前额叶皮质损伤患者的情绪异常

人类前额叶皮质与情绪之间有着密切的关系,文章在相关的临床和神经成像研究结果基础上,分析了前额叶皮质损伤对情绪行为造成的影响,分别概述了精神分裂症、重性抑郁和焦虑患者的情绪变化、前额叶切除对情绪的影响以及左右前额叶皮质与情绪的关系,重点阐述了前额叶功能异常的神经生理学特点,认为情绪的改变会随着前额叶皮质不同部位的结构缺损或功能变化而有所不同,此有利于对前额叶皮质损伤患者情绪异常的评价与防治。     

额叶皮层内知觉干扰与工作记忆干扰引起的抑制

抑制（inhibition）是指大脑在信息加工时,压抑或制止与当前的任务不符的干扰性的信息输入、反应输出或者内部加工的认知过程,它是额叶的最基本的功能之一,也是人类高级智能活动的最基本的认知成分之一。新近的认知神经科学的研究表明：对于不同种类的干扰信息,参与抑制过程的额叶功能区域可能并不相同。但是,对于由不同的干扰源所引起的抑制过程在额叶内的功能组织方式目前尚不清楚。本研究采用fMRI 技术以及事件相关 (event-related) 的分析方法,研究了因知觉干扰所引起的抑制过程与因工作记忆干扰所引起的抑制过程在额叶内的层级化功能组织方式。结果表明：后部的前额叶参与由知觉干扰所引起的抑制过程,而前部的前额叶则参与由工作记忆干扰所引起的抑制过程     

情绪大脑机制研究的进展

文章综述情绪大脑机制研究的最新进展。情绪的脑机制——大脑回路,包括前额皮层、杏仁核、海马、前部扣带回、腹侧纹状体等。前额皮层中的不对称性与趋近和退缩系统有关,左前额皮层与趋近系统和积极感情有关,右前额皮层与消极感情和退缩有关。杏仁核易被消极的感情刺激所激活,尤其是恐惧。海马在情绪的背景调节中起着重要作用。前额皮层和杏仁核激活不对称性的个体差异是情绪个体差异的生理基础。情绪的中枢回路有可塑性。     

慢性应激对大鼠空间学习记忆及海马和前脑皮层突触体膜流动性的影响

慢性应激对学习记忆功能的影响是神经科学的热点问题, 在脑内, 海马和前额叶是与学习记忆功能密切相关的重要脑区, 也是应激易累及损伤的主要靶区。膜流动性的改变在神经细胞功能活动中起重要作用。为探讨慢性应激对大鼠空间学习记忆功能的影响及前脑皮层和海马突触体膜流动性的作用。采用多因素慢性应激动物模型, 通过开场试验和Morris水迷宫测试大鼠行为及空间学习记忆能力; 并且测定大鼠前脑皮层和海马突触体膜流动性和突触体内游离Ca2+浓度的变化。研究结果显示, 与对照组相比, 应激组大鼠在应激后即刻, 在新异环境中的自发活动和探究行为显著降低(p<0.05, p<0.01), 空间学习记忆能力明显下降(p<0.05, p <0.01); 并且应激组大鼠前脑皮层和海马突触体膜流动性显著降低(p <0.05, p <0.01); 而突触体内游离Ca2+浓度的显著增加 (p <0.05, p <0.01)。停止应激后一周, 应激大鼠的各项指标有所恢复, 但仍未达到正常水平。研究结果提示, 慢性应激引起大鼠明显的开场行为改变和空间学习记忆功能障碍, 这些变化可能与突触体膜流动性和突触体内游离Ca2+浓度的变化密切相关。     

Speech-associated gestures, Broca’s area, and the human mirror system

Speech-associated gestures are hand and arm movements that not only convey semantic information to listeners but are themselves actions. Broca’s area has been assumed to play an important role both in semantic retrieval or selection (as part of a language comprehension system) and in action recognition (as part of a “mirror” or “observation–execution matching” system). We asked whether the role that Broca’s area plays in processing speech-associated gestures is consistent with the semantic retrieval/selection account (predicting relatively weak interactions between Broca’s area and other cortical areas because the meaningful information that speech-associated gestures convey reduces semantic ambiguity and thus reduces the need for semantic retrieval/selection) or the action recognition account (predicting strong interactions between Broca’s area and other cortical areas because speech-associated gestures are goal-direct actions that are “mirrored”). We compared the functional connectivity of Broca’s area with other cortical areas when participants listened to stories while watching meaningful speech-associated gestures, speech-irrelevant self-grooming hand movements, or no hand movements. A network analysis of neuroimaging data showed that interactions involving Broca’s area and other cortical areas were weakest when spoken language was accompanied by meaningful speech-associated gestures, and strongest when spoken language was accompanied by self-grooming hand movements or by no hand movements at all. Results are discussed with respect to the role that the human mirror system plays in processing speech-associated movements.     

