Advanced search
Publication Cover
Neuro-Ophthalmology Volume 5, 1985 - Issue 2
Submit an article Journal homepage
11
Views
3
CrossRef citations to date
0
Altmetric
Original Article

Evoked potentials and their applications to Neuro-Ophthalmology

D. Regan Departments of Medicine and Ophthalmology, Dalhousie University, Halifax, Canada
Pages 73-108 | Accepted 15 Nov 1984, Published online: 08 Jul 2009

References

  • Abraham F. A., Cohen D., Sohmer H. Usher's syndrome: electrophysiological tests of the visual and auditory systems. Docum. ophthal. 1977; 44: 435–444
  • Allison T. Scalp and cortical recordings of initial somatosensory cortex activity to median nerve stimulation in man. Ann. N.Y. Acad. Sci. 1982; 388: 671–677
  • Allison T., Goff W. R., Williamson P. D. On the neural origin of early components of the human somatosensory evoked potential. Clinical Uses of Cerebral. Brainstem and Spinal Somatosensory Evoked Potentials, J. E. Desmedt. Karger, Basel 1980; Vol. 7, Prog. Clin. Neurophysiol
  • Allison T., Wood C. C., Goff W. R. Brain stem auditory, pattern-reversal visual and short-latency somatosensory evoked potentials: latencies in relation to age, sex and brain and body size. Electroenceph. clin. Neurophysiol. 1983; 55: 619–636
  • Anziska B., Cracco R. Q., Cook A. W. Somatosensory far field potentials: studies in normal subjects and patients with multiple sclerosis. Electroenceph. clin. Neurophysiol. 1978; 45: 602–610
  • Apkarian P., Reits D., Spekreijse H. A decisive electrophysiological test for human albinism. Electroenceph. clin. Neurophysiol. 1983; 55: 513–531
  • Arden G. B., Bernard W. M., Mushin A. S. Visually evoked responses in amblyopia. Brit. J. Ophthal. 1974; 58: 183–192
  • Arden G. B., Jacobson J. J. A simple grating test for contrast sensitivity: preliminary results indicate value in screening for glaucoma. Invest. Ophthal. vis. Sci. 1978; 17: 23–32
  • Akezzo J. C., Vaughan H. G. The contribution of afferent fibre tracts to the somatosensory evoked potential. Ann. N.Y. Acad. Sci. 1982; 388: 679–682
  • Assleman P., Chadwick D. W., Marsden C. D. Visual evoked responses in the diagnosis and management of patients suspected of multiple sclerosis. Brain 1975; 98: 261–282
  • Atkin A., Bodis-Wollner I., Podos S. M., Wolkstein M., Mylin L., Nitzberg S. Flicker threshold and pattern VEP latency in ocular hypertension and glaucoma. Invest. Ophthal. vis. Sci. 1983; 24: 10–24
  • Atkinson J., Braddick O., French J. Contrast sensitivity of the human neonate measured by the VEP. Invest. Ophthal. vis. Sci. 1979; 18: 210–213
  • Atkinson J., Braddick O., Pimm-Smith E. ‘Preferential looking’ for monocular and binocular testing of infants. Brit. J. Ophthal. 1982; 66: 264–268
  • Evoked Potentials, C. Barber. University Park Press, Baltimore 1980
  • Barnet A. B., Friedman S. L., Weiss I. P. VEP development in infancy and early childhood: a longitudinal study. Electroenceph. clin. Neurophysiol. 1980; 49: 476–489
  • Barnet A. B., Manson J. I., Wilner E. Acute cerebral blindness in childhood. Neurology 1970; 20: 1147–1156
  • Barris M. C., Dawson W. W., Zeskind J. A. Laser speckle cortical evoked responbes (LASCERs). Evoked Potentials, C. Barber. MTP Press, LancasterUK 1980
  • Bedell H. E., Flom M. C. Monocular spatial distortion in strabismus amblyopia. Invest. Ophthal. vis. Sci. 1981; 20: 263–268
  • Bergland G. D. A guided tour of the fast Fourier transform. IEEE Spectrum 1969; 6: 41–52
  • Blumhardt L. D., Barrett G., Halliday A. M. The asymmetrical visualevoked potential topattern reversal in one half field and its significance for the analysis of visual field defects. Brit. J. Ophthal. 1977; 61: 456–459
