscience, [SCCO.NEUR] Cognitive science/Neuroscience, Spike-and-wave, Brain Waves, 030104 developmental biology, medicine.anatomical_structure, Female, Neurology (clinical), Electrocorticography, Neurology. Diseases of the nervous system, medicine.symptom, Nerve Net, business, Neuroscience, 030217 neurology & neurosurgery, Hypothalamic Diseases, Research Article, RC321-571
Abstract

International audience; ObjectiveLittle is known about the intrinsic electrophysiological properties of hypothalamic hamartoma (HH) in vivo and seizure network since only few cases using stereoelectroencephalography (SEEG) electrodes exploring both cortex and HH have been published. To elucidate these issues, we analyzed simultaneous SEEG recordings in HH and cortex systematically.MethodsWe retrospectively investigated data from 15 consecutive patients with SEEG electrodes into the HH for the treatment purpose of radiofrequency thermocoagulation treatment. Additional SEEG electrodes were placed into the cortex in 11 patients to assess extra-HH involvement. Interictal discharges within the HH and anatomo-electroclinical correlations during seizures of each patient were qualitatively and quantitatively analyzed.ResultsOverall, 77 electrodes with 719 contacts were implanted, and 33 spontaneous seizures were recorded during long-term SEEG monitoring. Interictally, distinct electrophysiological patterns, including isolated intermittent spikes/sharp waves, burst spike and wave trains, paroxysmal fast discharges, periodic discharges, and high-frequency oscillations, were identified within the HH. Notably, synchronized or independent interictal discharges in the cortex were observed. Regarding the ictal discharges, the electrical onset pattern within the HH always started with abrupt giant shifts superimposed on low-voltage fast activity across patients. The gelastic seizure network mainly involved the HH, orbitofrontal areas, and cingulate gyrus. Seizures with automatisms and impaired awareness primarily propagated to mesial temporal lobes. Moreover, independent ictal discharges arising from the mesial temporal lobe were detected in three out of nine patients.InterpretationThis study comprehensively reveals intrinsic electrophysiological patterns and epileptogenic networks in vivo, providing new insights into the mechanisms underlying cortical and subcortical epileptogenesis.

Published
2020

42. Dynamic Preictal Discharges in Patients With Mesial Temporal Lobe Epilepsy

Author

Qing Xue, Jia Chen, Yuping Wang, Liankun Ren, Liping Li, Jialin Du, Minjing Hu, Dongyan Wu, Liying Wang, Xiaoxuan Li, and Di Wang

Subjects
Adult, Male, 0301 basic medicine, Drug Resistant Epilepsy, medicine.medical_specialty, Adolescent, Physiology, Electroencephalography, Two stages, Young Adult, 03 medical and health sciences, Seizure onset, Epilepsy, 0302 clinical medicine, Physiology (medical), Internal medicine, Early prediction, medicine, Humans, Ictal, In patient, medicine.diagnostic_test, business.industry, Brain, medicine.disease, 030104 developmental biology, Epilepsy, Temporal Lobe, Neurology, Cardiology, Female, Neurology (clinical), business, 030217 neurology & neurosurgery, Mesial temporal lobe epilepsy
Abstract

Purpose It has been challenging to detect early changes preceding seizure onset in patients with epilepsy. This study investigated the preictal discharges (PIDs) by intracranial electroencephalogram of 11 seizures from 7 patients with mesial temporal lobe epilepsy. Methods The EEG segments consisting of 30 seconds before ictal onset and 5 seconds after ictal onset were selected for analysis. After PID detection, the amplitude and interval were measured. According to the timing of PID onset, the 30-second period preceding seizure onset was divided into two stages: before PID stage and PID stage. The autocorrelation coefficients during the two stages were calculated and compared. Results Preictal discharge amplitude progressively increased, while PID interval gradually decreased toward seizure onset. The autocorrelation coefficients of PID channels were significantly higher during PID stage than before PID stage. There was an overlap between channels with PIDs and seizure onset channels (80.77%). Conclusions Preictal discharges emerge prior to ictal event, with a dynamic change and a spatial correlation with seizure onset zone. These findings deepen our understanding of seizure generation and help early prediction and localization of seizure onset zone.

