References
- Aschan G. Response to rotatory stimuli in fighter pilots. Acta Otolaryng. 1954, Suppl. 116: 24–31
- Aschan G., Bergstedt M., Stahle J. Nystagmography. Recording of nystagmus in clinical neuro-otological examinations. Almqvist & Wiksell, Uppsala 1956; 103
- Bard P., Woolsey C. N., Snider R. S., Mountcastle V. B., Bromiley R. B. Delimitation of central nervous mechanisms involved in motion sickness. Fed. Proc. 1947; 6: 72
- Bauer J., Leidler R. Über den Einfluss der Ausschaltung verschiedener Hirnabschnitte auf die vestibulären Augenreflexe. Arb. a. d. neurolog. Inst. a. d. Wien. Univ. 1912; 19: 155–226
- de Wit G. Seasickness. Acta Otolaryng. 1953, Suppl. 108: 56
- Dow R. S. Effect of lesions in the vestibular part of the cerebellum in primates. Arch. Neurol. Psychiat. 1938; 40: 500–520
- Dow R. S., Moruzzi G. The Physiology and Pathology of the Cerebellum. Univ. Minn. Press. 1958; 675
- Ekblad M. A psychiatric and sociologic study of a series of Swedish naval conscripts. Acta Psychiat. Neurol. Scand. 1948, Suppl. 49
- Fernåndez C., Lindsay J. R., Alzate R. Postural nystagmus due to localized cerebellar lesions in the cat. Acta Otolaryng. 1959; 50: 287–291
- Fisher L. Seasickness and internal ear stimulation. New York J. Med. 1917; 106: 542–546
- Fitzgerald G., Hallpike C. S. Studies in human vestibular function: I. Observations on the directional preponderance of caloric nystagmus resulting from cerebral lesions. Brain 1942; 65: 115–137
- Gernandt B. E., Gilman S. Generation of labyrinthine impulses, descending vestibular pathways, and modulations of vestibular activity by proprioceptive, cerebellar, and reticular influences. Neural Mechanisms of the Auditory and Vestibular Systems, G. L. Rasmussen, W. F. Windle. Thomas, Springfield 1960; 422
- Halstead W. The effects of cerebellar lesions upon the habituation of post-rotational nystagmus. Comp. Psychol. Monogr. 1935; 12: 130
- Halstead W., Yacorzynski G., Fearing F. Further evidence of cerebellar influence in the habituation of after-nystagmus in pigeons. Amer. J. Physiol. 1937; 120: 350–355
- Henriksson N. G. An electrical method for registration and analysis of the movements of the eyes in nystagmus. Acta Otolaryng. 1955; 45: 25–41
- Hoshino T. Beiträige zur Funktion des Kleinhirnwurmes beim Kaninchen. Acta Otolaryng. 1921, Suppl. 2: 72
- Jongkees L. B. W., Maas J. P. M., Philipszoon A. J. Clinical nystagmography. A detailed study of electro-nystagmography in 341 patients with vertigo. Pract. Otorhinolaryng. (Basel) 1962; 24: 65–93
- Lidvall H. F. Vertigo and nystagmus responses to caloric stimuli repeated at short intervals. Acta Otolaryng. 1961a; 53: 33–44
- Lidvall H. F. Vertigo and nystagmus responses to caloric stimuli repeated at short and long intervals. Acta Otolaryng. 1961b; 53: 507–518
- Lidvall H. F. Specific and non-specific traits of habituation in nystagmus responses to repeated caloric stimuli. Acta Otolaryng. 1962; 55: 315
- Noble R. L. Motion sickness: with special reference to air sickness. Practitioner 1948; 160: 453–458
- Pollock L., Davis L. The influence of the cerebellum upon the reflex activities of the decerebrate animal. Brain 1927; 50: 277–312
- Preber L. Vegetative reactions in caloric and rotatory tests. A clinical study with special reference to motion sickness. Acta Otolaryng. 1958, Suppl. 144: 119
- Sjöberg A. A. Experimental studies of the eliciting mechanism of sea-sickness. Acta Otolaryng. 1929; 13: 343–347
- Sjöberg A. A. Experimentelle Studien über den Auslösungsmechanismus der Seekrankheit. Acta Otolaryng. 1931, Suppl. 14: 136
- Tyler D. B., Bard P. Motion sickness. Physiol. Rev. 1949; 29: 311–369
- Wang S. C., Chinn H. I. Experimental motion sickness in dogs. Importance of labyrinth and vestibular cerebellum. Amer. J. Physiol. 1956; 185: 617–623
- Wulfften Palthe P. M. Function of the deeper sensibility and of the vestibular organs in flying. Acta Otolaryng. 1922; 4: 415–449
- Zwerling I. Psychological factors in susceptibility to motion sickness. J. Psychol. 1947; 23: 219–239