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@INPROCEEDINGS{Fell:145615,
      author       = {Fell, Juergen and Wagner, Tobias and Staresina, Bernhard P.
                      and Ranganath, Charan and Elger, Christian E. and Axmacher,
                      Nikolai},
      title        = {{R}hinal-{H}ippocampal {I}nformation {F}low {R}everses
                      {B}etween {M}emory {E}ncoding and {R}etrieval},
      volume       = {9947},
      address      = {Cham},
      publisher    = {Springer International Publishing},
      reportid     = {DZNE-2020-00945},
      isbn         = {978-3-319-46686-6 (print)},
      series       = {Lecture Notes in Computer Science},
      pages        = {105-114},
      year         = {2016},
      comment      = {Neural Information Processing / Hirose, Akira (Editor) ;
                      Cham : Springer International Publishing, 2016, Chapter 11 ;
                      ISSN: 0302-9743=1611-3349 ; ISBN:
                      978-3-319-46686-6=978-3-319-46687-3 ;
                      doi:10.1007/978-3-319-46687-3},
      booktitle     = {Neural Information Processing /
                       Hirose, Akira (Editor) ; Cham :
                       Springer International Publishing,
                       2016, Chapter 11 ; ISSN:
                       0302-9743=1611-3349 ; ISBN:
                       978-3-319-46686-6=978-3-319-46687-3 ;
                       doi:10.1007/978-3-319-46687-3},
      abstract     = {The medial temporal lobe is crucial for the encoding and
                      retrieval of episodic long-term memories. It is widely
                      assumed that memory encoding is associated with information
                      transfer from sensory regions via the rhinal cortex into the
                      hippocampus. Retrieval of information should then be
                      associated with transfer in the reverse direction. However,
                      experimental evidence for this mechanism is still lacking.
                      Here, we show in human intracranial EEG data during two
                      independent recognition memory paradigms that
                      rhinal-hippocampal information flow significantly changes
                      its directionality from encoding to retrieval. Using a novel
                      phase-based method to analyze directional coupling of
                      oscillations, coupling values were more positive (i.e., from
                      rhinal cortex to the hippocampus) during encoding as
                      compared to retrieval. These effects were observed in the
                      delta (1–3 Hz) range where rhinal-hippocampal
                      post-stimulus phase synchronization increased most robustly
                      across both experiments.},
      month         = {Oct},
      date          = {2016-10-16},
      organization  = {23rd International Conference on
                       Neural Information Processing ICONIP
                       2016: Neural Information Processing,
                       Kyoto (Japan), 16 Oct 2016 - 21 Oct
                       2016},
      cin          = {AG Axmacher},
      cid          = {I:(DE-2719)5000027},
      pnm          = {344 - Clinical and Health Care Research (POF3-344)},
      pid          = {G:(DE-HGF)POF3-344},
      typ          = {PUB:(DE-HGF)8 / PUB:(DE-HGF)7},
      doi          = {10.1007/978-3-319-46687-3_11},
      url          = {https://pub.dzne.de/record/145615},
}