Berit Holmeslet1, Magnus Westin, Krister Brantberg. 1. Department of Otolaryngology, St. Olavs Hospital, Trondheim University Hospital, Norwegian University of Science and Technology, Trondheim, Norway. berit.holmeslet@stolav.no
Abstract
OBJECTIVE: To explore the mechanisms for skull tap induced ocular vestibular evoked myogenic potentials (oVEMP). METHODS: An electro-mechanical "skull tapper" was used to test oVEMP in response to four different stimulus sites (forehead, occiput and above each ear) in healthy subjects (n=20) and in patients with unilateral loss of vestibular function (n=10). RESULTS: In normals, the oVEMP in response to forehead taps and the contra-lateral oVEMP to taps above the ears were similar. These responses had typical oVEMP features, i.e. a short-latency negative peak (n10) followed by a positive peak (p15). In contrast, the ipsi-lateral oVEMP to the laterally directed skull taps, as well as the oVEMP to occiput taps, had an initial double negative peak (n10+n10b). In patients with unilateral loss of vestibular function, the crossed responses from the functioning labyrinth were very similar to the corresponding oVEMP in normals. CONCLUSIONS: The present data support a theory that skull tapping may cause both a response that is more stimulus direction dependent and one that is less so. SIGNIFICANCE: Whereas the stimulus direction dependent occurrence of the negative double-peak might reveal the functional status of one part of the labyrinth, the rather stimulus direction-independent response might reveal the functional status of other parts. Copyright Â
OBJECTIVE: To explore the mechanisms for skull tap induced ocular vestibular evoked myogenic potentials (oVEMP). METHODS: An electro-mechanical "skull tapper" was used to test oVEMP in response to four different stimulus sites (forehead, occiput and above each ear) in healthy subjects (n=20) and in patients with unilateral loss of vestibular function (n=10). RESULTS: In normals, the oVEMP in response to forehead taps and the contra-lateral oVEMP to taps above the ears were similar. These responses had typical oVEMP features, i.e. a short-latency negative peak (n10) followed by a positive peak (p15). In contrast, the ipsi-lateral oVEMP to the laterally directed skull taps, as well as the oVEMP to occiput taps, had an initial double negative peak (n10+n10b). In patients with unilateral loss of vestibular function, the crossed responses from the functioning labyrinth were very similar to the corresponding oVEMP in normals. CONCLUSIONS: The present data support a theory that skull tapping may cause both a response that is more stimulus direction dependent and one that is less so. SIGNIFICANCE: Whereas the stimulus direction dependent occurrence of the negative double-peak might reveal the functional status of one part of the labyrinth, the rather stimulus direction-independent response might reveal the functional status of other parts. Copyright Â
Authors: Rachael L Taylor; Catherine Blaivie; Andreas P Bom; Berit Holmeslet; Tony Pansell; Krister Brantberg; Miriam S Welgampola Journal: Exp Brain Res Date: 2014-01-25 Impact factor: 1.972
Authors: Fatemeh Noohi; Catherine Kinnaird; Yiri DeDios; Igor S Kofman; Scott Wood; Jacob Bloomberg; Ajitkumar Mulavara; Rachael Seidler Journal: Front Syst Neurosci Date: 2017-03-10