Interruption of the connections of the mammillary bodies protects against generalized pentylenetetrazol seizures in guinea pigs

Ma, Mingxing; Ja, Ferrendelli

doi:10.1523/jneurosci.07-03-00662.1987

Cited by 94 publications

(25 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Experiments supporting the hypothesis of AN mediation of convulsive activity include selective uptake of radioactively labeled glucose by AN during a threshold seizure state, as well as site-specific sensitivity to a variety of agents known to block PTZ seizure expression (12,13). Additional confirmation of the role of the AN in the expression of these seizures came from lesioning of afferent tracts synapsing on AN, and the raising of seizure threshold by localized high-frequency electrical stimulation (14,15). Such evidence has led to pilot clinical trials of AN stimulation for refractory seizures, and recently a National Institutes of Health (NIH)-sponsored clinical trial (RO1NS39344-01).…”

mentioning

confidence: 99%

“…Previously we established that the thalamic anterior nuclear complex (AN), a thalamic element of the limbic system, is an important gating center for the propagation of pentylenetetrazol (PTZ) seizure activity (11)(12)(13)(14)(15). Experiments supporting the hypothesis of AN mediation of convulsive activity include selective uptake of radioactively labeled glucose by AN during a threshold seizure state, as well as site-specific sensitivity to a variety of agents known to block PTZ seizure expression (12,13).…”

mentioning

confidence: 99%

See 1 more Smart Citation

Anterior Thalamic Mediation of Experimental Seizures: Selective EEG Spectral Coherence

Mirski

Tsai

Rossell³

et al. 2003

Epilepsia

View full text Add to dashboard Cite

Summary:Purpose: Physiological evidence has shown that the anterior thalamus (AN) and its associated efferents/ afferents constitute an important propagation pathway for pentylenetetrazol (PTZ)-mediated generalized seizures in rodents. Previous work demonstrated metabolic, physical, chemical, and electrical stimulation data supporting a role for AN in the expression of PTZ seizures. We now extend these observations through examination of neuroelectric signal indicators during seizure epochs. We show that the EEG recorded from AN is highly coherent with surface cortical (CTX) EEG during the immediate preconvulsant period and during the ictal stateough.Methods: Awake rats were continuously infused with PTZ until clonic seizures were recorded by using both subcortical AN, posterior thalamus (PT), or hippocampal (HPC) bipolar electrodes and cortical EEG. Through the signal-analysis techniques of ordinary and partial coherence, it was possible to focus selectively on signal correlations between AN and CTX (AN/CTX) by removing the effects of unaffiliated regions such as PT and HPC.Results: Coherence of PT/CTX was observed to be modest, and partial coherence of PT/CTX with the effects of AN/CTX removed did not improve the signal coherence of PT/CTX (PT/ CTX-AN). In contrast, AN/CTX coherence was observed to be high, with undiminished correlation when PT/CTX influence was removed (AN/CTX-PT). The most robust band of AN/ CTX coherence was centered around the spike-wave clonic frequency of 1-3 Hz. Partial multiple coherence-analysis techniques were used to remove the possible signal contributions from hippocampus in addition to PT. The AN/CTX coherence remained fully preserved in the low-frequency bands.Conclusions: These data provide electrophysiologic evidence supporting the special role of the anterior thalamus in the propagation of seizure activity between subcortex and cortex. Key Words: Anterior thalamus-EEG-Coherence-Seizure-Pentylenetetrazol.The precise neuronal pathways underlying the propagation and generalization of epileptic seizure activity remain largely unknown (1-6). Numerous studies have been performed to analyze the electrophysiology of focal cortical and hippocampal epileptic foci, and the local spread of these electrical paroxysms (7-10). Identification of specific cortical-subcortical pathways mediating seizure propagation between deep and surface neuronal elements has yet remained elusive, despite studies supporting the contribution of deep brain regions in clinical and EEG seizure expression (1-6). Mapping such connectivity would greatly improve our understanding of seizure mechanisms on a systems level, and offer potential sites for target-specific therapy, such as deep brain stimulation.Previously we established that the thalamic anterior nuclear complex (AN), a thalamic element of the limbic system, is an important gating center for the propagation of pentylenetetrazol (PTZ) seizure activity (11-15). Experiments supporting the hypothesis of AN mediation of convulsive activity include selective up...

show abstract

mentioning

confidence: 99%

mentioning

confidence: 99%

Anterior Thalamic Mediation of Experimental Seizures: Selective EEG Spectral Coherence

Mirski

Tsai

Rossell³

et al. 2003

Epilepsia

View full text Add to dashboard Cite

show abstract

“…Это привело к дальнейшему повышению ин-тереса исследователей к данной анатомической об-ласти [9]. В 1987 г. M. Mirski и J. Ferrendelli [10] опублико-вали результаты экспериментальной работы, указы-вающие на антиэпилептогенное действие электро-литического разрушения различных структур круга Пейпеца, включая форникс, мамиллоталамический тракт и мамиллярные ножки, на судорожные при-ступы у морских свинок, вызванные введением пен-тилентетразола. Локальные микроинъекции в пе-редние таламические ядра аналога γ-амино масляной кислоты мусцимола или γ-винил-γ-аминомасляной кислоты (необратимого ингибитора трансаминазы γ-аминомасляной кислоты) в исследованиях также приводили к значительному повышению резистент-ности к пентилентетразол-индуцированным судо-рогам [11,12].…”

Section: Discussionunclassified

Bilateral radiofrequency anterior thalamotomy in intractable epilepsy patients

Ситников¹,

Grigoryan²,

Mishnyakova³

2016

Vopr. neirokhir.

