Presently,we develop a simplified corticothalamic(SCT)model and propose a single-pulse alternately resetting stimulation(SARS)with sequentially applying anodic(A,“+”)or cathodic(C,“−”)phase pulses to the thalamic ...Presently,we develop a simplified corticothalamic(SCT)model and propose a single-pulse alternately resetting stimulation(SARS)with sequentially applying anodic(A,“+”)or cathodic(C,“−”)phase pulses to the thalamic reticular(RE)nuclei,thalamus-cortex(TC)relay nuclei,and cortical excitatory(EX)neurons,respectively.Abatement effects of ACC-SARS of RE,TC,and EX for the 2 Hz-4 Hz spike and wave discharges(SWD)of absence seizures are then concerned.The m∶n on-off ACC-SARS protocol is shown to effectively reduce the SWD with the least current consumption.In particular,when its frequency is out of the 2 Hz-4 Hz SWD dominant rhythm,the desired seizure abatements can be obtained,which can be further improved by our proposed directional steering(DS)stimulation.The dynamical explanations for the SARS induced seizure abatements are lastly given by calculating the averaged mean firing rate(AMFR)of neurons and triggering averaged mean firing rates(TAMFRs)of 2 Hz-4 Hz SWD.展开更多
In this paper,a reduced globus pallidus internal(GPI)-corticothalamic(GCT)model is developed,and a tri-phase delay stimulation(TPDS)with sequentially applying three pulses on the GPI representing the inputs from the s...In this paper,a reduced globus pallidus internal(GPI)-corticothalamic(GCT)model is developed,and a tri-phase delay stimulation(TPDS)with sequentially applying three pulses on the GPI representing the inputs from the striatal D_(1)neurons,subthalamic nucleus(STN),and globus pallidus external(GPE),respectively,is proposed.The GPI is evidenced to control absence seizures characterized by 2 Hz–4 Hz spike and wave discharge(SWD).Hence,based on the basal ganglia-thalamocortical(BGCT)model,we firstly explore the triple effects of D_(1)-GPI,GPE-GPI,and STN-GPI pathways on seizure patterns.Then,using the GCT model,we apply the TPDS on the GPI to potentially investigate the alternative and improved approach if these pathways to the GPI are blocked.The results show that the striatum D_(1),GPE,and STN can indeed jointly and significantly affect seizure patterns.In particular,the TPDS can effectively reproduce the seizure pattern if the D_(1)-GPI,GPE-GPI,and STN-GPI pathways are cut off.In addition,the seizure abatement can be obtained by well tuning the TPDS stimulation parameters.This implies that the TPDS can play the surrogate role similar to the modulation of basal ganglia,which hopefully can be helpful for the development of the brain-computer interface in the clinical application of epilepsy.展开更多
Background In the new International League Against Epilepsy(ILAE)classification of seizure types,generalized seizures such as absence seizures(ASs)may originate from a focal point and rapidly spread to the bilaterally...Background In the new International League Against Epilepsy(ILAE)classification of seizure types,generalized seizures such as absence seizures(ASs)may originate from a focal point and rapidly spread to the bilaterally distributed brain network.Increasing evidence from animal and clinical studies has indicated that focal changes may occur prior to ASs;however,the relationship of ASs with epileptogenic lesions remains unclear.Methods We retrospectively collected and analyzed the clinical,imaging,and electrophysiological data of 16 patients who had ASs and structural lesions with seizure-free outcomes after lesion resection.Results In semiology analysis,nine patients displayed focal onset;only two patients showed simple ASs,and seizure types other than ASs were observed in the remaining patients.On ictal electroencephalography(EEG),four patients showed bilateral synchronous symmetric 3 Hz generalized spike-wave discharges(GSWDs),and the remaining patients showed bilateral 1.5–2.5 Hz GSWDs.Moreover,most patients(13/16,81.3%)exhibited focal features in addition to ASs,while interictal EEG was the same in 12 patients.Furthermore,on stereoelectroencephalogram(SEEG),2/5 patients showed focal discharges before bilateral burst GSWDs.Additionally,all patients had structural lesions on imaging.In four typical AS patients,the lesions were located in deep brain regions.Notably,in 9 patients(9/16,56%),the lesions were located in the posterior cortex.All patients underwent lesion resection and had seizure-free outcomes during follow-up,and intelligence quotient(IQ)also improved by 10.71±3.90 one year after surgery.Conclusions Patients with lesion-related epilepsy may present with ASs that have a focal onset and are associated with good surgical outcomes.展开更多