  • Blumhardt L. D., Barrett G., Halliday A. M. The effect ofexperimental'scotomata'on the ipsilateral and contralateral responses to pattern-reversal in one half-field. Electroenceph. clin. Neurophysiol 1978; 45: 376–392
  • Blumhardt L. D., Barrett G., Kriss A. The pattern-evoked potential in lesions of the posterior visual pathways. Evoked Potentials, I. Bodis-Wollner. Ann. N. Y. Acad. Sci. 1982; 388: 349–358
  • Bodis-Wollner I. Recovery from cerebral blindness: evoked potential and psychophysical measurements. Electroenceph. clin. Neurophysial. 1977; 42: 178–184
  • Bodis-Wollner I. Evoked potentials. Ann. N.Y. Acad. Sci. 1982; 388
  • Bodis-Wollner I., Atkin A., Raab E. Visual association cortex and vision in man: Pattern-evoked occipital potentials in a blind boy. Science 1977; 198: 629–630
  • Bodis-Wollner I., Barris M. C., Mylin L. H., Julesz B., Kropfl W. Binocular stimulation reveals cortical components of the human visual evoked potential. Electroenceph. clin. Neurophysiol. 1981; 52: 298–305
  • Bodis-Wollner I., Hendley C. D., Mylin L. H. Visual evoked potentials and the visuogram in multiple sclerosis. Ann. Neurol. 1979; 5: 4047
  • Bodis-Wollner I., Yahr M. D. Measurements of visual evoked potentials in Parkinson's disease. Brain 1978; 101: 661–671
  • Bodis-Wollner I., Yahr M. D., Mylin L. Dopamine deficiency and delayed visual evoked potentials in humans. Ann. Neurol. 1982; 11: 478–483
  • Bodis-Wollner I., Yahr M. D., Thornton J. Visual evoked potentials and the severity of Parkinson's disease. Research Progress in Parkinson's Disease, C. Rose, R. Capilder. Pitman Medical, Tunbridge WellsUK 1980; 126–137
  • Braddick O., Atkinson J., Julesz B., Kropfl W., Bodis-Wollner I., Raab E. Cortical binocularity in infants. Nature 1980; 288: 363–365
  • Brussell E. M., White C. W., Bross M. Multi-flash campimetry in multiple sclerosis. Current Eye Res. 1981/1982; 1: 671–677
  • Buchwald J. S., Huang C. M. Farfield acoustic response origins in the cat. Science 1975; 189: 382–384
  • Camisa J., Mylin L. H., Bodis-Wollner I. Meridional visual evoked potential latency changes in multiple sclerosis. Ann. Neurol. 1981; 10: 532
  • Campbell F. W., Maffei L. Electrophysiological evidence for the existence of orientation and size detectors in the human visual system. J. Physiol. (Lond) 1970; 222: 635–652
  • Campbell F. W., Nachmias J., Jukes J. Spatial frequency discrimination in human vision. J. opt. Soc. Amer. 1970; 60: 555–559
  • Cappin J. M., Nissim S. Visual evoked responses in the assessment of field defects in glaucoma. Arch. Ophthal. 1975; 9: 93–95
  • Celesia G. G. Visual evoked potentials in neurological diagnosis. Amer. J. EEC Techn. 1978; 18: 47–59
  • Celesia G. G., Archer C. R., Kuroiwa Y. Visualfunction of theextrageniculo-calcarine system in man. Arch. Neurol. 1980; 37: 704–706
  • Chiappa K. H. Pattern shift visual, brainstem auditory and short latency somatosensory evoked potential in multiple sclerosis. Neurology (N. Y.) 1980; 30: 110–123
  • Chiappa K. H., Gladstone K. J., Young R. R. Brainstem auditory evoked responses: studies of waveform variations in 50 normal human subjects. Arch. Neurol. 1979; 36: 81–87
  • Chiappa K. H. Evoked Potentials in Clinical Medicine. Raven Press, New York 1983
  • Chiappa K. H., Choi S. K., Young R. R. Short latency somatosensory evoked potentials following median nerve stimulation in patients with neurological lesions. Clinical Uses of Cerebral, Brainstem and Spinal Somatosensory Evoked Potentials, J. E. Desmedt. Karger, Basel 1980a; Vol. 7, Prog clin. Neurophysiol.
