Temporal correlations between heart rate, medullary units and hippocampal theta rhythm in anesthetized, sleeping and awake guinea pigs: Difference between revisions

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''Pedemonte M, Goldstein-Daruech N, and Velluti RA (2003) Temporal correlations between heart rate, medullary units and hippocampal theta rhythm in anesthetized, sleeping and awake guinea pigs. Auton Neurosci 107:2 99–104.''
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'''[https://ac.els-cdn.com/S1566070203001322/1-s2.0-S1566070203001322-main.pdf?_tid=7a713534-b33b-11e7-ae6a-00000aab0f01&acdnat=1508245549_8568f3f76e4f252bb2f6d6d623848720 Link to Article]'''
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'''Abstract:''' The aim of the present report was to determine whether or not the heart rate could show any relation to a central electrographic rhythm such as hippocampus theta. Our experimental design included anesthetized as well as chronically implanted guinea pigs. The cross-correlation, spike trigger averaging, between the medullary neurons firing, or the R-wave of the electrocardiogram, or hippocampal units, and theta rhythm revealed phase-locking during epochs of wakefulness, slow wave sleep and paradoxical sleep, and under anesthesia. A special case was paradoxical sleep, an epoch known to lack autonomic function control (open-loop), in which a great majority of the recorded units (83%) exhibited theta phase-locking. The experimental control was a flat cross-correlation after unit firing shuffling. A brain-stem autonomic oscillator, together with a hypothalamic and a cortico-frontal centers entrained by baroreceptor input, have been proposed as the heart rhythm control system. The present report suggests that hippocampal theta waves may participate, in coordination with the hypothalamic center, as a heart rate modulator.
Pedemonte M, Goldstein-Daruech N, and Velluti RA (2003) Temporal correlations between heart rate, medullary units and hippocampal theta rhythm in anesthetized, sleeping and awake guinea pigs. Auton Neurosci 107:2 99–104.


'''Keywords:''' Theta rhythm; Electrocardiogram; Hippocampal units; Autonomic modulation; Heart rate; Brain-stem units; Wakefulness; Slow wave sleep; Paradoxical sleep
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https://ac.els-cdn.com/S1566070203001322/1-s2.0-S1566070203001322-main.pdf?_tid=7a713534-b33b-11e7-ae6a-00000aab0f01&acdnat=1508245549_8568f3f76e4f252bb2f6d6d623848720
 
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The aim of the present report was to determine whether or not the heart rate could show any relation to a central electrographic rhythm such as hippocampus theta. Our experimental design included anesthetized as well as chronically implanted guinea pigs. The cross-correlation, spike trigger averaging, between the medullary neurons firing, or the R-wave of the electrocardiogram, or hippocampal units, and theta rhythm revealed phase-locking during epochs of wakefulness, slow wave sleep and paradoxical sleep, and under anesthesia. A special case was paradoxical sleep, an epoch known to lack autonomic function control (open-loop), in which a great majority of the recorded units (83%) exhibited theta phase-locking. The experimental control was a flat cross-correlation after unit firing shuffling. A brain-stem autonomic oscillator, together with a hypothalamic and a cortico-frontal centers entrained by baroreceptor input, have been proposed as the heart rhythm control system. The present report suggests that hippocampal theta waves may participate, in coordination with the hypothalamic center, as a heart rate modulator.
 
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Theta rhythm; Electrocardiogram; Hippocampal units; Autonomic modulation; Heart rate; Brain-stem units; Wakefulness; Slow wave sleep; Paradoxical sleep
 
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*Animal study in guinea pig evaluating correlation between heart rate and hippocampal EEG activity. Report suggests correlation of hippocampal theta-wave activity and heart rate.
*Animal study in guinea pig evaluating correlation between heart rate and hippocampal EEG activity. Report suggests correlation of hippocampal theta-wave activity and heart rate.


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Latest revision as of 18:07, 17 June 2019


Pedemonte M, Goldstein-Daruech N, and Velluti RA (2003) Temporal correlations between heart rate, medullary units and hippocampal theta rhythm in anesthetized, sleeping and awake guinea pigs. Auton Neurosci 107:2 99–104.

Link to Article

Abstract: The aim of the present report was to determine whether or not the heart rate could show any relation to a central electrographic rhythm such as hippocampus theta. Our experimental design included anesthetized as well as chronically implanted guinea pigs. The cross-correlation, spike trigger averaging, between the medullary neurons firing, or the R-wave of the electrocardiogram, or hippocampal units, and theta rhythm revealed phase-locking during epochs of wakefulness, slow wave sleep and paradoxical sleep, and under anesthesia. A special case was paradoxical sleep, an epoch known to lack autonomic function control (open-loop), in which a great majority of the recorded units (83%) exhibited theta phase-locking. The experimental control was a flat cross-correlation after unit firing shuffling. A brain-stem autonomic oscillator, together with a hypothalamic and a cortico-frontal centers entrained by baroreceptor input, have been proposed as the heart rhythm control system. The present report suggests that hippocampal theta waves may participate, in coordination with the hypothalamic center, as a heart rate modulator.

Keywords: Theta rhythm; Electrocardiogram; Hippocampal units; Autonomic modulation; Heart rate; Brain-stem units; Wakefulness; Slow wave sleep; Paradoxical sleep

Context

  • Animal study in guinea pig evaluating correlation between heart rate and hippocampal EEG activity. Report suggests correlation of hippocampal theta-wave activity and heart rate.

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