References
- Arlinger S. D. Auditory evoked cortical responses to frequency glides in subjects with retrocochlear hearing impairment. J Neurol Neurosurg Psychiatry 1983; 46: 917–23
- Arlinger S. D., Jerlvall L. B., Ahrén T., Holmgren E. C. Slow evoked cortical responses to linear frequency ramps in subjects with cochlear lesions. Acta Otolaryngol (Stockh) 1977a; 84: 213–9
- Arlinger S. D., Jerlvall L. B., Ahrén T., Holmgren E. C. Discrimination of frequency ramps in subjects with cochlear hearing loss. Acta Otolaryngol (Stockh) 1977b; 83: 310–6
- Bergenius J., Borg E., Hirsch A. Stapedius reflex test, brainstem audiometry and optovestibular tests in diagnosis of acoustic neurinomas. Scand Audiol 1983; 12: 3–9
- Blegvad B., Hvidegaard T. Hereditary dysfunction of the brain stem auditory pathways as the major cause of speech retardation. Scand Audiol 1983; 12: 179–87
- Blegvad B., Svane-Knudsen V., Börre S. ABR in patients with congenital/early acquired sensorineural hearing loss, abnormal stapedius reflex threshold and speech retardation. Scand Audiol 1984; 13: 41–6
- Borg E. Correlation between auditory brainstem response (ABR) and speech discrimination scores in patients with acoustic neurinoma and in patients with cochlear hearing loss. Scand Audiol 1982; 11: 245–8
- Borg E., Spens K.-E., Tonnquist I., Rosén S. Brain map. Acta Otolaryngol (Stockh) 1987; 103: 612
- Borg E., Spens K.-E., Tonnquist I. Auditory brain map, effects of age. Scand Audiol 1988, Suppl. 30 [in press]
- Buchsbaum M. S., Rigal F., Coppola R., Cappelletti J., King C., Johnson J. A new system for gray-level surface distribution maps of electrical activity. Electroencephalogr Clin Neurophysiol 1982; 53: 237–42
- Davis H., Zerlin S. Acoustic relations of the human vertex potential. J Acoust Soc Amer 1966; 39: 109–16
- Desmedt J. E., Nguyen T. H., Bourguet M. Bitmapped color imaging of human evoked potentials with reference to the N20, P22, P27 and N30 somato-sensory responses. Electroencephalogr Clin Neurophysiol 1987; 68: 1–19
- Duffy F. H. Brain electrical activity mapping (BEAM): Computerized access to complex brain function. Int J Neurosci 1981; 13: 55–65
- Duffy F. H., Burchfiel J. L., Lombroso C. T. Brain electric activity mapping (BEAM): A method for extending the clinical utility of EEG and evoked potential data. Ann Neurol 1979; 5: 309–21
- Duffy F. H., Denckla M. B., Bartels P. H., Sandini G. Dyslexia: regional differences in brain electrical activity by topographic mapping. Ann Neurol 1980a; 7: 412–20
- Duffy F. H., Denckla M. B., Bartels P. H., Sandini G., Kiessling L. S. Dyslexia: automated diagnosis by computerized classification of brain electrical activity. Ann Neurol 1980b; 7: 421–8
- Elberling C., Bak C., Kofoed B., Lebech J., Saermark K. Magnetic auditory responses from the human brain. A preliminary report. Scand Audiol 1980; 9: 185–90
- Grillon C., Buchsbaum M. S. Computed EEG topography of response to visual and auditory stimuli. Electroencephalogr Clin Neurophysiol 1986; 63: 42–63
- Kileny P., Paccioretti D., Wilson A. F. Effects of cortical lesions on middle-latency auditory evoked responses (MLR). Electroencephalogr Clin Neurophysiol 1987; 66: 108–20
- Pantev C., Hoke M., Lehnertz K. Randomized data acquisition paradigm for the measurement of auditory evoked magnetic fields. Acta Otolaryngol (Stockh), Suppl. 1986a; 432: 21–5
- Pantev C., Hoke M., Lutkenhöner B., Lehnertz K., Spittka J. Causes of differences in the input-output characteristics of simultaneously recorded auditory evoked magnetic fields and potentials. Audiology 1986b; 25: 263–76
- Pantev C., Lutkenhöner B., Hoke M., Lehnertz K. Comparison between simultaneously recorded auditory-evoked magnetic fields and potentials elicited by ipsilateral, contralateral and binaural tone burst stimulation. Audiology 1986c; 25: 54–61
- Reite M., Zimmerman J. T., Zimmerman J. E. MEG and EEG auditory responses to tone, click and white noise stimuli. Electroencephalogr Clin Neurophysiol 1982; 53: 643–51
- Rubens A. B. The neuroanatomy of disorders of auditory comprehension. Semin Neurol 1984; 4: 174–9
- Scherg M., von Cramon D. Evoked dipole source potentials of the human auditory cortex. Electroencephalogr Clin Neurophysiol 1986; 65: 344–60
- Shimizu N., Hirazawa K. Topographic mapping of brainstem auditory evoked responses in humans. Brain Dev 1985; 7: 145
- Vaughan H. G., Jr, Ritter W. The sources of auditory evoked responses recorded from the human scalp. Electroencephalogr Clin Neurophysiol 1970; 28: 360–7
- Wood C. C., Wolpaw J. R. Scalp distribution of human auditory evoked potentials. Evidence for overlapping sources of involvement of auditory cortex. Electroencephalogr Clin Neurophysiol 1982; 54: 25–58
- Woods D. L., Knight R. T., Neville H. J. Bitemporal lesions dissociate auditory evoked potentials and perception. Electroencephalogr Clin Neurophysiol 1984; 57: 208–20