References
- Citron L., Exley D., Hallpike C. S. Circulation and chemical properties of the labyrinthine fluid. Brit. Med. Bull. 1956; 12: 101
- Davis H. Biophysics and physiology of the inner ear. Physiol. Rev. 1957; 37: 1
- Davis H., Tasaki I., Smith C. A., Deatherage B. H. Cochlear potentials after intracochlear injection and anoxia. Federation Proc. 1955; 14: 122
- Enger P. S. Ionic composition of the cranial and labyrinthine fluids and saccular d.c. potentials in fish. Comp. Biochem. Physiol. 1964; 11: 131
- Johnstone C. G., Smith R. S., Johnstone B. M. Sodium and potassium in vertebrate cochlear endolymph as determined by flame microspectrophotometry. Comp. Biochem. Physiol. 1963; 9: 335
- Smith C. A., Lowry O. H., Wu M. L. Electrolytes of labyrinthine fluids. Laryngoscope 1954; 64: 141
- Smith R. S., Fernández C. Labyrinthine dc potentials in representative vertebrates. J. Cellular Comp. Physiol. 1962; 10: 83
- Tasaki I. Neural Mechanism of the Auditory and Vestibular System, G. L. Rasmussen, W. F. Windle. Charles G. Thomas, Springfield, Ill 1960; 45, 1960
- Tasaki I., Davis H., Eldredge D. H. Exploration of cochlear potentials in guinea pigs with a microelectrode. J. Acoust. Soc. Amer. 1954; 26: 765
- Tasaki I., Fernández C. Modifications of cochlear microphonics and action potentials by KC1 solution and by direct currents. J. Neurophysiol. 1952; 15: 497
- Tasaki I., Spyropoulos C. S. Stria vascularis as source of endocochlear potential. J. Neurophysiol. 1959; 22: 149