Neural Bases of Human Working Memory

Working memory is the memory system that allows us to briefly keep information active, often so we can operate on it. Studies with rhesus monkeys first established that this system is partly mediated by neural mechanisms in the prefrontal cortex. Recently, there has been a substantial effort to study the neural bases of working memory in humans, using neuroimaging techniques such as positron emission tomography and functional magnetic resonance imaging. Some of the initial neuroimaging studies with humans focused on the neural mechanisms that mediate our ability to keep spatial information active. These results indicated that human spatial working memory is partly mediated by regions in parietal and prefrontal cortex. Subsequent research has shown that a different neural system is involved when people store object (rather than spatial) information, a difference similar to that found in monkeys.     

Individual differences in motor development during early childhood: An MEG study

In a previous study, we reported the first measurements of pre‐movement and sensorimotor cortex activity in preschool age children (ages 3–5 years) using a customized pediatric magnetoencephalographic system. Movement‐related activity in the sensorimotor cortex differed from that typically observed in adults, suggesting that maturation of cortical motor networks was still incomplete by late preschool age. Here we compare these earlier results to a group of school age children (ages 6–8 years) including seven children from the original study measured again two years later, and a group of adults (mean age 31.1 years) performing the same task. Differences in movement‐related brain activity were observed both longitudinally within children in which repeated measurements were made, and cross‐sectionally between preschool age children, school age children, and adults. Movement‐related mu (8–12 Hz) and beta (15–30 Hz) oscillations demonstrated linear increases in amplitude and mean frequency with age. In contrast, movement‐evoked gamma synchronization demonstrated a step‐like transition from low (30–50 Hz) to high (70–90 Hz) narrow‐band oscillations, and this occurred at different ages in different children. Notably, pre‐movement activity (‘readiness fields’) observed in adults was absent in even the oldest children. These are the first direct observations of brain activity accompanying motor responses throughout early childhood, confirming that maturation of this activity is still incomplete by mid‐childhood. In addition, individual children demonstrated markedly different developmental trajectories in movement‐related brain activity, suggesting that individual differences need to be taken into account when studying motor development across age groups.     

新生儿语音感知的神经基础:元分析

语言习得能力是人类在进化中获得的重要能力之一。语言认知的核心功能是语音加工, 因此, 语音加工的脑机制是认知心理学研究的重要课题。我们采用元分析方法, 对使用近红外技术考察新生儿语音感知的结构检测、偏差检测和母语感知的研究进行系统的定量分析, 探究新生儿的典型语音感知脑机制以及这三类语音加工相关脑区的异同。结果显示, 左侧额下回是新生儿检测语音结构的关键脑区; 双侧颞叶在新生儿语音偏差刺激检测中发挥关键作用; 新生儿的母语语音加工存在左侧化优势。     

前额叶神经振荡活动反映了稳固的刺激冲突和反应冲突

为考察典型Flanker任务中练习对刺激冲突和反应冲突的影响,本研究采用练习范式记录被试完成2:1字母Flanker任务时的行为和脑电数据。行为结果发现,练习对这两类冲突无显著影响。神经震荡能量结果发现,前额叶theta能量随练习而显著减弱,这暗示刺激-反应之间的联结因练习而提升;前额叶alpha能量差异不随练习而变化,这可能反映了Flanker任务中稳定的刺激冲突和反应冲突加工机制。因此,本研究揭示了典型Flanker任务中刺激冲突和反应冲突的稳定特征。     

抑郁倾向对合作的影响：双人同步近红外脑成像研究

抑郁人群不但表现出注意、记忆等个体认知层面的负性偏向, 还伴随有明显的社会认知障碍。已有研究在抑郁对社会认知的影响方面还考察得不多。本研究采用囚徒困境范式考察抑郁倾向对社会合作的影响。结果显示, 高抑郁倾向组比低抑郁倾向组的合作率更低, 双侧背外侧前额叶的激活更弱, 抑郁对右侧背外侧前额叶及眶额叶的脑间同步性有调节作用; 低抑郁被试与低抑郁被试配对时右侧颞顶联合区脑间同步性强于高抑郁被试与高抑郁被试配对, 或者高抑郁被试与低抑郁被试配对时的右侧颞顶联合区脑间同步性, 该效应当且仅当双方的选择相同时显著。结果表明, 抑郁群体在社会奖赏加工、冲突控制及心理理论脑区均存在功能性缺陷, 这些结果为理解抑郁人群合作意愿下降提供了脑成像证据。