References
- Baker R., Prechts W., Llinás R. Cerebellar modulatory action on the vestibulo-ocular pathway in the cat. Exp Brain Res 1972; 15: 364
- Dechesne C., Sans A. Control of the vestibular nerve activity by the efferent system in the cat. Acta Otolaryngol (Stockh) 1980; 90: 82
- Dichgans J., Schmidt C. L., Wist E. R. Frequency modulation of afferent and efferent unit activity in the vestibular nerve by oculomotor impulses. Progr Brain Res 1972; 37: 449
- Ehrenberger K., Felix D., Wyss U. Efferent controlled integrating functions of primary vestibular afferents. Acta Otolaryngol (Stockh) 1979; 87: 472
- Fernández C., Fredrickson J. M. Experimental cerebellar lesions and their effect on vestibular function. Acta Otolaryngol (Stockh) Suppl. 1963; 192: 52
- Fex J. Auditory activity in centrifugal and centripetal cochlear fibers in cat. A study of a feedback system. Acta Physiol Scand 1962; 55: 1, Suppl. 189
- Fluur E., Mendel L. Habituation, efference and vestibular interplay. Acta Otolaryngol (Stockh) 1962; 55: 65
- Fukuda J., Highstein S. M., Ito M. Cerebellar inhibitory control of the vestibulo-ocular reflex investigated in rabbit 111 nucleus. Exp Brain Res 1972; 14: 511
- Galambos R. Suppression of the auditory nerve activity by stimulation of efferent fibers to the cochlea. J Neurophysiol 1956; 19: 424
- Goldberg J. M., Fernández C. Efferent vestibular system in the squirrel monkey: Anatomic location and influence on afferent activity. J Neurophysiol 1980; 41: 986
- Gribenski A., Caston J. Tonic influence of the efferent vestibular system on the spontaneous afferent activity from semicircular canals in the frog. Rana esculenta. Exp Brain Res 1976; 26: 275
- Henn W. V., Cohen B. Activity in the eye muscle motoneurons and brainstem units during eye movements. Internat. Symp. series. Symp W-G. Center 174. Vol. 124. Basic Mechanisms of Ocular Mo-tility and their Clinical Implications. Pergamon Press, Oxford 1974; 303
- Klinke R., Schmidt C. L. Efferent influence on the vestibular organ during active movements of the body. Pflügers Arch ges Physiol 1970; 318: 352
- Ledoux A. Les canaux semi-circulaires. Etude électrophysiologique. Contribution à I effort d'unifor-misation des épreuves vestibulaires. Essai d'interpré-tation de la semilogie vestibularie. Acta Otorhinola-ryng Belg 1958; 12: 109
- Khalsa B. S., Schwartz D. W. F., Fredrikson J. M., Landolt J. P. Efferent vestibular neurons. Acta Otolaryngol (Stockh) 1981; 92: 83
- Llinás R., Prechts W. The inhibitory vestibular efferent system and its relation to the cerebellum in the frog. Exp Brain Res 1969; 9: 16
- Robinson D. A. Oculomotor control signals. Internat. Symp. series. Symp. W-G Center. Volume 24: Basic Mechanisms of Ocular Motility and their Clinical Implications. Pergamon Press, Oxford 1974; 337
- Rossi M. L., Prigioni I., Valli P., Casella C. Peripheral control of the receptor discharge by the efferent system in frog labyrinth: An infracellular study. Neurosci Lett 1978; 357, Suppl. 1
- Russel I. J. Influence of efferent fibers on a receptor. Nature (Lond) 1968; 219: 177
- Sala O. The efferent vestibular system. Ada Otolaryngol (Stockh), Suppl. 1965; 197
- Schmidt R. F. Frog labyrinthine efferent impulses. Acta Otolaryngol (Stockh) 1963; 56: 51
- Trincker D. Analyse des afferenten lnformations-flusses von Labyrinthreceptoren. seiner Stabilisierung durch Rück-Kuppelung und der Kriterien für Kon-stanz der Raum und Zeit-Koordinaten zentraler Daten-verarbeitung. Biokübernetik, H. Drischel, N. Thiedt, 1968
- Wolfe J. W. Evidence for control of nystagmic habituation by folium-tuber vermis and fastigial nuclei. Acta Otolaryngol (Stockh) 1968; 231: 1