Thalamic stimulation to prevent impaired consciousness in epilepsy

丘脑刺激可预防癫痫意识障碍

基本信息

批准号：
10477293
负责人：
HAL BLUMENFELD
金额：
$ 180.19万
依托单位：
YALE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-09-15 至 2024-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10477293
关键词：
Adverse effects Algorithms Anterior Nuclear Group Area Arousal Awareness Behavioral Bilateral Brain region Breathing Caring Central Lateral Nucleus Chronic Disease Clinical Trials Communication Conscious Consciousness Disorders Custom Data Data Storage and Retrieval Databases Deep Brain Stimulation Depressed mood Detection Devices Drowning Electroencephalography Electrophysiology (science)Enrollment Epilepsy Feasibility Studies Functional disorder Goals Hand Hippocampus (Brain)Impairment Implant Inpatients Institutional Review Boards Investigation Monitor National Institute of Neurological Disorders and Stroke Operative Surgical Procedures Outpatients Patients Performance Persons Pharmaceutical Preparations Phase Physiological Polysomnography Preclinical Testing Quality of life Randomized Refractory Research Risk Running Schools Seizures Sensitivity and Specificity Site Stigmatization Stimulus Temporal Lobe Temporal Lobe Epilepsy Testing Thalamic structure Therapeutic Work behavior test cloud based conventional therapy data streams detector diaries improved improved outcome innovation neuroimaging open label pilot test pre-clinical prevent primary outcome safety and feasibility safety testing secondary outcome social sudden unexpected death in epilepsy translational study vehicular accident

项目摘要

PROJECT SUMMARY / ABSTRACT Impaired consciousness during seizures has a major negative impact on quality of life for people with epilepsy. Consequences include risk of motor vehicle accidents, drowning, poor work and school performance, and social stigmatization. Impaired ictal/postictal arousal may also compromise breathing leading to sudden unexpected death in epilepsy. Although the primary goal of epilepsy care is to stop seizures, restoring conscious awareness in patients whose seizures cannot be stopped (by medications, surgery or deep brain stimulation) could significantly improve outcome. Disorders of consciousness other than epilepsy have long been known to arise from dysfunction of subcortical-cortical arousal circuits. Deep brain stimulation (DBS) of the thalamic intralaminar central lateral nuclei (CL) is a promising approach to restore conscious arousal currently being trialed for chronic disorders of consciousness (N. Schiff, NINDS UH3 NS095554). Recent neuroimaging and EEG studies have shown that transient impaired consciousness in temporal lobe epilepsy (TLE) seizures also depends on subcortical-cortical arousal including thalamic CL. Translational studies from our research group further demonstrate depressed CL function in limbic seizures, and most importantly that thalamic CL stimulation has the potential to restore physiological and behavioral arousal in the ictal and postictal periods. DBS treatment of epilepsy has advanced rapidly with FDA approval of responsive neurostimulation (RNS, NeuroPace) and thalamic anterior nucleus stimulation (Medtronic). Investigational devices such as the RC+S (Medtronic) provide a unique opportunity for responsive stimulation of up to 4 separate brain regions, enabling conventional sites such as hippocampus (HC) to be combined with innovative targets such as thalamic CL. Meanwhile, Dr. Worrell’s group at Mayo has developed the Epilepsy Personal Assistant Device (EPAD), a custom application running on a hand-held device with bi-directional communication with the RC+S. The EPAD will enable cloud-based data storage, seizure diaries, and automatic behavioral tests similar to those we have validated previously. Therefore, our goal is to develop and pilot test the feasibility and safety of bilateral thalamic CL stimulation using RC+S to restore conscious arousal in TLE seizures which are not stopped by conventional responsive neurostimulation, offering hope to greatly improve quality of life in these patients. Our aims are to first conduct final benchtop preclinical verification of RC+S and EPAD algorithms for CL stimulation leading to FDA IDE approval. Second, we will initiate a small clinical trial implanting RC+S in patients with refractory TLE and beginning with open-label HC stimulation and baseline EPAD behavioral testing. Third, we will adjust responsive thalamic CL stimulation parameters for arousal. Finally, we will test safety and initial feasibility of responsive CL stimulation to restore arousal during seizures.

项目概要/摘要癫痫发作期间意识受损对癫痫患者的生活质量产生重大负面影响。后果包括机动车事故、溺水、工作和学习表现不佳的风险，以及社会耻辱感受损的发作/发作后唤醒也可能导致呼吸困难。尽管癫痫治疗的首要目标是阻止癫痫发作、恢复癫痫发作。无法停止癫痫发作（通过药物、手术或深部脑部治疗）的患者的意识意识刺激）可以显着改善癫痫以外的意识障碍的结果。已知是由皮层下-皮层唤醒回路（DBS）的功能障碍引起的。丘脑板内中央外侧核（CL）是恢复意识唤醒的一种有前途的方法目前正在针对慢性意识障碍进行试验（N. Schiff，NINDS UH3 NS095554）。神经影像学和脑电图研究表明，颞叶癫痫患者存在短暂性意识障碍 (TLE) 癫痫发作还取决于皮质下-皮质唤醒，包括丘脑 CL 的转化研究。我们的研究小组进一步证明了边缘叶癫痫发作时 CL 功能下降，最重要的是丘脑 CL 刺激有可能恢复发作期和发作期的生理和行为唤醒癫痫发作后的 DBS 治疗取得了迅速进展，FDA 批准了其反应性药物。神经刺激（RNS、NeuroPace）和丘脑前核刺激（Medtronic）。 RC+S（美敦力）等设备提供了独特的机会，可进行最多 4 次的响应刺激分离的大脑区域，使海马体 (HC) 等传统部位能够与创新部位相结合与此同时，Mayo 的 Worrell 博士团队开发了癫痫个人治疗仪。助理设备 (EPAD)，一种在手持设备上运行的自定义应用程序，具有双向功能与 RC+S 的通信将实现基于云的数据存储、癫痫日记和自动记录。行为测试与我们之前验证的类似，因此，我们的目标是开发和试点测试。使用 RC+S 双侧丘脑 CL 刺激恢复 TLE 意识觉醒的可行性和安全性常规反应性神经刺激无法阻止的癫痫发作，有望大大改善我们的目标是首先对 RC+S 进行最终的临床前验证。用于 CL 刺激的 EPAD 算法获得 FDA IDE 批准其次，我们将启动一项小型临床试验。在难治性 TLE 患者中植入 RC+S，并从开放标签 HC 刺激和基线开始第三，我们将调整丘脑 CL 刺激参数以进行唤醒。最后，我们将测试反应性 CL 刺激在癫痫发作期间恢复觉醒的安全性和初步可行性。