References
- Walsted A, Salomon G, Olsen KS. Low-frequency hearing loss after spinal anesthesia. Perilymphatic hypotonia. Scand Audiol 1991, [in press]
- Panning B, Lehnhardt E, Mehler D. Zur passageren Tieftonschwerhörigkeit nach Spinalanästhesie. Anesthesist 1984; 33: 593–5
- Vandam L D, Dripps RD. Long-term follow-up of patients who received 10098 spinal anesthetics. JAMA 1956; 161: 586–91
- Michel O, Brusis T, Matthias R. Innenohrschwerhörigkeit nach Liquorpunktion. Arch Otorhinolaryn-gol 1989; 38–9, Suppl 11
- Black P M, Chapman P. Transient abducens paresis after shunting for hydrocephalus. J Neurosurg 1981; 55: 467–9
- Clemis J D, Mastricola P G, Schuler-Vogler M. Sudden hearing loss in the contralateral ear in postoperative acoustic tumor: three case reports. Laryngoscope 1982; 92: 76–9
- Harris J P, Low N C, House WF. Contralateral hearing loss following inner ear injury: sympathetic cochleolabyrinthitis. Am J Otol 1985; 6: 371–7
- Barratt H J, Prasher DK. The effect of acoustic neuroma removal on hearing in the contralateral ear. Scand Audiol 1988; 17: 137–42
- Tos M, Trojaborg N, Thomsen J. The contralateral ear after translabyrinthine removal of acoustic neuromas: Is there a drill-noise generated hearing loss. J Laryngol Otol 1989; 103: 845–9
- Palva T, Sorri M. Can an operation on a deaf ear be dangerous for hearing. Acta Otolaryngol (Stockh) 1979; 155–7, Suppl 360
- Allen G W, Habibi M. The effect of increasing the cerebrospinal fluid pressure upon the cochlear microphonics. Laryngoscope 1962; 72: 423–35
- Beentjes BI. The cochlear aqueduct and the pressure of cerebrospinal and endolabyrinthine fluids. Acta Otolaryngol (Stockh) 1972; 73: 112–20
- Carlborg B. On physiological and experimental variation of the perilymphatic pressure in the cat. Acta Otolaryngol (Stockh) 1981; 91: 19–28
- Martinez DM. Simultaneous measurements of endolymphatic and perilymphatic fluid pressures before and during anaphylaxis and associated changes in cerebrospinal fluid, venous and arterial pressures. Acta Otolaryngol (Stockh) 1968; 1–53, Suppl 238
- Carlborg B, Farmer JC. Transmission of cerebrospinal fluid pressure via the cochlear aqueduct and endolymphatic sac. Am J Otolaryngol 1983; 4: 273–82
- Kimura R S, Schuknecht HF., Ota CY. Blockage of cochlear aqueduct. Acta Otolaryngol (Stockh) 1974; 77: 1–12
- Schuknecht HF., Seifi AE. Experimental observations on the fluid physiology of the inner ear. Ann Otol Rhinol Laryngol 1963; 72: 687–712
- Wlodyka J. Studies on cochlear aqueduct patency. Ann Otol 1978; 87: 22–8
- Phillips AJ., Marchbanks RJ. Effects of posture and age on tympanic membrane displacement measurements. Br J Audiol 1989; 23: 279–84
- Yoshida M, Lowry LD. Hydrostatic pressure measurement of endolymph and perilymph in the guinea pig cochlea. Am J Otolaryngol 1984; 5: 159–65
- Weille FL. Pressures of the labyrinthine fluids. Ann Otol 1961; 70: 528–10
- Long CH., Morizono T. Hydrostatic pressure measurements of endolymph and perilymph in a guinea pig model of endolymphatic hydrops. Otolaryngol Head Neck Surg 1987; 96: 83–95
- Ito S., Fisch U, Dillier N., Pollak A. Endolymphatic pressure in experimental hydrops. Arch Otolaryngol Head Neck Surg 1987; 113: 833–5
- Marchbank RJ., Reid A. Cochlear and cerebrospinal fluid pressures: Their inter-relationship and control mechanisms. Br J Audiol 1990; 24: 179–87
- Kimura RS. Animal models of endolymphatic hydrops. Am J Otolaryngol 1982; 3: 447–51