The hippocampus and the rhinal cortex, two substructures of the medial temporal lobe, together play a crucial role in human declarative memory formation. To investigate in detail the mechanism connecting these two structures transiently during memory formation we recorded depth EEG in epilepsy patients from within the hippocampus and the rhinal cortex. During this recording, patients performed a single-trial word list-learning paradigm with a free recall memory test following a distraction task. Rhinal-hippocampal EEG coherence and spectral power at both locations in the time interval up to 2 s after onset of word presentation were analysed in the frequency range 1-19 Hz. Successful as opposed to unsuccessful memory formation was associated...
The functional deficits associated with hippocampal sclerosis during declarative memory formation ar...
It is well known that theta rhythms (3-8 Hz) are the fingerprint of hippocampus, and that neural act...
Abstract: It is well known that theta rhythms (3–8 Hz) are the fingerprint of hippocampus, and that ...
The hippocampus and the rhinal cortex, two substructures of the medial temporal lobe, together play ...
The hippocampus and the rhinal cortex, two substructures of the medial temporal lobe, together play ...
Lesion and imaging studies have demonstrated that encoding and retrieval of declarative memories, i....
Human declarative memory formation crucially depends on processes within the medial temporal lobe (M...
In humans, distinct processes within the hippocampus and rhinal cortex support declarative memory fo...
The deficiency of declarative memory compared with waking state is an often overlooked characteristi...
The medial temporal lobe (MTL) is the core structure of the declarative memory system, but which spe...
The medial temporal lobe (MTL) is the core structure of the declarative memory system, but which spe...
Cognitive functions not only depend on the localization of neural activity, but also on the precise ...
To form an episodic memory, we must first process a vast amount of sensory information about the to-...
The hippocampus is important for creating memories. Complex cognitive processes such as memory requi...
To test the hypothesis that neural oscillations synchronize to mediate memory encoding, we analyzed ...
The functional deficits associated with hippocampal sclerosis during declarative memory formation ar...
It is well known that theta rhythms (3-8 Hz) are the fingerprint of hippocampus, and that neural act...
Abstract: It is well known that theta rhythms (3–8 Hz) are the fingerprint of hippocampus, and that ...
The hippocampus and the rhinal cortex, two substructures of the medial temporal lobe, together play ...
The hippocampus and the rhinal cortex, two substructures of the medial temporal lobe, together play ...
Lesion and imaging studies have demonstrated that encoding and retrieval of declarative memories, i....
Human declarative memory formation crucially depends on processes within the medial temporal lobe (M...
In humans, distinct processes within the hippocampus and rhinal cortex support declarative memory fo...
The deficiency of declarative memory compared with waking state is an often overlooked characteristi...
The medial temporal lobe (MTL) is the core structure of the declarative memory system, but which spe...
The medial temporal lobe (MTL) is the core structure of the declarative memory system, but which spe...
Cognitive functions not only depend on the localization of neural activity, but also on the precise ...
To form an episodic memory, we must first process a vast amount of sensory information about the to-...
The hippocampus is important for creating memories. Complex cognitive processes such as memory requi...
To test the hypothesis that neural oscillations synchronize to mediate memory encoding, we analyzed ...
The functional deficits associated with hippocampal sclerosis during declarative memory formation ar...
It is well known that theta rhythms (3-8 Hz) are the fingerprint of hippocampus, and that neural act...
Abstract: It is well known that theta rhythms (3–8 Hz) are the fingerprint of hippocampus, and that ...