Published
2018

43. Stereoelectroencephalography-Guided Radiofrequency Thermocoagulation for Hypothalamic Hamartomas: Preliminary Evidence

Author

Xiaotong Fan, Yongzhi Shan, Liankun Ren, Guoguang Zhao, Yi-He Wang, Yan-Feng Yang, Yang An, and Peng-Hu Wei

Subjects
Adult, Male, medicine.medical_specialty, Adolescent, Hamartoma, medicine.medical_treatment, Stereoelectroencephalography, Stereotaxic Techniques, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Radiofrequency thermocoagulation, Hypothalamic hamartoma, Gelastic seizure, Electrocoagulation, medicine, Humans, 030212 general & internal medicine, Child, Retrospective Studies, medicine.diagnostic_test, Receiver operating characteristic, business.industry, Electroencephalography, Magnetic resonance imaging, Retrospective cohort study, Ablation, Electrodes, Implanted, Female, Surgery, Neurology (clinical), Radiology, medicine.symptom, business, Hypothalamic Diseases, 030217 neurology & neurosurgery, Follow-Up Studies
Abstract

Background The use of magnetic resonance imaging (MRI)-guided ablation methods, such as laser interstitial thermal therapy and MRI-guided radiofrequency thermocoagulation (RF-TC), poses a risk of mistreatment in patients with nonepileptic hypothalamic hamartoma (HH). Using stereoelectroencephalography (SEEG)-guided RF-TC could solve this problem; however, there are no reports on the efficacy of this technique. Thus, we examined the safety and efficacy of this method. Methods This retrospective study was conducted in 9 consecutive patients with HH treated between August 2015 and July 2017. All patients underwent a single round of SEEG-guided RF-TC treatment after comprehensive assessment. Outcomes were assessed using Engel's classification system. Spearman's correlation and receiver operating characteristic curves were analyzed to identify potential factors predictive of seizure outcome after an average follow-up duration of 18.78 months. Results A total of 20 SEEG electrodes were implanted in 9 patients with HH, and 73 lesions were created within the tumors. No obvious symptoms were observed during coagulation. Five patients (55.56%) achieved Engel's class I recovery, and the other 4 (44.44%) achieved Engel's class II recovery; weight gain was observed in 1 patient. Correlation analysis revealed a trend of better seizure outcomes for larger-sized tumors. Conclusions The SEEG signal can guide ablation of HH. SEEG-guided RF-TC is a safe procedure that shows promising efficacy. Special attention to the tumor attachment and multiple rounds of RF-TC might help improve seizure-free rates in the future.

Published
2018

44. Comparison between simultaneously acquired arterial spin labeling and 18F-FDG PET in mesial temporal lobe epilepsy assisted by a PET/MR system and SEEG

Author

Di Wang, Peng-Hu Wei, Chao Lu, Yi-He Wang, Liankun Ren, Guoguang Zhao, Bixiao Cui, Xiaotong Fan, Yongzhi Shan, Jialin Du, Jie Lu, Yang An, and Hua-Qiang Zhang

Subjects
Adult, Male, Adolescent, SEEG, Cognitive Neuroscience, Hippocampus, lcsh:Computer applications to medicine. Medical informatics, computer.software_genre, Multimodal Imaging, lcsh:RC346-429, Stereoelectroencephalography, Lateralization of brain function, 030218 nuclear medicine & medical imaging, Young Adult, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Fluorodeoxyglucose F18, Voxel, otorhinolaryngologic diseases, medicine, Humans, Radiology, Nuclear Medicine and imaging, lcsh:Neurology. Diseases of the nervous system, Retrospective Studies, medicine.diagnostic_test, business.industry, Regular Article, Magnetic resonance imaging, Gold standard (test), medicine.disease, Magnetic Resonance Imaging, Temporal Lobe, PET/MR, Epilepsy, Temporal Lobe, Neurology, Positron emission tomography, Positron-Emission Tomography, lcsh:R858-859.7, Female, Spin Labels, Neurology (clinical), Nuclear medicine, business, computer, Arterial spin labeling (ASL), 030217 neurology & neurosurgery, 18F-FDG PET
Abstract