  • Chiappa K. H., Harrison J. L., Brooks E. B. Brainstemauditory evoked responses in 200 patients with multiple sclerosis. Ann. Neurol. 1980b; 7: 135–143
  • Chiappa K. H., Ropper A. H. Evoked potentials inclinical medicine. I. New, Engl. J. Med. 1982a; 306: 1140–1150
  • Chiappa K. H., Ropper A. H. Evoked potentials inclinical medicine. II. New Engl. J. Med. 1982b; 306: 1205–1211
  • Cohn R. Visual evoked responses in the brain injured monkey. Arch. Neurol. 1969; 21: 321–329
  • Collins D. W. K., Carroll W. M., Black J. L. The effect of refractive error on the visual evoked potential. Brit. med. J. 1979; 1: 231–232
  • Connolly J. F., Gawel M., Rose F. C. Migraine patients exhibit abnormalities in the visual evoked potential. J. Neurol. Neurosurg. Psychiat. 1982; 45: 464–467
  • Copenhaver R. M., Beinhocker G. D. Evoked occipital potentials recorded from scalp electrodes in response to focal visual illumination. Invest. Ophthal. 1963; 2: 393–406
  • Cracco J. B., Bosch V. V., Cracco R. Q. Cerebral and spinal somatosensory evoked potentials in children with CNS disease. Elertroenceph. clin. Neurophysiol. 1980; 49: 437–455
  • Cracco J. B., Cracco R. Q. Somatosensory spinal and cerebral evoked potentials in children with occult spinal dysraphism. Neurology (Minneapolis) 1979; 29: 543–544
  • Cracco J. B., Cracco R. Q., Graziani L. Spinal evoked responses in infants with myelodysplasia. Neurology (Minneapolis) 1974; 24: 359–364
  • Cracco J. B., Cracco R. Q., Graziani L. J. The spinal evoked response in infants and children. Neurology (Minneapolis) 1915; 25: 31–36
  • Cracco R. Q. Spinal evoked response: peripheral nerve stimulation in man. Electroenceph. clin. Neurophysiol. 1973; 35: 379–386
  • Cracco R. Q., Anziska B. J., Cracco J. B. Short latency somatosensory evoked potentials to median and peroneal nerve stimulation: studies in normal subjects and patients with neurological disease. Ann. N. Y. Acad. Sci. 1982; 388: 412–425
  • Cracco R. Q., Cracco J. B. Somatosensory evoked potentials in man: farfield potentials. Electroenceph. din. Neurophysiol. 1976; 41: 460–466
  • Creel D., O'Donnell F. E., Jr., Witkop C. J., Jr. Visual system anomalies in human ocular albinos. Science 1978; 201: 931–933
  • Creel D., Spekreijse H., Reits D. Evoked potentials inalbinos: Efficacy of pattern stimuli indetecting misrouted optic fibers. Electroenceph. clin. Neurophysiol. 1981; 52: 585
  • Creel D., Witkop C. J., Jr., King R. A. Asymmetric visually evoked potentials in hurnan albinos: Evidence for visual system anomalies. Invest. Ophthal. 1974; 13: 430
  • Davis F. A., Schauf C. L. The pathophysiology of multiple sclerosis: a theoretical model. Models of Human Neurolopcal Disease, H. J. Klawans, Jr. Excerpta Medica, Amsterdam 1974
  • Dawson G. D. A summation technique for detecting small signals in a large irregular background. J. Physiol. 1951; 115: 2–3
  • Dawson G. D. Autocorrelation and automatic integration. Electroenceph. clin. Neurophysiol. 1953; 26–37, Suppl. 4
  • Denny-Brown D., Chambers R. A. Physiological aspects of visual perception. I. Functional aspects of visual cortex. Arch. Neurol. 1976; 22: 219–227
