杏仁核和梭状回在面部识别过程中的双向交流。
Bidirectional communication between amygdala and fusiform gyrus during facial recognition.
机构信息
Children's Hospital of Philadelphia, Philadelphia, PA 19104, USA.
出版信息
Neuroimage. 2011 Jun 15;56(4):2348-55. doi: 10.1016/j.neuroimage.2011.03.072. Epub 2011 Apr 8.
Abstract
Decades of research have documented the specialization of fusiform gyrus (FG) for facial information processes. Recent theories indicate that FG activity is shaped by input from amygdala, but effective connectivity from amygdala to FG remains undocumented. In this fMRI study, 39 participants completed a face recognition task. 11 participants underwent the same experiment approximately four months later. Robust face-selective activation of FG, amygdala, and lateral occipital cortex were observed. Dynamic causal modeling and Bayesian Model Selection (BMS) were used to test the intrinsic connections between these structures, and their modulation by face perception. BMS results strongly favored a dynamic causal model with bidirectional, face-modulated amygdala-FG connections. However, the right hemisphere connections diminished at time 2, with the face modulation parameter no longer surviving Bonferroni correction. These findings suggest that amygdala strongly influences FG function during face perception, and that this influence is shaped by experience and stimulus salience.
摘要
几十年来的研究已经证明梭状回(FG)专门用于面部信息处理。最近的理论表明,FG 的活动是由杏仁核的输入塑造的,但杏仁核到 FG 的有效连接尚未记录在案。在这项 fMRI 研究中,39 名参与者完成了一项面孔识别任务。11 名参与者大约四个月后进行了相同的实验。观察到 FG、杏仁核和外侧枕叶皮层的强大的面孔选择性激活。使用动态因果建模和贝叶斯模型选择(BMS)来测试这些结构之间的内在连接,以及它们对面孔感知的调制。BMS 结果强烈支持具有双向、面孔调制的杏仁核-FG 连接的动态因果模型。然而,在第二次测试中,右侧半球的连接减弱,面孔调制参数不再通过 Bonferroni 校正。这些发现表明,杏仁核在面孔感知过程中强烈影响 FG 的功能,并且这种影响是由经验和刺激显著性塑造的。
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