Objective In the detection of seizure onset zones, arterial spin labeling (ASL) can overcome the limitations of positron emission tomography (PET) with 18F-fluorodeoxyglucose (18F-FDG), which is invasive, expensive, and radioactive. PET/magnetic resonance (MR) systems have been introduced that allow simultaneous performance of ASL and PET, but comparisons of these techniques with stereoelectroencephalography (SEEG) and comparisons among the treatment outcomes of these techniques are still lacking. Here, we investigate the effectiveness of ASL compared with that of SEEG and their outcomes in localizing mesial temporal lobe epilepsy (MTLE) and assess the correlation between simultaneously acquired PET and ASL. Methods Between October 2016 and August 2017, we retrospectively studied 12 patients diagnosed with pure unilateral MTLE. We extracted and quantitatively computed values for ASL and PET in the bilateral hippocampus. SEEG findings and outcome were considered the gold standard of lateralization. Finally, the bilateral asymmetry index (AI) was calculated to assess the correlation between PET and ASL. Results Our results showed that hypoperfusion in the hippocampus detected using ASL matched the SEEG-defined epileptogenic zone in this series of patients. The mean normalized voxel value of ASL in the contralateral hippocampus was 0.97 ± 0.19, while in the ipsilateral hippocampus, it was 0.84 ± 0.14. Meanwhile, significantly decreased perfusion and metabolism were observed in these patients (Wilcoxon, p, Highlights • ASL has been increasingly used in presurgical evaluations in epilepsy recent years. • Comparisons of ASL and PET with a PET/MR system using SEEG and treatment outcomes as gold-standard are still lacking. • Decreased perfusion consistent with hypometabolism and SEEG was observed with ASL. • ASL offers an effective non-invasive alternative to PET in evaluation of MTLE.

Published
2018

45. Automatic labeling of the fanning and curving shape of Meyer’s loop for epilepsy surgery: an atlas extracted from high-definition fiber tractography

Author

Peng-Hu Wei, Yongzhi Shan, Guoguang Zhao, Xiaotong Fan, Zhen-Ming Wang, Hua-Qiang Zhang, and Liankun Ren

Subjects
Adult, Male, Adolescent, medicine.medical_treatment, Vision Disorders, lcsh:RC346-429, Neurosurgical Procedures, 030218 nuclear medicine & medical imaging, Temporal lobe, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, Epilepsy surgery, lcsh:Neurology. Diseases of the nervous system, Anterior temporal lobectomy, Anterior temporal lobe resection, Hippocampal sclerosis, Human Connectome Project, Human connectome project, business.industry, General Medicine, Anatomy, Meyer’s loop, Diffusion spectrum imaging, Middle Aged, Anterior Temporal Lobectomy, medicine.disease, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Epilepsy, Temporal Lobe, Case-Control Studies, Connectome, Visual Field Tests, Medial temporal lobe epilepsy, Female, Neurology (clinical), Visual Fields, business, 030217 neurology & neurosurgery, Research Article, Diffusion MRI, Tractography
Abstract

