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终纹床核的损伤会阻断由反复应激产生的听觉惊吓反射的敏化,但不会阻断恐惧增强惊吓反射。

Lesions of the bed nucleus of the stria terminalis block sensitization of the acoustic startle reflex produced by repeated stress, but not fear-potentiated startle.

作者信息

Gewirtz J C, McNish K A, Davis M

机构信息

Department of Psychology, Yale University School of Medicine, Abraham Ribicoff Research Facilities, Connecticut Mental Health Center, New Haven, USA.

出版信息

Prog Neuropsychopharmacol Biol Psychiatry. 1998 May;22(4):625-48. doi: 10.1016/s0278-5846(98)00028-1.

DOI:10.1016/s0278-5846(98)00028-1
PMID:9682277
Abstract
  1. The effects of lesions of the bed nucleus of the stria terminalis (BST) on the acquisition of conditioned fear were examined. In Experiment 1, BST lesions did not block acquisition of fear-potentiated startle to an explicit visual conditioned stimulus (CS) over 20 days of training. However, BST lesions blocked a gradual elevation in baseline startle also seen over the course of training. 2. The gradual increase in baseline startle was replicated in Experiment 2 without the presence of an explicit CS, using unoperated subjects. Experiment 2 showed that the elevation was due to repetitive exposure to shock, because unshocked control subjects did not show any elevation over sessions. 3. In Experiment 3, lesions of the BST did not disrupt rapid sensitization of the startle reflex by footshock, showing that different neural substrates underlie sensitization of startle by acute and chronic exposure to footshock. 4. These data indicate that the BST, despite its anatomical continuity with the amygdala, is not critically involved in the acquisition of conditioned fear to an explicit CS. Nevertheless, the BST is involved in mediating a stress-induced elevation in the startle reflex. This suggests that the BST and the CeA, which constitute part of the "extended amygdala" have complementary roles in responses to stress.
摘要
  1. 研究了终纹床核(BST)损伤对条件性恐惧习得的影响。在实验1中,在为期20天的训练过程中,BST损伤并未阻断对明确视觉条件刺激(CS)的恐惧增强惊吓反应的习得。然而,BST损伤也阻断了在训练过程中观察到的基线惊吓反应的逐渐升高。2. 在实验2中,使用未手术的受试者,在没有明确CS的情况下重复了基线惊吓反应的逐渐增加。实验2表明,这种升高是由于反复暴露于电击,因为未受电击的对照受试者在各实验阶段未表现出任何升高。3. 在实验3中,BST损伤并未破坏由足部电击引起的惊吓反射的快速敏感化,表明急性和慢性暴露于足部电击引起的惊吓反射敏感化的神经基础不同。4. 这些数据表明,BST尽管在解剖结构上与杏仁核连续,但在对明确CS的条件性恐惧习得中并非关键因素。然而,BST参与介导应激诱导的惊吓反射升高。这表明构成“扩展杏仁核”一部分的BST和中央杏仁核(CeA)在应激反应中具有互补作用。

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Lesions of the bed nucleus of the stria terminalis block sensitization of the acoustic startle reflex produced by repeated stress, but not fear-potentiated startle.终纹床核的损伤会阻断由反复应激产生的听觉惊吓反射的敏化,但不会阻断恐惧增强惊吓反射。
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Fear-potentiated startle using an auditory conditioned stimulus: effect of lesions of the amygdala.使用听觉条件刺激的恐惧增强惊吓反应:杏仁核损伤的影响
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Electrolytic post-training lesions of the bed nucleus of the stria terminalis block startle potentiation in a cued fear conditioning procedure.电解损毁终纹床核内侧部可阻断条件性恐惧反射中的惊跳增强反应。
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