Amygdaloid lesions and behavioral inhibition in the rat.

Pellegrino, Louis

doi:10.1037/h0025807

Cited by 135 publications

(67 citation statements)

References 49 publications

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“…Corticomedial amygdala lesioned animals do change their behaviour after the defeat but less strongly than the control animals. This observation is consistent with the partial deficits in taste aversion observed after amygdala lesions in other conditioning experiments [1,8,18,19].…”

Section: Discussionsupporting

confidence: 91%

“…For example, the effects of amygdala manipulations in avoidance situations have been interpreted in terms of reduced fear or reduced emotionality [26,28]. Also the term response suppression or performance deficit is used [5,19]. Again others [18] explain their results in taste aversion experiments in terms of a reduced capacity of amygdala lesioned animals to identify the significance or meaning of stimuli.…”

Section: Discussionmentioning

confidence: 99%

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The corticomedial amygdala and learning in an agonistic situation in the rat

Bolhuis

FitzGerald

Dijk

et al. 1984

Physiology & Behavior

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. KOOLHAAS. The corticomedial amygdala and learning in an agonistic situation in the rat. PHYSIOL BEHAV 32(4)575-579, 1984.--Social agonistic behaviour of intact male rats is strongly reduced by the experience of defeat by a dominant male conspecific. Small electrolytic lesions in the corticomedial amygdala strongly affected this behavioural change due to defeat. No effects of the lesions were observed before and during the defeat. Some learning is still possible in corticomedial amygdala lesioned animals. A comparison of the effects of lesions made before the defeat with lesions made after the defeat revealed that the lesions primarily produce a retention deficit in social learning.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

The corticomedial amygdala and learning in an agonistic situation in the rat

Bolhuis

FitzGerald

Dijk

et al. 1984

Physiology & Behavior

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“…The symptoms of ON lesions appear to be fairly specific to taste stimuli per se (Kiefer et al,Note 2), and natrorectic adjustments to sodium depletion seem to be relatively unaffected (Wirsig & Orill, in press;Wolf et al, 1970). On the other hand, as pointed out by Nachman and Ashe, amygdaloid lesions result in a wide variety of learning deficiencies (e.g., McGowan, Hankins, & Garcia, 1972;Pellegrino, 1968) and clear disruptions of behavioral sodium homeostasis are observed (Nachman & Ashe, 1974).…”

Section: Gustatory Thalamus and Amygdalamentioning

confidence: 99%

The gustatory neocortex of the rat

1982

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Research findings related to the functional significance of the gustatory neocortical system of the rat are reviewed and interpreted. Studies of gustatory neocortex (GN) involvement in taste-related cognitive processes are emphasized after briefly reviewing GN anatomy and physiology. Evidence is presented supporting the conclusion that the GN contributes relatively little to fundamental taste reactivity, but is deeply involved in cognitive (learning and memorial) taste processes; that is, "reactive salience" to taste stimuli is preserved following GN ablation, while "associative salience" is markedly degraded. Apparent functional similarities between GN and other sensory neocortical areas are emphasized throughout the paper, and a hierarchical view of gustatory system functioning is addressed.Patton began his 1950 review of the chemical senses by pointing out that taste and smell essentially had been neglected relative to the other sensory systems. As a partial explanation for this neglect, he men-

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“…Amygdaloid ablation does not interfere with rather complex tasks so long as the correct response is cued by an external environmental stimulus. For example, the acquisition of a go/no-go discrimination cued by a light and the reversal of this discrimination were not disrupted in lesioned rats (Pellegrino, 1968). On the other hand, for those tasks whose performance depends on internally formed cues for the correct response, a lesion deficit is observed.…”

mentioning

confidence: 88%

“…On the other hand, for those tasks whose performance depends on internally formed cues for the correct response, a lesion deficit is observed. For example, Pellegrino (1968) ported that lesions of the basolateral region of the nucleus impaired performance on a timing task relative to performance by a control group of rats (seealso Pubols, 1966). Likewise, Schartzbaum and Poulos (1965) reported that amygdalectomized monkeys did worse on a discrimination reversal task than did the control animals.…”

Section: David T Goomas Bayloruniversity Medical Center Dallas Texasmentioning

confidence: 99%

Single-alternation pattern running in amygdalectomized rats

Goomas

1982

Psychobiology

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Amygdalectomized and nonlesioned rats were administered alternated reinforced and nonreinforced trials in an alleyway. Animals with amygdala lesions showed slower response speeds during earlier stages of training. As training continued, reinforced-trial speed, characteristically faster than nonreinforced-trial speed in normal animals, was delayed in the lesioned animals. Once the lesioned animals exhibited pattern running, there were no differences between them and the nonlesioned group. These results were discussed in terms of Richardson's (1973) theory. 368The most common example of pattern running is the faster reinforced-trial than nonreinforced-trial speed that ultimately occurs when reinforced and nonreinforced trials are alternated (Bloom & Capaldi, 1961;Capaldi, 1967). Here, single-alternation patterning occurs because "a characteristic cue is produced by reinforcement (SR), as is by nonreinforcement (SN), and under a single-alternation schedule, SR always occurs on nonreinforced trials and so is the S-cue, while SN always occurs on reinforced trials and so is the S+ cue" (Capaldi, 1979, p, 64). According to this analysis, pattern running may be described as discriminative running based on internal memory cues provided by a nonrandom schedule of reinforcement.According to Richardson (1973), the normal function of the amygdala is to incorporate and integrate internally produced representations of cues and stimuli into new behavior patterns; lesioning the amygdala results in the disruption of these internally generated representations. Support for Richardson's theory is derived from studies in which the acquisition or retention of a task by lesioned subjects is dependent upon the utilization of either external environmental stimuli or internal cues. Consider the former case. Amygdaloid ablation does not interfere with rather complex tasks so long as the correct response is cued by an external environmental stimulus. For example, the acquisition of a go/no-go discrimination cued by a light and the reversal of this discrimination were not disrupted in lesioned rats (Pellegrino, 1968). On the other hand, for those tasks whose performance depends on internally formed cues for the correct response, a lesion deficit is observed. ported that lesions of the basolateral region of the nucleus impaired performance on a timing task (DRL-20) relative to performance by a control group of rats (seealso Pubols, 1966). Likewise, Schartzbaum and Poulos (1965) reported that amygdalectomized monkeys did worse on a discrimination reversal task than did the control animals. It appears , then, that the amygdaloid lesion deficit is observed when internally generated representations of cues (e.g., timing task or discrimination reversal), rather than external stimuli (e.g., light), are being utilized for the correct response.The purpose of this experiment was, first, to further extend those investigations that had incorporated internally produced cues into their manipulations in the study of the amygdala and, second, to test the ...

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Amygdaloid lesions and behavioral inhibition in the rat.

Cited by 135 publications

References 49 publications

The corticomedial amygdala and learning in an agonistic situation in the rat

The corticomedial amygdala and learning in an agonistic situation in the rat

The gustatory neocortex of the rat

Single-alternation pattern running in amygdalectomized rats

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