Background Visual field defects caused by injury to Meyer’s loop (ML) are common in patients undergoing anterior temporal lobectomy during epilepsy surgery. Evaluation of the anatomical shapes of the curving, fanning and sharp angles of ML to guide surgeries is important but still challenging for diffusion tensor imaging. We present an advanced diffusion data-based ML atlas and labeling protocol to reproduce anatomical features in individuals within a short time. Methods Thirty Massachusetts General Hospital-Human Connectome Project (MGH-HCP) diffusion datasets (ultra-high magnetic gradient & 512 directions) were warped to standard space. The resulting fibers were projected together to create an atlas. The anatomical features and the tractography correspondence rates were evaluated in 30 MGH-HCP individuals and local diffusion spectrum imaging data (eight healthy subjects and six hippocampal sclerosis patients). Results In the atlas, features of curves, sharp angles and fanning shapes were adequately reproduced. The distances from the anterior tip of the temporal lobe to the anterior ridge of Meyer’s loop were 23.1 mm and 26.41 mm on the left and right sides, respectively. The upper and lower divisions of the ML were revealed to be twisting. Eighty-eight labeled sides were achieved, and the correspondence rates were 87.44% ± 6.92, 80.81 ± 10.62 and 72.83% ± 14.03% for MGH-HCP individuals, DSI-healthy individuals and DSI-patients, respectively. Conclusion Atlas-labeled ML is comparable to high angular resolution tractography in healthy or hippocampal sclerosis patients. Therefore, rapid identification of the ML location with a single modality of T1 is practical. This protocol would facilitate functional studies and visual field protection during neurosurgery.

Published
2019

46. Ictal swearing network confirmed by stereoencephalography: a case report

Author

Liankun Ren, Xiaotong Fan, Di Wang, Hua-Qiang Zhang, Guoguang Zhao, and Yongzhi Shan

Subjects
medicine.medical_specialty, Neurology, business.industry, Seizure onset zone, Audiology, medicine.disease, Stereoelectroencephalography, nervous system diseases, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, nervous system, Medicine, Surgery, Ictal, Orbitofrontal cortex, Neurology (clinical), Neurosurgery, business, 030217 neurology & neurosurgery, Neuroradiology
Abstract

Ictal swearing, characterized by episodic utterance of deistic, visceral and other taboo words and phrases, is a rare manifestation of epilepsy. Limited manifestation of that elucidate neural network about manifestation of. Here we report a 43-year-old right-handed man who has suffered from refractory epilepsy manifestation of ictal swearing. The stereoencephalography(SEEG) investigation located the seizure onset zone in left orbito-frontal cortex and the involvement of left orbito-frontal and right hippocampus in the propagation of epileptic activities. Surgical resection has made the patient seizure-free. The present case gives us better understanding of these ictal phenomena and helps to optimize the placement of SEEG electrodes in refractory epilepsy patient with ictal swearing.

Published
2019

47. Optimized SEEG-guided radiofrequency thermocoagulation for mesial temporal lobe epilepsy with hippocampal sclerosis

Author

Xiaotong Fan, Di Wang, Yi-He Wang, Yuping Wang, Peng-Hu Wei, Robert S. Fisher, Jialin Du, Yongzhi Shan, Guoguang Zhao, Liankun Ren, Chao Lu, and Yang An

Subjects
Adult, Male, medicine.medical_specialty, Drug Resistant Epilepsy, Adolescent, medicine.medical_treatment, Hippocampus, Stereoelectroencephalography, Stereotaxic Techniques, 03 medical and health sciences, Epilepsy, Young Adult, 0302 clinical medicine, Radiofrequency thermocoagulation, Robotic Surgical Procedures, medicine, Electrocoagulation, Humans, Child, Hippocampal sclerosis, Seizure frequency, Radiofrequency Ablation, Sclerosis, business.industry, Open surgery, Infant, General Medicine, Epileptogenic zone, medicine.disease, Outcome and Process Assessment, Health Care, Neurology, Epilepsy, Temporal Lobe, Child, Preschool, Female, Neurology (clinical), Radiology, Electrocorticography, business, 030217 neurology & neurosurgery, Mesial temporal lobe epilepsy, Follow-Up Studies
Abstract

