Dissociation Between the Effects of Damage to Perirhinal Cortex and Area TE

Buffalo, Elizabeth A.; Ramus, Seth J.; Clark, Robert E.; Teng, Edmond; Squire, Larry R.; Zola, Stuart M.

doi:10.1101/lm.6.6.572

Cited by 230 publications

(251 citation statements)

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“…Recently, Pascalis and Bachevalier (1999) showed that adult monkeys with neonatal hippocampal lesions showed preference for novelty at short delays of 10 s, but not at longer delays of 30 s to 24 h, whereas normal monkeys showed novelty preference at all delays. Consistent with this study, other studies of monkeys with selective lesions within the medial temporal lobe, have shown that novelty preference depends on the integrity of the hippocampal formation (Zola et al, 2000) as well as the perirhinal cortex (Buffalo et al, 1999). In humans, McKee and Squire (1993), using the VPC task, have shown that amnesic patients with relatively selective hippocampal damage also show abnormal novelty preference.…”

Section: Introductionsupporting

confidence: 89%

“…In monkeys, a deficit has been observed after a 10 s delay following a specific lesion of the hippocampus (Zola et al, 2000), or after a lesion of the perirhinal cortex (Buffalo et al, 1999), or after a lesion of the hippocampal formation (Pascalis & Bachevalier, 1999). A lesion of the area TE led to a deficit without delay (Buffalo et al, 1999).…”

Section: Discussionmentioning

confidence: 99%

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Visual paired comparison performance is impaired in a patient with selective hippocampal lesions and relatively intact item recognition

et al. 2004

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In this study, we have examined visual recognition memory in a patient, YR, with discrete hippocampal damage who has shown normal or nearly normal item recognition over a large number of tests. We directly compared her performance as measured using a visual paired comparison task (VPC) with her performance on delayed matching to sample (DMS) tasks. We also investigated the effect of retention interval between familiarisation and test. YR shows good visual recognition with the DMS task up to 10 s after the familiarisation period, but only shows recognition with the VPC task for the shortest retention interval (0 s). Our results are consistent with the view that hippocampal damage disrupts recollection and recall, but not item familiarity memory.

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Section: Introductionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Visual paired comparison performance is impaired in a patient with selective hippocampal lesions and relatively intact item recognition

et al. 2004

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“…This is because these cortices would not be available to support a context representation and the hippocampal formation would be deprived of the information it needs to make its contribution to contextual fear. The literature supports this analysis (Corodimas and LeDoux 1995;Buffalo et al 1999;Bucci et al 2000Bucci et al , 2002. Note this pattern of results, damage to these regions both before and after training impairs contextual fear conditioning differs from that associated with damage to the hippocampal formation because contextual fear conditioning is spared if the hippocampal formation is damaged before conditioning.…”

Section: Defining the Neocortical Systemsupporting

confidence: 57%

Context representations, context functions, and the parahippocampal–hippocampal system

Rudy¹

2009

Learn. Mem.

266

301

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Psychologists and neurobiologists have a long-standing interest in understanding how the context surrounding the events of our lives is represented and how it influences our behavior. The hippocampal formation emerged very early as a major contributor to how context is represented and functions. There is a large literature examining its contribution that on the surface reveals an array of conflicting outcomes and controversy. This review reveals that these conflicts can be resolved by building Nadel and Willner's dual-process theory of context representations. Two general conclusions emerge: (1) There are two neural systems that can support context representations and functions-a neocortical system composed primarily of perirhinal and postrhinal cortices and a hippocampal system that includes perirhinal, postrhinal, entorhinal cortices, and the hippocampal formation. (2) These two systems are not equivalent-some context representations and functions are uniquely supported by the hippocampal system. These conclusions are discussed in the context of canonical ideas about the special properties of the hippocampal system that enable it to make unique contributions to memory.Everything we experience happens somewhere. The term ''context'' is often used to denote this ''somewhere.'' In the analysis of learning and memory, the context is like the setting for a stage play (Medin and Reynolds 1985). It provides the background for the real action in the drama-the main events. More importantly, as a consequence of learning and memory processes, the context often helps to select appropriate behaviors and determine the explicit and implicit content of our thoughts. Thus, it is not surprising that psychologists have a long-standing empirical and theoretical interest in understanding just what makes up a representation of context and how context representations interact with the main events of our lives to influence our behavior (see Balsam and Tomie 1985).More recently, neurobiologists have increased their interest in the problem of linking context representations and functions to brain systems. The hippocampal formation emerged quite early as a major focal point among many researchers. As a result, there is a substantial literature linking the hippocampal formation and context. However, on the surface, this research yields a dismaying set of conflicting results, with many findings that the hippocampal formation plays a critical role in supporting the influence of context on memory and behavior and many other findings that it does not.The goal of this article is to bring some clarity and order to this state of affairs. I start by providing a working definition of ''context'' that implicitly underpins its experimental analysis. I then describe several different functions of context that have been studied in the laboratory and are assumed to be theoretically important. I then introduce and build on a dual-process theory of context representations that was put forth several years ago by Lynn Nadel, Jeffrey Willner, and colleague...

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“…In rats there is a deficit in processing positive priming for features of visual objects (a component of perceptual memory system), but the rats performed well in positive priming for spatial location (Kesner, unpublished observations). In monkeys deficits for visual objects and in a working memory task and visual paired comparison task were observed following TE2 deficits suggesting that TE2 cortex may play an important role in visual perceptual processing (Buffalo et al, 1999). It can also be shown that lesions of the inferotemporal cortex in monkeys and humans and temporal cortex (TE2) in rats result in visual object discrimination problems (Dean, 1990;Fuster,1995;Gross, 1973;McCarthy & Warrington, 1990;Weiskrantz & Saunders, 1984), suggesting that the inferotemporal or TE2 may play an important role in mediating long-term representations of visual object information.…”

Section: Sensory-perceptual Attributementioning

confidence: 99%

Neurobiological foundations of an attribute model of memory

Kesner¹

2013

CCBR

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Memory is a complex phenomenon due to a large number of potential interactions that are associated with the organization of memory at the psychological and neural system level. In this review article a tripartite, multiple attribute, multiple process memory model with different forms of memory and its neurobiological underpinnings is represented in terms of the nature, structure or content of information representation as a set of different attributes including language, time, place, response, reward value (affect) and visual object as an example of sensory-perception. For each attribute, information is processed in the event-based, knowledge-based, and rule-based memory systems through multiple operations that involve multiple neural underpinnings. Of the many processes associated with the event-based memory system, the emphasis will be placed on short-term or working memory and pattern separation. Of the many processes associated with the knowledgebased memory system, the emphasis will be placed on perceptual processes. Of the many processes associated with the rule-based memory system the emphasis will be on short-term or working memory and paired associate learning. For all three systems data will be presented to demonstrate differential neuroanatomical mediation and where available parallel results will be presented in rodents, monkeys and humans.

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Dissociation Between the Effects of Damage to Perirhinal Cortex and Area TE

Cited by 230 publications

References 50 publications

Visual paired comparison performance is impaired in a patient with selective hippocampal lesions and relatively intact item recognition

Visual paired comparison performance is impaired in a patient with selective hippocampal lesions and relatively intact item recognition

Context representations, context functions, and the parahippocampal–hippocampal system

Neurobiological foundations of an attribute model of memory

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