Directional coupling from the olfactory bulb to the hippocampus during a go/no-go odor discrimination task

The hippocampus and olfactory regions are anatomically close, and both play a major role in memory formation. However, the way they interact during odor processing is still unclear. In both areas, strong oscillations of the local field potential (LFP) can be recorded, and are modulated by behavior....

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Published inJournal of neurophysiology Vol. 103; no. 5; pp. 2633 - 2641
Main Authors Gourévitch, Boris, Kay, Leslie M, Martin, Claire
Format Journal Article
LanguageEnglish
Published United States American Physiological Society 01.05.2010
Subjects
Animals
Beta Rhythm
Cognitive science
Conditioning, Classical - physiology
Discrimination (Psychology) - physiology
Electrodes, Implanted
Feedback, Physiological
Hippocampus - physiology
Learning - physiology
Male
Neuropsychological Tests
Neuroscience
Odorants
Olfactory Bulb - physiology
Olfactory Pathways - physiology
Olfactory Perception - physiology
Periodicity
Physical Stimulation
Rats
Rats, Sprague-Dawley
Signal Processing, Computer-Assisted
Theta Rhythm
Time Factors
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Abstract The hippocampus and olfactory regions are anatomically close, and both play a major role in memory formation. However, the way they interact during odor processing is still unclear. In both areas, strong oscillations of the local field potential (LFP) can be recorded, and are modulated by behavior. In particular, in the olfactory system, the beta rhythm (15-35 Hz) is associated with cognitive processing of an olfactory stimulus. Using LFP recordings in the olfactory bulb and dorsal and ventral hippocampus during performance of an olfactory go/no-go task in rats, we previously showed that beta oscillations are also present in the hippocampus, coherent with those in the olfactory bulb, during odor sampling. In this study, we provide further insight into information transfer in the olfacto-hippocampal network by using directional coherence (DCOH estimate), a method based on the temporal relation between two or more signals in the frequency domain. In the theta band (6-12 Hz), coherence between the olfactory bulb (OB) and the hippocampus (HPC) is weak and can be both in the feedback and feedforward directions. However, at this frequency, modulation of the coupling between the dorsal and ventral hippocampus is seen during stimulus expectation versus odor processing. In the beta frequency band (15-35 Hz), analysis showed a strong unidirectional coupling from the OB to dorsal and ventral HPC, indicating that, during odor processing, beta oscillations in the hippocampus are driven by the olfactory bulb.
AbstractList The hippocampus and olfactory regions are anatomically close, and both play a major role in memory formation. However, the way they interact during odor processing is still unclear. In both areas, strong oscillations of the local field potential (LFP) can be recorded, and are modulated by behavior. In particular, in the olfactory system, the beta rhythm (15–35 Hz) is associated with cognitive processing of an olfactory stimulus. Using LFP recordings in the olfactory bulb and dorsal and ventral hippocampus during performance of an olfactory go/no-go task in rats, we previously showed that beta oscillations are also present in the hippocampus, coherent with those in the olfactory bulb, during odor sampling. In this study, we provide further insight into information transfer in the olfacto-hippocampal network by using directional coherence (DCOH estimate), a method based on the temporal relation between two or more signals in the frequency domain. In the theta band (6–12 Hz), coherence between the olfactory bulb (OB) and the hippocampus (HPC) is weak and can be both in the feedback and feedforward directions. However, at this frequency, modulation of the coupling between the dorsal and ventral hippocampus is seen during stimulus expectation versus odor processing. In the beta frequency band (15–35 Hz), analysis showed a strong unidirectional coupling from the OB to dorsal and ventral HPC, indicating that, during odor processing, beta oscillations in the hippocampus are driven by the olfactory bulb.
Author Kay, Leslie M
Martin, Claire
Gourévitch, Boris
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    fullname: Wang G
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Snippet The hippocampus and olfactory regions are anatomically close, and both play a major role in memory formation. However, the way they interact during odor...
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SubjectTerms Animals
Beta Rhythm
Cognitive science
Conditioning, Classical - physiology
Discrimination (Psychology) - physiology
Electrodes, Implanted
Feedback, Physiological
Hippocampus - physiology
Learning - physiology
Male
Neuropsychological Tests
Neuroscience
Odorants
Olfactory Bulb - physiology
Olfactory Pathways - physiology
Olfactory Perception - physiology
Periodicity
Physical Stimulation
Rats
Rats, Sprague-Dawley
Signal Processing, Computer-Assisted
Theta Rhythm
Time Factors
Title Directional coupling from the olfactory bulb to the hippocampus during a go/no-go odor discrimination task
URI https://www.ncbi.nlm.nih.gov/pubmed/20164392
https://search.proquest.com/docview/733511575
https://hal.science/hal-00518030
https://pubmed.ncbi.nlm.nih.gov/PMC2867565
Volume 103
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