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Persy, Ilse
 

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Results 1-8 of 8 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Krenn, Matthias ; Mayr, Winfried ; Vargas Luna, Jose L. ; Persy, Ilse ; Dimitrijevic, Milan R. Patterns of spinal sensory motor outputs of the human lumbar spinal cord disconnected from brain control can be elicited by sensory inputsKonferenzbeitrag Inproceedings2016
2Minassian, Karen ; Persy, Ilse ; Rattay, Frank ; Dimitrijevic, Milan ; Hofer, Christian ; Kern, Helmut Posterior root-muscle reflexes elicited by transcutaneous stimulation of the human lumbosacral cordArtikel Article2007
3Persy, Ilse ; Minassian, Karen ; Hofstötter, Ursula ; Hofer, Christian ; Rattay, Frank ; Kern, Helmut ; Dimitrijevic, Milan Externally controlled "coded" trains of input stimuli to the human lumbar cord can elicit a variety of input-related functional and non-functional movementsKonferenzbeitrag Inproceedings2007
4Minassian, Karen ; Hofstötter, Ursula ; Persy, Ilse ; Dimitrijevic, Milan ; Rattay, Frank ; Kern, Helmut Transcutaneous stimulation of human lumbar posterior rootsKonferenzbeitrag Inproceedings2007
5Hofstötter, Ursula ; Minassian, Karen ; Persy, Ilse ; Kern, Helmut ; Hofer, Christian ; Rattay, Frank ; Dimitrijevic, Milan Modification of multisegmental motor nuclei outputs of the lumbar cord by suprasegmental motor tasksKonferenzbeitrag Inproceedings2007
6Dimitrijevic, Milan ; Persy, Ilse ; Hofstötter, Ursula ; Minassian, Karen ; Rattay, Frank ; Hofer, Christian ; Kern, Helmut Externally controlled "coded" trains of input stimuli to the human lumbar cord can elicit a variety of input-related functional and non-functional movementsPräsentation Presentation2007
7Minassian, Karen ; Persy, Ilse ; Rattay, Frank ; Pinter, Michaela ; Kern, Helmut ; Dimitrijevic, Milan Human lumbar cord circuitries can be activated by extrinsic tonic input to generate locomotor-like activityArtikel Article 2007
8Minassian, Karen ; Persy, Ilse ; Rattay, Frank ; Dimitrijevic, Milan Effect of peripheral afferent and central afferent input to the human lumbar spinal cord isolated from brain controlKonferenzbeitrag Inproceedings2006