Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acquisition of conditioned taste aversion (CTA) in rats is not prevented by functional decortication, anesthesia or hypothermia applied after intake of the flavored fluid and maintained throughout the action of the poison but is disrupted by bilateral application of 10 ng tetrodotoxin (TTX) into the parabrachial nuclei. The blockade is directly proportional to TTX dosage, indirectly proportional to distance of the injection site from parabrachial nuclei and equally affects CTAs using different CS (saccharin, NaCl) and different US (LiCl, carbachol, amphetamine, cycloheximide). CTA is disrupted by TTX applied up to 4 but not 8 days after a single CS-US pairing. TTX fails to disrupt overtrained CTA and elicits only a weak anterograde amnesia when applied 1 but 2 or more days before CTA acquisition. It is concluded that the parabrachial nuclei and the adjacent reticular formation probably represent the neural substrate of the permanent CTA engram the protracted consolidation of which is disrupted by prolonged cessation of impulse which is disrupted by prolonged cessation of impulse activity in the information storing network.
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PMID:Brain stem mechanisms of conditioned taste aversion learning in rats. 172 Jun 86

Anterograde amnesia (AA), forgetting of events that occur following a traumatic episode, has recently been demonstrated by using a mild decrease in temperature (hypothermia) as the amnestic agent. However, no data currently exist to indicate if an increase in body temperature (hyperthermia) might affect memory processing in a similar manner. Experiments 1 and 2 demonstrated that increasing the colonic body temperature of the rat to 3-4 degrees C or more above normal during avoidance training produced a significant retention loss when the test occurred 24 hr after training. Slight hyperthermia to 1-2 degrees C above normal did not impair retention. In Experiment 3, AA resulting from an elevation in temperature was reversed by reheating "amnestic" subjects just prior to the 24-hr test. By rapidly reversing hyperthermia immediately after the training trial with a cooling procedure, Experiment 4 demonstrated that hyperthermia-induced AA was not the result of retrograde influences of the heating treatment. Implications of these results are discussed in terms of possible retention deficits which could conceivably follow environmental heat stress or fever hyperthermia resulting from bacterial infection.
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PMID:Anterograde amnesia induced by hyperthermia in rats. 349

The present investigation examined whether the poor test performance observed in studies of anterograde amnesia reflects a memory deficit or is a by-product of weaker initial learning resulting from impaired sensory, motivational, or associative processes. Two experiments were performed which utilized latent extinction (Experiment 1) and delay of punishment (Experiment 2) manipulations in order to assess the nature of original learning in rats trained under either hypothermic (29 degrees C) or normothermic conditions. Results from both experiments provided evidence that hypothermia treatment administered prior to training had relatively little influence on the animal's ability to acquire a passive avoidance response. Therefore, the rapid forgetting observed in hypothermia-induced anterograde amnesia is most likely due to memory deficits rather than an artifact of poorer acquisition.
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PMID:Hypothermia-induced anterograde amnesia: is memory loss attributable to impaired acquisition? 363 48

Although there have been several reports that preweanling rats and mice are relatively resistant to experimentally induced retrograde amnesia, there is virtually no information concerning susceptibility to anterograde amnesia in subjects of this age. Therefore, in the present experiment, 23-day-old rats received hypothermia either prior to, or immediately after, punishment training in an attempt to induce anterograde and retrograde amnesia, respectively. When tested 24 hr later, only those subjects given hypothermia prior to training exhibited any loss of retention. Thus these results confirmed previous evidence of resistance to retrograde amnesia in preweanling rats and further demonstrated that substantial anterograde amnesia could be obtained in these subjects. Performance of subjects tested after a 5-min retention interval revealed that the poor retention performance in subjects cooled prior to training and tested 24 hr later was not due to a learning deficit. These results are also discussed with respect to the issue of the independence of anterograde and retrograde amnesia.
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PMID:Differential susceptibility to anterograde and retrograde amnesia treatments in preweanling rats. 367 43

Previous studies have demonstrated anterograde amnesia (AA) and its reversal in rats trained on passive avoidance tasks. The present investigation was conducted to determine whether induction and/or reversal of AA is limited to inhibitory learning tasks or whether these phenomena can be illustrated in behavioral situations involving choice. Accordingly, in Experiment 1, rats were trained on a T-maze escape task as either hypothermic (28 degrees C) or normothermic. Twenty-four hours later half of each acquisition group was tested as either hypothermic or normothermic. Results indicated a stern retention decrement for animals trained at a lower body temperature and tested as normothermic. However, this prograde memory deficit was attenuated when animals were recooled shortly prior to testing. In an attempt to extend the phenomenon of memory recovery observed in Experiment 1, Experiment 2 examined whether pretest injections of d-amphetamine (0.5 mg/kg), a purported amnesia-attenuating agent, could lessen the AA induced by hypothermia. Amphetamine, at least at the dose used, did not reduce the memory impairment. Results are interpreted in terms of the state dependent nature of memory.
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PMID:Hypothermia-induced anterograde amnesia and its reversal in rats trained on a T-maze escape task. 372 11

In contrast with the extensive animal research on retrograde amnesia, relatively little attention has been given to anterograde amnesia. Moreover, previous studies of anterograde amnesia have not always clearly separated the effects of the anterograde treatment on acquisition from those on retention. Thus, hypothermia-induced anterograde amnesia for a one-trial conditioned fear memory was examined in three experiments. Experiment 1A demonstrated an anterograde disruption of performance in subjects receiving training in the hypothermic state (29 degrees C) and tested 24 hr later. Acquisition of the target memory in animals exposed to hypothermia prior to conditioning was demonstrated in Experiment 1B. Subjects conditioned while in a hypothermic state (29 degrees C) performed similarly to noncooled subjects if tested shortly after conditioning (while still in a hypothermic state), but not 24 hr after conditioning (while in a normothermic state). Experiment 2 shows that the anterograde amnesia effect is temperature dependent. That is, of animals trained at 29 or 33 degrees C, only the more hypothermic group demonstrated deficits in retention when tested 24 hr later. This experiment also attempted, unsuccessfully, to demonstrate recovery of the amnestic memory by administration of a noncontingent footshock prior to testing. Implications of the failure to demonstrate recovery of memory are discussed along with possible mechanisms involved in producing anterograde amnesia.
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PMID:Anterograde memory loss induced by hypothermia in rats. 688 43

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