Journal ArticleDOI
Rapid associative learning: conditioned bradycardia and its central nervous system substrates.
TLDR
The present review describes research in the laboratory that has focused on conditioned bradycardia as a model system of a rapidly acquired associative system and contrast it with the more slowly acquired Pavlovian conditioned eyeblink response.Abstract:
It has become clear from the study of different response systems during classical conditioning that some responses are acquired quite rapidly and others show a much slower rate of acquisition. The most often studied rapidly acquired responses have been classically conditioned autonomic changes (e.g., heart rate); the slowly acquired responses most often studied are skeletal responses, such as the eyeblink or leg flexion response. Although there are various other differences between rapidly acquired and slowly acquired responses, we have suggested that the most important difference is the possibility that they represent different stages of the learning process. In the present review I describe research in our laboratory that has focused on conditioned bradycardia as a model system of a rapidly acquired associative system and contrast it with the more slowly acquired Pavlovian conditioned eyeblink response. I also describe the generality of conditioned bradycardia and discuss the differential role of subdivisions of the prefrontal cortex as a substrate for mediating this response. Finally, I briefly discuss the other brain areas involved in conditioned bradycardia, and its functional significance as it relates to the learning process.read more
Citations
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Journal ArticleDOI
The role of ventromedial prefrontal cortex in the recovery of extinguished fear.
TL;DR: The effects of electrolytic vmPFC lesions made before training on the acquisition, extinction, and recovery of conditioned fear responses in a 2 d experiment suggest a role of thevmPFC in consolidation of extinction learning or the recall of contexts in which extinction took place.
Journal ArticleDOI
Both medial prefrontal and amygdala central nucleus lesions abolish heart rate classical conditioning, but only prefrontal lesions impair reversal of eyeblink differential conditioning
TL;DR: The results suggest that mPFC processing of Pavlovian conditioning contingencies affects not only the autonomic component of learning but preservative somatomotor conditioning as well, whereas ACN processing affects only the autonomousic component.
Journal ArticleDOI
Conditioning-specific reflex modification of the rabbit's nictitating membrane response and heart rate: behavioral rules, neural substrates, and potential applications to posttraumatic stress disorder.
TL;DR: CRM may force us to reevaluate the behavioral and neural consequences of classical conditioning and may have important consequences for the treatment of conditions such as posttraumatic stress disorder.
Journal ArticleDOI
Neural activity in the medial geniculate nucleus during auditory trace conditioning
TL;DR: Examination of extracellular activity of single units in the MGN during differential auditory trace conditioning of the rabbit nictitating membrane response suggests that MGN neurons are involved in the maintenance of a sensory memory trace and possibly play a part in CR generation and timing.
Journal ArticleDOI
Conditioning-specific reflex modification of the rabbit (Oryctolagus cuniculus) nictitating membrane response: US intensity effects.
TL;DR: The data suggest that CRM is a function of US intensity and have implications for posttraumatic stress disorder, a disorder potentially modeled by CRM.
References
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Journal ArticleDOI
Frontal cortex projections to the amygdaloid central nucleus in the rabbit.
TL;DR: The present study describes the topography and origin of frontal cortex projections to the nucleus based upon retrograde and anterograde axonal transport techniques and suggests that the insular cortex possesses the potential to directly influence the central nucleus projection to cardiovascular/autonomic regulatory nuclei of the dorsal medulla and thus, together with the amygdaloid central nucleus, appears to be an important component of a forebrain system involved in cardiovascular/Autonomic regulation.
Journal ArticleDOI
Autonomic-somatic relationships: blockade of heart rate and corneo-retinal potential responses.
Kazis E,Milligan Wl,Powell Da +2 more
Journal ArticleDOI
The role of the medial geniculate region in differential Pavlovian conditioning of bradycardia in rabbits
TL;DR: The present findings suggest that a region just medial to the MGN is involved in bradycardia differential conditioning in rabbits, and suggests that other auditory regions may also be involved in the mediation of the bradyCardia CR.
Book ChapterDOI
Chapter 22 Role of the prefrontal — thalamic axis in classical conditioning
TL;DR: The major conclusion to be drawn from the above-described research on the role of the PFCag is obviously that it plays a primary and perhaps necessary role in the establishment of visceral cues associated with exposure to classical conditioning contingencies.