从情境性恐惧到记忆系统的动态观。
From contextual fear to a dynamic view of memory systems.
机构信息
Department of Psychology, 405 Hilgard Avenue, University of California, Los Angeles, Los Angeles, CA 90095-1563, USA.
出版信息
Trends Cogn Sci. 2010 Jan;14(1):7-15. doi: 10.1016/j.tics.2009.10.008. Epub 2009 Nov 24.
Abstract
The brain does not learn and remember in a unitary fashion. Rather, different circuits specialize in certain classes of problems and encode different types of information. Damage to one of these systems typically results in amnesia only for the form of memory that is the specialty of the affected region. However, the question of how the brain allocates a specific category of memory to a particular circuit has received little attention. The currently dominant view (multiple memory systems theory) assumes that such abilities are hard wired. Using fear conditioning as a paradigmatic case, I propose an alternative model in which mnemonic processing is allocated to specific circuits through a dynamic process. Potential circuits compete to form memories, with the most efficient circuits emerging as winners. However, alternate circuits compensate when these 'primary' circuits are compromised.
摘要
大脑并非以单一的方式学习和记忆。相反,不同的回路专门处理某些类别的问题,并对不同类型的信息进行编码。这些系统中的一个受到损伤通常只会导致特定形式的记忆丧失,而这种记忆是受影响区域的专业记忆。然而,大脑如何将特定类别的记忆分配给特定的回路这个问题很少受到关注。目前占主导地位的观点(多重记忆系统理论)假设这种能力是硬连线的。我以恐惧条件反射为例,提出了一个替代模型,其中记忆处理通过一个动态过程分配给特定的回路。潜在的回路相互竞争以形成记忆,最有效的回路成为优胜者。然而,当这些“主要”回路受到损害时,备用回路会进行补偿。
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