  • Denny-Brown D., Fisher E. G. Physiological aspects of visual perception. II. The subcortical visual direction of behavior. Arch. Neurol. 1976; 33: 228–241
  • Visual Evoked Potentials in Man, J. E. Desmedt. Clarendon Press, Oxford 1977
  • Desmedt J. E. Nature of focal lesions and localization of skin stimulation influence pattern and distribution of somatosensory evoked potentials (SEP): Forensic and clinical uses. Neurology 1979; 29: 585–586
  • Desmedt J. E., Brunhoe J., Debecker J. Maturation of the somatosensory evoked potentials in normal infants and children, with special reference to the early N I component. Electroenceph. clin. Neurophysiol. 1978; 45: 602–610
  • Desmedt J. E., Eron Ch. G. Somatosensory evoked potentials in man: subcortical and cortical components and their neural bases. Ann. N.Y. Acad. Sci. 1982; 388: 388–410
  • Desmedt J. E., Noel P. Average cerebral evoked potentials in the evaluation oflesionsofthe sensory nerves and the central somatosensory pathways. New Developments in Electromyography and Clinical Neuro physiology, J. E. Desmedt. Karger, Basel 1973; Vol. 2: 352–371
  • DeVries-Khoe L. H., Spekreijse H. Maturation of luminance and pattern EPs in man. Docum. ophthal. Proc. Series, G. Neimeyer, Ch. Huber. Junk, The Hague 1982; Vol 31: 461–475
  • Diener Ch. H., Scheibler H. Follow up studies of visual potentials in multiple sclerosis evoked by checkerboard and foveal stimulation. Electroenceph. clin. Neurophysiol. 1980; 49: 490–496
  • Drance S. M., Lakowski R., Schulzer M. Acquired color vision changes in glaucoma. Arch. Ophthal. 1981; 99: 829–831
  • Duchowny M. S., Weiss P., Heshmatolah M. Visual evoked responses in childhood cortical blindness after head trauma and meningitis. Neurology. (Minneapolis) 1974; 24: 933–940
  • Dyer R. S., Howell W. E., Macphail R. C. Dopamine depletion slows retinal transmission. Exp. Neurol. 1981; 71: 326–340
  • Ehle A. L., Stewart M., Lelleilid N., Leventhal N. A. Normal checkerboard pattern reversal evoked potentials in Parkinsonism. Electroenceph. clin. Neurophysiol. 1982; 54: 336–338
  • Eisen A. The somatosensory evoked potential. Canad. J. neurol. Sci. 1982; 9: 65–77
  • Eisen A., Cracco R. Q. Overuse of evoked potentials: Caution. Neurology 1983; 33: 618–621
  • Eisen A., Elleker G. Sensory nerve stimulation and evoked cerebral potentials'. Neurology (Minneapolis). 1980; 30: 1097–1105
  • Eisen A., Odusote K. Central and peripheral conduction times in multiple sclerosis. Electroenceph. clin. Neurophysiol. 1980; 48: 253–265
  • Eisen A., Paty D. W., Hashimoto S. A. Somatosensory potentials evoked by segmental sensory stimulation in optic neuritis. Internat. Congr. Ser. No. 548, Elsevier-North Holland, Amsterdam 1981; 92
  • Ellingson R. J., Lathrop G. H., Danaby T. Variability of visual evoked potentials in human infants and adults. Electroenceph. clin. Neurophysiol. 1973; 34: 113–124
  • Enoch J. M., Campos E. C., Greer M. Measurement of visual resolution at high luminance levels in patients with possible demyelinating disease. Proc. int. Ophthal. and Optics Symp., Tokyo, 1978, 67–72
  • Fish M, An R. S., Copenhaver R. M. Macular disease and amblyopia: the evoked visual response. Arch. Ophthal. 1967; 77: 718