Purpose Concerns about the impact of open surgery for drug-resistant mesial temporal lobe epilepsy with hippocampal sclerosis (MTLE-HS) have driven interest in minimally invasive techniques. Stereo-electro-encephalography guided radiofrequency thermocoagulation (SEEG guided RF-TC) offers an alternative choice but with currently limited efficacy. We developed a procedure for optimally extended thermocoagulative lesions and investigated the efficacy and safety for MTLE-HS in a preliminary observational study. Methods From June 2016 to August 2017, twenty-two patients were selected for the present study. They met the criteria of unilateral MTLE-HS after noninvasive evaluation and then underwent implantation of a combination of SEEG electrodes to form a high-density focal stereo-array, including one electrode along the long axis of amygdalohippocampal complex and three orthogonal electrodes to widely sample mesial temporal structures. A unilateral epileptogenic zone of mesial temporal structures was confirmed in these 21 patients. SEEG-guided bipolar coagulations were performed between two contiguous contacts of the same electrode, or between two adjacent contacts of different electrodes. Results Surgical procedures were well tolerated, with no related complications. At the follow-up of 12 months, 20 patients (95.2%) experienced a >90% decrease in seizure frequency and 16 patients (76.2%) were free of disabling seizures (Engel class I). Among them, eight (38.1%) were classified as Engel class Ia and the other eight (38.1%) as Engel class Ib. Four others (19%) had rare disabling seizures (Engel class II). Only one (4.8%) experienced an Engel class III outcome. Conclusion Optimized SEEG-guided RF-TC is a promising complementary option for the treatment of MTLE-HS.

Published
2019

48. Clinical application of intraoperative trial-free online-based language mapping for patients with refractory epilepsy

Author

Xiaoxia Zhou, Tianyi Zhou, Yongjie Li, Jianbin Wen, Xueyuan Wang, Tao Yu, Duanyu Ni, Liankun Ren, Liang Qiao, Guojun Zhang, Xiaohua Zhang, and Xiaoli Li

Subjects
Drug Resistant Epilepsy, medicine.medical_specialty, Language mapping, Intracranial Electroencephalography, 03 medical and health sciences, Behavioral Neuroscience, Epilepsy, 0302 clinical medicine, Eloquent cortex, Cortex (anatomy), medicine, Humans, Epilepsy surgery, 030212 general & internal medicine, Language, Cerebral Cortex, Brain Mapping, business.industry, medicine.disease, Magnetic Resonance Imaging, Electric Stimulation, Functional mapping, medicine.anatomical_structure, Neurology, Refractory epilepsy, Neurology (clinical), Radiology, business, 030217 neurology & neurosurgery
Abstract

Objective The objective of the study was to develop and clinically test a trial-free online-based language mapping method for localizing the eloquent cortex easily in epilepsy operation. Methods Nine patients with refractory epilepsy were included in this study according to the results of preoperative evaluation for their epileptogenic zones (EZs) located adjacent to the eloquent cortex. When patients were awakened up from general anesthesia during operation, the trial-free online-based language-mapping paradigm was performed. All positive points marked on the cortex in each test were labeled and superimposed together as the result of functional mapping for each patient. The eloquent cortex was mapped according to the results obtained both from the intraoperative trial-free task localization method and the traditional electrical cortical stimulation (ECS). Results All patients completed this paradigms twice within 10 min. Based on the results of mapping, the EZs were tried to fully resected on the premise of preserving the mapped eloquent cortex as much as possible. The postoperative follow-up showed the outcome of Engel I in six patients and Engel II in three patients, whereas only two patients had aphemia after surgery and recovered within one week and three months, respectively. Significance The intraoperative trial-free online-based language mapping method was primarily identified to be safe and effective. This novel method seems to be promising and worthy of improvement.

Published
2021

49. Neural processes of auditory perception in Heschl’s gyrus for upcoming acoustic stimuli in humans

Author

Minjing Hu, Catherine Liégeois-Chauvel, Yuping Wang, Guoguang Zhao, Di Wang, Jialin Du, Yongzhi Shan, Xiaotong Fan, Tao Yu, Xiaohua Zhang, Xuanxiu Ji, and Liankun Ren

Subjects
Adult, Male, 0301 basic medicine, Auditory perception, medicine.medical_specialty, Auditory Pathways, Time Factors, Adolescent, media_common.quotation_subject, Local field potential, Audiology, Auditory cortex, Stereoelectroencephalography, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Gyrus, Perception, medicine, Humans, Attention, media_common, Auditory Cortex, Neurons, Perspective (graphical), Neurophysiology, Sensory Systems, 030104 developmental biology, medicine.anatomical_structure, Acoustic Stimulation, Auditory Perception, Evoked Potentials, Auditory, Audiometry, Pure-Tone, Female, Psychology, 030217 neurology & neurosurgery
Abstract

