Abnormal learning and forgetting of individual spatial reversal problems in brain-damaged rats

Thompson, Robert

doi:10.3758/bf03326767

Cited by 22 publications

(14 citation statements)

References 36 publications

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“…However, it would be premature to conclude that the solution of our detour problems requires the same cognitive abilities as those required for the solution of maze habits and spatial reversal tasks. This is shown by the findings that rats with occipital ablation s or lateral thalamic lesions are virtually indistinguishable from the controls in learning Problem A (Thompson et al, 1984a; present study), but are significantly impaired in learning maze habits (Lashley, 1929; and spatial reversal tasks (Thompson, 1983a).…”

Section: Preliminary Considerationssupporting

confidence: 50%

Detour problem-solving behavior in rats with early lesions to the “general learning system”

1984

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Recent studies involving visual and nonvisual discrimination habits suggest that the components of the rodent's general (nonspecific) learning system (a group of brain structures essential for normal acquisition of a wide range oflaboratory tasks) include the regions of the globus pallidus, lateral thalamus, substantia nigra, midbrain central gray, median raphe, and pontine reticular formation. To determine whether these regions playa role in more complex kinds oflearning, young rats previously subjected to selective lesions to these brain sites received five trials on each of three "climbing" detour problems. Performance on Triall (a measure of response flexibility) as well as performance on Trials 2-5 (a measure of detour habit formation) of each problem was significantly impaired in those groups with damage to the globus pallidus, substantia nigra, median raphe, or pontine reticular formation. On the other hand, those groups with damage to the lateral thalamus or midbrain central gray failed to display consistent deficits in detour problemsolving behavior. This pattern of results suggests that the latter two structures can no longer be grouped with the globus pallidus, substantia nigra, median raphe, and pontine reticular formation as components of the rodent's general learning system. 193

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Section: Preliminary Considerationssupporting

confidence: 50%

Detour problem-solving behavior in rats with early lesions to the “general learning system”

1984

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“…This would follow from the fact that the latter would also disrupt hippocampal function to the extent that the hippocampus would be deprived of certain kinds of sensory input necessary to transact its comparator role. This account would seem to explain the similar disturbances observed in neocortically and hippocampally damaged rats on such tasks as complex mazes (Foreman & Stevens, 1982;Thompson, 1979), position reversals (Thompson, 1983), and active and passive avoidance responses (Thompson, 1978b).…”

Section: Nature Of the Deficitmentioning

confidence: 78%

“…However, it must be recognized that neocortical lesions produce impairments on maze, position reversal, and active and passive avoidance responses that cannot be satisfactorily explained in terms of sensory privation (Dale & Goodale, 1979;Lashley, 1929;Thompson, 1979Thompson, , 1982Thompson, , 1983. These data would suggest that the role of the hippocampus in behaviors that are disorganized by neocortical lesions may not necessarily be dependent upon sensory information from the neocortical receiving areas.…”

Section: Nature Of the Deficitmentioning

confidence: 91%

“…Rats with similarly localized corticallesions are known to be deficient in place learning, as gauged by performance on simple (Lashley, 1929;Thompson, 1983) and complex (Lashley, 1929;Thomas & Weir, 1975;Thompson, 1979) maze habits. Furthermore, an extensive series of experiments comparing the effects of occipital lesions with those of hippocampal lesions on a wide variety of laboratory tasks led to the conclusion that the nonvisual function of the former was closely associated with the spatial functions of the latter (Thompson, 1982), a conclusion that must be revised in light of the present findings.…”

Section: Performance On Trials 2-5: a Measure Of Detour Habit Formationmentioning

confidence: 99%

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Detour problem-solving behavior in rats with neocortical and hippocampal lesions: A study of response flexibility

1984

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Young rats previously subjected to discrete neocortical ablations or hippocampal electrolytic lesions received five trials on each of three "climbing" detour problems. Performance on Trial! (a measure of response flexibility) of each problem was significantly impaired in those groups with frontal, parietal, or hippocampallesions; the group with occipitallesions was impaired on only one problem. Performance on Trials 2-5(a measure of detour habit formation) of each problem was significantly impaired only in the hippocampal group; the neocortical groups showed either no impairment or a mild impairment on these trials. These results suggest that the solution of detour problems on the first trial may require a cognitive process that is qualitatively different from that required on subsequent trials.

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“…The learning task consisted of the repeated reversal of a position habit in a single unit T-maze adapted for the use of escape-avoidance of mild foot shock as a motive [see Thompson, 1983, for a complete description of the apparatus and procedure]. On the first day, each animal was trained to choose the right (correct) arm and avoid the left (incorrect) arm of the T (reversal problem 0).…”

Section: Methodsmentioning

confidence: 99%

Learning ability of young rats is unaffected by repeated exposure to a static electromagnetic field in early life

Hong

Huestis

Thompson

et al. 1988

Bioelectromagnetics

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Infant albino rats were exposed to a static electromagnetic field of 0.0 Tesla (control) or 0.5 Tesla (experimental) for 14 postnatal days. Following a 1-month rest period, the experimental (13 males and 10 females) and control (11 males and 14 females) rats were trained on four successive reversals of a position habit in a single-unit enclosed T-maze that was adapted for the use of escape-avoidance of mild foot shock as a motive. There was no significant difference in learning ability between the experimental and control groups in terms of total (initial combined with repetitive) errors committed over the four reversal problems. While the females tended to make more errors than the males, this difference was likewise insignificant.

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Abnormal learning and forgetting of individual spatial reversal problems in brain-damaged rats

Cited by 22 publications

References 36 publications

Detour problem-solving behavior in rats with early lesions to the “general learning system”

Detour problem-solving behavior in rats with early lesions to the “general learning system”

Detour problem-solving behavior in rats with neocortical and hippocampal lesions: A study of response flexibility

Learning ability of young rats is unaffected by repeated exposure to a static electromagnetic field in early life

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