Striatal Deep Brain Stimulation for Learning Enhancement

纹状体深部脑刺激促进学习

• 批准号: 8077978
• 负责人: Emad N Eskandar
• 金额: $ 37.69万
• 依托单位: MASSACHUSETTS GENERAL HOSPITAL
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-07-01 至 2013-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8077978
• 关键词: Acetylcysteine; Animals; Anterior; Area; Attitude; Autistic Disorder; Basal Ganglia; Behavior; Behavioral; Brain; Brain Diseases; Brain Injuries; Cell Nucleus; Complex; Computers; Corpus striatum structure; Coupled; Data; Deep Brain Stimulation; Devices; Disease; Dopamine; Dorsal; Drug Addiction; Electric Stimulation; Electrodes; Essential Tremor; Explosion; Generations; Goals; Human; Implant; Infarction; Lead; Learning; Learning Disorders; Major Depressive Disorder; Manuscripts; Mediating; Mental Depression; Modification; Motivation; Movement; Movement Disorders; Nucleus Accumbens; Parkinson Disease; Patients; Pattern; Performance; Physiological; Play; Primates; Process; Public Health; Recovery; Recovery of Function; Rehabilitation therapy; Role; Signal Transduction; Speed; Staging; Stream; Stroke; Structure; Testing; Time; Traumatic Brain Injury; Work; awake; caudate nucleus; classical conditioning; human subject; information processing; injured; motor learning; neurochemistry; new technology; pilot trial; processing speed; research study; visual motor

DESCRIPTION (provided by applicant): The nuclei comprising the anterior striatum play a critical role in learning and motivation. Derangements of these nuclei are implicated in a broad range of diseases including depression, drug addiction, and learning disorders. Our hypothesis is that there are two streams of information processing in the anterior striatum, dorsal and ventral, that perform complementary but different roles. Specifically, we hypothesize that the dorsal stream, which includes the caudate (Cd), is involved in the executive aspects of associative learning, whereas the ventral stream, which includes the nucleus accumbens (NAc), is involved in providing motivation for the performance of learned behaviors. Recent studies in our lab have demonstrated that intermittent electrical stimulation of the Cd, can significantly enhance the rate of visual-motor learning in primates. Our group is uniquely able to investigate these structures because we are able to perform physiological recordings and electrical stimulation in both primates and humans. This project will test the overarching hypothesis that is that deep brain stimulation of the Cd and NAc can be used to enhance learning in primates and humans. In the first stage of experiments, we will we use electrical stimulation to modulate the activity of the Cd and NAc during associative learning in primates, in order to optimize the parameters for learning enhancement. In the second stage, we will use the implanted DBS devices to assess the behavioral effects of stimulation on learning and motivation. We predict that stimulation in the NAC combined with stimulation in the Cd will lead to a dramatic increase in learning enhancement in both primates and subsequently in humans. Preliminary data is very promising suggesting that the Cd and NAc play distinct roles consistent with our proposed hypothesis. Elucidating the role of these nuclei in learning and motivation will significantly advance our understanding of the brain; and is vitally important to treating disorders that have an extremely large impact on public health.

描述（由申请人提供）：组成前纹状体的核团在学习和动机中起关键作用。这些核团的紊乱与广泛的疾病有关，包括抑郁症、药物成瘾和学习障碍。我们的假设是，有两个流的信息处理在前纹状体，背侧和腹侧，执行互补的，但不同的角色。具体而言，我们假设背侧流，其中包括尾状核（Cd），参与了执行方面的联想学习，而腹侧流，其中包括核腹侧（NAc），参与提供动机的学习行为的表现。我们实验室最近的研究表明，间歇性电刺激的镉，可以显着提高灵长类动物的视觉运动学习的速度。我们的团队能够研究这些结构，因为我们能够在灵长类动物和人类中进行生理记录和电刺激。该项目将测试总体假设，即脑深部刺激的镉和NAc可用于增强灵长类动物和人类的学习。在实验的第一阶段，我们将使用电刺激来调节灵长类动物在联想学习过程中Cd和NAc的活性，以优化学习增强的参数。在第二阶段，我们将使用植入的DBS设备来评估刺激对学习和动机的行为影响。我们预测，在NAC的刺激与刺激相结合的镉将导致在灵长类动物和随后在人类的学习增强的显着增加。初步数据是非常有希望的，这表明镉和NAC发挥不同的作用与我们提出的假设一致。阐明这些核在学习和动机中的作用将大大促进我们对大脑的理解;并且对于治疗对公共健康有极大影响的疾病至关重要。

项目成果

Encoding of both positive and negative reward prediction errors by neurons of the primate lateral prefrontal cortex and caudate nucleus.

• DOI: 10.1523/jneurosci.3793-11.2011
• 发表时间: 2011-12-07
• 期刊: The Journal of neuroscience : the official journal of the Society for Neuroscience
• 作者: Asaad WF;Eskandar EN
• 通讯作者: Eskandar EN

Coalescence and fragmentation of cortical networks during focal seizures.

• DOI: 10.1523/jneurosci.6309-09.2010
• 发表时间: 2010-07-28
• 期刊: The Journal of neuroscience : the official journal of the Society for Neuroscience
• 作者: Kramer MA;Eden UT;Kolaczyk ED;Zepeda R;Eskandar EN;Cash SS
• 通讯作者: Cash SS