Characterization of Single-Unit Activity in the Mediodorsal Nucleus of the Thalamus during Expression of Differential Heart Rate Conditioning in the Rabbit

@article{Chachich1997CharacterizationOS,
  title={Characterization of Single-Unit Activity in the Mediodorsal Nucleus of the Thalamus during Expression of Differential Heart Rate Conditioning in the Rabbit},
  author={Mark E. Chachich and Shirley L. Buchanan and Donald A. Powell},
  journal={Neurobiology of Learning and Memory},
  year={1997},
  volume={67},
  pages={129-141}
}
Much recent evidence has shown that the thalamic-prefrontal axis is involved in Pavlovian conditioning in rabbits. However, while single cell activity in the prefrontal cortex has been previously studied during classical conditioning in rabbits, that of its thalamic projection nucleus, the mediodorsal (MD) nucleus, has not. Consequently, in the present research we recorded neuronal activity from individual cells in MD during expression of conditioned bradycardia in rabbits that received… 
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Lesions of the thalamic reticular nucleus or the basal forebrain impair Pavlovian eyeblink conditioning and attenuate learning-related multiple-unit activity in the mediodorsal nucleus of the thalamus
TLDR
Results support the idea that MD, possibly due to its forebrain-reticular afferent connections, may participate in a “response selection” function of the prefrontal cortex.
The role of claustrum in Pavlovian heart rate conditioning in the rabbit (Oryctolagus cuniculus): anatomical, electrophysiological, and lesion studies.
TLDR
Claustral lesions diminished the magnitude of the HR-conditioned response without affecting the cardiac-orienting response to the conditioned stimulus or the cardiac's cardiac-unconditioningresponse to the unconditioned stimulus, suggesting a role for the claustrum in associative learning.
Mediodorsal thalamic lesions impair trace eyeblink conditioning in the rabbit.
TLDR
The results suggest that information processed by MDN and relayed to the prefrontal cortex is required for somatomotor response selection under nonoptimal learning conditions.
Classical Conditioning of Autonomic and Somatomotor Responses and Their Central Nervous System Substrates

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