In the natural environment, attended sounds tend to be perceived much better than unattended sounds. However, the physiological mechanism of how our neural systems direct the state of perceptual attention to prepare for the detection of upcoming acoustic stimuli before auditory stream segregation remains elusive. In this study, based on the direct intracerebral recordings from the auditory cortex in eight epileptic patients with refractory focal seizures, we investigated the neural processing of auditory attention by comparing the local field potentials before ‘attentional’ and ‘distracted’ conditions. Here we first showed a distinct build-up of slow, negative cortical potential in Heschl’s gyrus. The amplitude increased steadily, starting from 600 to 800 ms before presentation of the tone until the onset of the evoked component P/N 60–80 when the patients were in the attentional condition. Because of their specific topographical distribution and modality-specific properties, we named these ‘auditory preparatory potentials’, which are also associated with increased gamma oscillations (30–150 Hz) and desynchronized low frequency activity (below 30 Hz). Thus, our findings suggest that the auditory cortex is pre-activated to facilitate the perception of forthcoming sound events, and contribute to the understanding of the neurophysiological mechanisms of auditory perception from a new perspective.

Published
2020

50. Optimized stereoelectroencephalography-guided radiofrequency thermocoagulation in the treatment of patients with focal epilepsy

Author

Peng-Hu Wei, Yongzhi Shan, Guoguang Zhao, Yuping Wang, Liankun Ren, and Di Wang

Subjects
medicine.medical_specialty, Hippocampal sclerosis, High prevalence, business.industry, medicine.medical_treatment, Review Article, General Medicine, medicine.disease, Drug Resistant Epilepsy, Stereoelectroencephalography, law.invention, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Radiofrequency thermocoagulation, Randomized controlled trial, law, medicine, 030212 general & internal medicine, Radiology, business, Neurocognitive, 030217 neurology & neurosurgery
Abstract

Epilepsy is a severe health disorder affecting people of all ages with high prevalence worldwide. The introduction of new antiepileptic drugs has yielded notable effects in recent decades, yet there are still approximately 30% of patients with seizures refractory to medical therapy. Open surgical resection is widely accepted as a highly effective approach for the treatment of drug-resistant focal epilepsy if the epileptogenic zone can be precisely delineated. However, concerns about the impact of open surgery on brain function have driven considerable interest in less invasive techniques. Clinically, stereoelectroencephalography (SEEG) offers a unique means of exploring the pathophysiologic process and accurately mapping the epileptogenic network in presurgical evaluations for patients with epilepsy because of insufficient information from other noninvasive investigations. Moreover, SEEG-guided radiofrequency thermocoagulation (SEEG-guided RF- TC), which ablates lesions directly through the recording electrodes according to electroclinical evidence, has emerged as a promising, minimally invasive modality with notable preservation of neurocognitive functions. This critical review summarizes the technical details of the parameters and the selection of patients for SEEG-guided RF-TC based on the literature as well as our experiences. With respect to the parameters, the power and duration of RF-TC are discussed. In particular, an optimized SEEG-guided RF-TC modality that integrates more contacts from multiple different electrodes to create a confluent lesioning field is proposed for a more curative effect in comparison to the current protocol of palliative treatment in which RF-TC selectively disrupts critical hubs in the epileptic network through contiguous contacts within the range of a single electrode. Currently, SEEG-guided RF-TC is indicated for a variety of small, deeply seeded and well-demarcated epileptogenic foci, such as deep heterotopic nodules and hypothalamic hamartoma. The efficacy of treating patients with focal cortical dysplasias in the eloquent cortex and with mesial temporal lobe epilepsy associated with hippocampal sclerosis needs to be further determined. Given the small number of patients reported, randomized controlled trials are necessary to compare the efficacy of SEEG-guided RF- TC with conventional methods in the future.

Published
2020

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