TY - JOUR
T1 - The effects of selective amygdala, orbital frontal cortex or hippocampal formation lesions on reward assessment in nonhuman primates
AU - Machado, Christopher J.
AU - Bachevalier, Jocelyne
PY - 2007/5
Y1 - 2007/5
N2 - We examined the effects of bilateral amygdaloid, hippocampal or orbital frontal cortex lesions on reward assessment in rhesus monkeys (Macaca mulatta). In Experiment 1, basic preferences for foods and inedible nonfoods were measured pre- and postsurgery. None of the lesions produced changes in animals' preferences for palatable foods or raw meat relative to presurgery, although amygdaloid or hippocampal lesions yielded increased preference for inedible nonfoods postsurgery. When the reinforcement value of each animal's highest-preferred food was decreased by selective satiation, only animals with neurotoxic orbital frontal cortex lesions continued to select the sated food. Experiment 2 measured the impact of each lesion on learning 60 concurrent discrimination problems and, then, on flexibly avoiding objects associated with sated foods in favour of objects associated with nonsated foods. None of the lesions affected concurrent discrimination learning, but animals with neurotoxic amygdala or aspiration orbital frontal lesions could not refrain from displacing items covering devalued foods. Only animals with orbital lesions also selected the devalued food beneath the object. The results indicate a functional dissociation for the amygdala and orbital frontal cortex in reward assessment, depending on the type of the reinforcer available (objects vs. food). Finally, this is the first study indicating that the hippocampal formation is involved in the assessment of familiar nonfoods, but not in judging the current value of unconditioned and conditioned reinforcers.
AB - We examined the effects of bilateral amygdaloid, hippocampal or orbital frontal cortex lesions on reward assessment in rhesus monkeys (Macaca mulatta). In Experiment 1, basic preferences for foods and inedible nonfoods were measured pre- and postsurgery. None of the lesions produced changes in animals' preferences for palatable foods or raw meat relative to presurgery, although amygdaloid or hippocampal lesions yielded increased preference for inedible nonfoods postsurgery. When the reinforcement value of each animal's highest-preferred food was decreased by selective satiation, only animals with neurotoxic orbital frontal cortex lesions continued to select the sated food. Experiment 2 measured the impact of each lesion on learning 60 concurrent discrimination problems and, then, on flexibly avoiding objects associated with sated foods in favour of objects associated with nonsated foods. None of the lesions affected concurrent discrimination learning, but animals with neurotoxic amygdala or aspiration orbital frontal lesions could not refrain from displacing items covering devalued foods. Only animals with orbital lesions also selected the devalued food beneath the object. The results indicate a functional dissociation for the amygdala and orbital frontal cortex in reward assessment, depending on the type of the reinforcer available (objects vs. food). Finally, this is the first study indicating that the hippocampal formation is involved in the assessment of familiar nonfoods, but not in judging the current value of unconditioned and conditioned reinforcers.
KW - Ibotenic acid
KW - Macaca mulatta
KW - Reinforcer devaluation
KW - Satiation
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U2 - 10.1111/j.1460-9568.2007.05525.x
DO - 10.1111/j.1460-9568.2007.05525.x
M3 - Article
C2 - 17561849
AN - SCOPUS:34249980097
VL - 25
SP - 2885
EP - 2904
JO - European Journal of Neuroscience
JF - European Journal of Neuroscience
SN - 0953-816X
IS - 9
ER -