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@ARTICLE{Lundt:138316,
      author       = {Lundt, Andreas and Wormuth, Carola and Siwek, Magdalena
                      Elisabeth and Müller, Ralf and Ehninger, Dan and Henseler,
                      Christina and Broich, Karl and Papazoglou, Anna and
                      Weiergräber, Marco},
      title        = {{EEG} {R}adiotelemetry in {S}mall {L}aboratory {R}odents:
                      {A} {P}owerful {S}tate-of-the {A}rt {A}pproach in
                      {N}europsychiatric, {N}eurodegenerative, and {E}pilepsy
                      {R}esearch.},
      journal      = {Neural plasticity},
      volume       = {2016},
      issn         = {2090-5904},
      address      = {New York, NY},
      publisher    = {Hindawi},
      reportid     = {DZNE-2020-04638},
      pages        = {8213878},
      year         = {2016},
      abstract     = {EEG radiotelemetry plays an important role in the
                      neurological characterization of transgenic mouse models of
                      neuropsychiatric and neurodegenerative diseases as well as
                      epilepsies providing valuable insights into underlying
                      pathophysiological mechanisms and thereby facilitating the
                      development of new translational approaches. We elaborate on
                      the major advantages of nonrestraining EEG radiotelemetry in
                      contrast to restraining procedures such as tethered systems
                      or jacket systems containing recorders. Whereas a main
                      disadvantage of the latter is their unphysiological,
                      restraining character, telemetric EEG recording overcomes
                      these disadvantages. It allows precise and highly sensitive
                      measurement under various physiological and
                      pathophysiological conditions. Here we present a detailed
                      description of a straightforward successful, quick, and
                      efficient technique for intraperitoneal as well as
                      subcutaneous pouch implantation of a standard radiofrequency
                      transmitter in mice and rats. We further present
                      computerized 3D-stereotaxic placement of both epidural and
                      deep intracerebral electrodes. Preoperative preparation of
                      mice and rats, suitable anaesthesia, and postoperative
                      treatment and pain management are described in detail. A
                      special focus is on fields of application, technical and
                      experimental pitfalls, and technical connections of
                      commercially available radiotelemetry systems with other
                      electrophysiological setups.},
      subtyp        = {Review Article},
      keywords     = {Animals / Brain: physiopathology / Disease Models, Animal /
                      Electroencephalography: methods / Epilepsy: physiopathology
                      / Mental Disorders: physiopathology / Mice /
                      Neurodegenerative Diseases: physiopathology / Rats /
                      Research / Telemetry: methods},
      cin          = {AG Ehninger},
      ddc          = {610},
      cid          = {I:(DE-2719)1013005},
      pnm          = {342 - Disease Mechanisms and Model Systems (POF3-342)},
      pid          = {G:(DE-HGF)POF3-342},
      typ          = {PUB:(DE-HGF)16},
      pubmed       = {pmid:26819775},
      pmc          = {pmc:PMC4706962},
      doi          = {10.1155/2016/8213878},
      url          = {https://pub.dzne.de/record/138316},
}