基金Project supported by the National Natural Science Foundation of China(Nos.11702018,11932003,and 11672074)。
文摘Presently,we develop a simplified corticothalamic(SCT)model and propose a single-pulse alternately resetting stimulation(SARS)with sequentially applying anodic(A,“+”)or cathodic(C,“−”)phase pulses to the thalamic reticular(RE)nuclei,thalamus-cortex(TC)relay nuclei,and cortical excitatory(EX)neurons,respectively.Abatement effects of ACC-SARS of RE,TC,and EX for the 2 Hz-4 Hz spike and wave discharges(SWD)of absence seizures are then concerned.The m∶n on-off ACC-SARS protocol is shown to effectively reduce the SWD with the least current consumption.In particular,when its frequency is out of the 2 Hz-4 Hz SWD dominant rhythm,the desired seizure abatements can be obtained,which can be further improved by our proposed directional steering(DS)stimulation.The dynamical explanations for the SARS induced seizure abatements are lastly given by calculating the averaged mean firing rate(AMFR)of neurons and triggering averaged mean firing rates(TAMFRs)of 2 Hz-4 Hz SWD.
基金supported by the National Natural Science Foundation of China(Nos.11932003,12072021,and 11672074)。
文摘In this paper,a reduced globus pallidus internal(GPI)-corticothalamic(GCT)model is developed,and a tri-phase delay stimulation(TPDS)with sequentially applying three pulses on the GPI representing the inputs from the striatal D_(1)neurons,subthalamic nucleus(STN),and globus pallidus external(GPE),respectively,is proposed.The GPI is evidenced to control absence seizures characterized by 2 Hz–4 Hz spike and wave discharge(SWD).Hence,based on the basal ganglia-thalamocortical(BGCT)model,we firstly explore the triple effects of D_(1)-GPI,GPE-GPI,and STN-GPI pathways on seizure patterns.Then,using the GCT model,we apply the TPDS on the GPI to potentially investigate the alternative and improved approach if these pathways to the GPI are blocked.The results show that the striatum D_(1),GPE,and STN can indeed jointly and significantly affect seizure patterns.In particular,the TPDS can effectively reproduce the seizure pattern if the D_(1)-GPI,GPE-GPI,and STN-GPI pathways are cut off.In addition,the seizure abatement can be obtained by well tuning the TPDS stimulation parameters.This implies that the TPDS can play the surrogate role similar to the modulation of basal ganglia,which hopefully can be helpful for the development of the brain-computer interface in the clinical application of epilepsy.
基金The National Natural Science Foundation of China supported this work(82171448,82201613).
文摘Background In the new International League Against Epilepsy(ILAE)classification of seizure types,generalized seizures such as absence seizures(ASs)may originate from a focal point and rapidly spread to the bilaterally distributed brain network.Increasing evidence from animal and clinical studies has indicated that focal changes may occur prior to ASs;however,the relationship of ASs with epileptogenic lesions remains unclear.Methods We retrospectively collected and analyzed the clinical,imaging,and electrophysiological data of 16 patients who had ASs and structural lesions with seizure-free outcomes after lesion resection.Results In semiology analysis,nine patients displayed focal onset;only two patients showed simple ASs,and seizure types other than ASs were observed in the remaining patients.On ictal electroencephalography(EEG),four patients showed bilateral synchronous symmetric 3 Hz generalized spike-wave discharges(GSWDs),and the remaining patients showed bilateral 1.5–2.5 Hz GSWDs.Moreover,most patients(13/16,81.3%)exhibited focal features in addition to ASs,while interictal EEG was the same in 12 patients.Furthermore,on stereoelectroencephalogram(SEEG),2/5 patients showed focal discharges before bilateral burst GSWDs.Additionally,all patients had structural lesions on imaging.In four typical AS patients,the lesions were located in deep brain regions.Notably,in 9 patients(9/16,56%),the lesions were located in the posterior cortex.All patients underwent lesion resection and had seizure-free outcomes during follow-up,and intelligence quotient(IQ)also improved by 10.71±3.90 one year after surgery.Conclusions Patients with lesion-related epilepsy may present with ASs that have a focal onset and are associated with good surgical outcomes.