View full text Add to dashboard Cite

Двусторонняя радиочастотная передняя таламотомия у пациентов с фармакорезистентной эпилепсией К.м.н. а.р. СИтНИКоВ, д.м.н., проф. Ю.а. ГрИГорЯН, к.м.н. л.п. МИшНЯКоВа ФГау «лечебно-реабилитационный центр» Минздрава россии, Москва, россия Актуальность. Выявление важной роли передних таламических ядер anterior Thalamic nuclei (aTn) в генерализации судо-рог привело к повышению интереса к хирургическим вмешательствам в этой области у пациентов с фармакорезистентной эпилепсией. Моделирование на животных показало высокую эффективность деструкций aTn в предупреждении развития и снижении частоты приступов. однако двусторонняя радиочастотная деструкция aTn у человека до сих пор не была описанa. Цель исследования -выполнить и оценить результаты двусторонней радиочастотной передней таламотомии у пациентов с фармакорезистентной эпилепсией. Материал и методы. Нами впервые была выполнена двусторонняя стереотаксическая радиочастотная термокоагуляция aTn 13 пациентам, длительно страдавшим фармакорезистентной эпилепсией. перед операцией определяли длительность заболевания, возраст начала приступов, локализацию источников патологической активности, тип приступов и морфоло-гические повреждения, а также оценивали проводимую фармакотерапию. Все вмешательства были осуществлены под местной анестезией и сопровождались интраоперационной микроэлектродной регистрацией нейрональной активности и записью электроэнцефалограммы (ЭЭГ). Результаты. оперированы 7 мужчин и 6 женщин в возрасте от 22 до 48 лет. у всех пациентов эпилептогенные очаги лока-лизовались в лобных и/или височных долях мозга. Мрт выявила эпилептогенные структурные аномалии у 3 пациентов. послеоперационных осложнений не было. при дальнейшем обследовании 5 пациентов отметили отсутствие приступов, у 6 -снижение частоты приступов составило более 70%, у 1 -50% и у 1 пациента не последовало ответа на проведенное вмешательство. Достигнутый эффект выражался не только в снижении частоты и тяжести приступов, но и в уменьшении доз принимаемых противосудорожных препаратов. ЭЭГ также подтвердила значительное улучшение у подавляющего большинства пациентов. Заключение. Наш опыт показывает, что двусторонняя радиочастотная передняя таламотомия является безопасным и эффективным методом контроля судорожных приступов у человека. Дальнейшие исследования позволят уточнить крите-рии отбора пациентов для хирургического лечения на основании клинических и ЭЭГ-данных. Background. Identification of the crucial role of the anterior thalamic nuclei (aTn) in the generalization of seizures led to increased interest in surgical interventions in this particular area in intractable epilepsy patients. Simulation of aTn destruction in animals demonstrated its high efficacy for both preventing the seizure development and reducing the seizure rate. however, bilateral radiofrequency destruction of the anterior thalamic nuclei in humans has not yet bee described. Objective. The study objective was to perform bilateral radiofrequency anterior thalamotomy in intractable epilepsy patients and to evaluate its results. ...

show abstract

“…Studies by Hamani et al, have tested the efficacy of ATN-DBS in a pilocarpine induced epilepsy model and found that bilateral ATN stimulation prolonged latencies for pilocarpine-induced seizures and status epilepticus 24 . Furthermore, high frequency stimulation of the ATN was found to reduce seizure frequency in a pentylenetetrazol (PTZ) model of epilepsy 25,[27][28][29] . Lee et al, have reported a mean reduction in seizure frequency by about 75% upon chronic deep brain stimulation of the ATN in treating refractory partial epilepsy 30 .…”

Section: Introductionmentioning

confidence: 99%

Analysis of Gene Expression Changes in the Rat Hippocampus After Deep Brain Stimulation of the Anterior Thalamic Nucleus

Selvakumar

Alavian

Tierney

2015

JoVE

View full text Add to dashboard Cite

Deep brain stimulation (DBS) surgery, targeting various regions of the brain such as the basal ganglia, thalamus, and subthalamic regions, is an effective treatment for several movement disorders that have failed to respond to medication. Recent progress in the field of DBS surgery has begun to extend the application of this surgical technique to other conditions as diverse as morbid obesity, depression and obsessive compulsive disorder. Despite these expanding indications, little is known about the underlying physiological mechanisms that facilitate the beneficial effects of DBS surgery. One approach to this question is to perform gene expression analysis in neurons that receive the electrical stimulation. Previous studies have shown that neurogenesis in the rat dentate gyrus is elicited in DBS targeting of the anterior nucleus of the thalamus 1 . DBS surgery targeting the ATN is used widely for treatment refractory epilepsy. It is thus of much interest for us to explore the transcriptional changes induced by electrically stimulating the ATN. In this manuscript, we describe our methodologies for stereotactically-guided DBS surgery targeting the ATN in adult male Wistar rats. We also discuss the subsequent steps for tissue dissection, RNA isolation, cDNA preparation and quantitative RT-PCR for measuring gene expression changes. This method could be applied and modified for stimulating the basal ganglia and other regions of the brain commonly clinically targeted. The gene expression study described here assumes a candidate target gene approach for discovering molecular players that could be directing the mechanism for DBS. Video LinkThe video component of this article can be found at

show abstract

Interruption of the connections of the mammillary bodies protects against generalized pentylenetetrazol seizures in guinea pigs

Cited by 94 publications

References 37 publications

Anterior Thalamic Mediation of Experimental Seizures: Selective EEG Spectral Coherence

Anterior Thalamic Mediation of Experimental Seizures: Selective EEG Spectral Coherence

Bilateral radiofrequency anterior thalamotomy in intractable epilepsy patients

Analysis of Gene Expression Changes in the Rat Hippocampus After Deep Brain Stimulation of the Anterior Thalamic Nucleus

Contact Info

Product

Resources

About