  • Frank Y., Torres F. Visual evoked potentials in the evaluation of cortical blindness in children. Ann. Neurol. 1979; 6: 126–129
  • Freeman R. D., Bradley A. Monocularly deprived humans: nondeprived eye has supernormal vernier acuity. J. Neurophysiol. 1645; 43: 1980
  • Galambos R., Despland P. A. The auditory brain response (ABR) is a useful diagnostic tool in the intensive care nursery. Pediat. Res. 1980; 14: 154–158
  • Galambos R., Makeig S., Talmachoff P. J. A 40 Hzauditory potential recorded from the human scalp. Proc. nat. Acad. Sci. USA 1981; 78: 2643–2647
  • Galvin R. J., Heron J. R., Regan D. Subclinical optic neuropathy in multiple sclerosis. Arch. Neurol. 1977; 34: 666–670
  • Galvin R. J., Regan D., Heron J. R. A possible means of monitoring the progress of demyelination in multiple sclerosis: effect of body temperature on visual perception of double light flashes. J. Neurol. Neurosurg. Psychiat. 1976a; 39: 861–865
  • Galvin R. J., Regan D., Heron J. R. Impaired temporal resolution of vision after acute retrobulbar neuritis. Brain 1976b; 99: 255–268
  • Gangitano J. L., Keltner J. L. Abnormalities of the pupil and visual evoked potentials in quinine amblyopia. Amer. J. Ophthal. 1980; 89: 425–430
  • Gawel M. J., Das P., Vincent S., Rose F. C. Visual and auditory evoked response in patients with Parkinson's disease. J. Neurol. Neurosurg. Psychiat. 1981; 44: 227–232
  • Georgeson M., Sullivan G. D. Contrast constancy: deblurringin human vision by spatial frequency channels. J. Physiol. 1975; 252: 627–656
  • Giblin D. R. Somatosensory evoked potentials in healthy subjects and in patients with lesions of the nervous system. Ann. N. Y. Acad. Sci. 1964; 122: 93–142
  • Goff W. R., Allison T., Shapiro A. Cerebral somatosensory responses evoked during sleep in man. Electroenceph. clin. Neurophysiol. 1966; 21: 1–9
  • Goff W. R., Rosner B. S., Allison T. Distribution of somatosensory evoked responses in normal man. Electroenceph. clin. Neurophysiol. 1962; 14: 697–713
  • Goff W. R., Williamson P. D., Van Gilder J. C. Neural origins of longlatencyevoked potentials recorded from the depth and from the cortical surface of the brain in man. Clinical Uses of Cerebral, Brainsrem and Spinal Somatosensory Evoked Potentials, J. E. Desmedt. Karger, Basel 1980; Vol 7, Prog clin. Neurophysiol.
  • Goldie W. D., Chiappa K. H., Young R. R., Brooks E. B. Brainstem auditory and short latency somatosensory evoked responses in brain death. Neurology J (New York) 1981; 31: 248–256
  • Greenberg R. P., Newlon P. G., Becker D. P. The somatosensory evoked potential in patients with severe head injury: outcome prediction and monitoring of brain function. Ann. N. Y. Acad. Sci. 1982; 388: 683–688
  • Gstalder R. J., Green D. G. Laser interferometric acuity in amblyopia. J. ped. Ophthal. 1971; 8: 251–253
  • Guillery R. W. Visual pathways of albinos. Scient. Amer. 1974; 230: 44
  • Guillery R. W., Okoro A. N., Witkop C. J., Jr. Abnormal visual pathways in the brain of a human albino. Brain Res. 1975; 96: 373
  • Haldeman S., Bradley W. E., Johnson B. H. Pudendal somatosensory evoked potentials (PER). Neurology 1981; 31: 152
  • Evoked Potentials in Clinical Testing, A. M. Halliday. Churchill Livingstone, New York 1983
  • Halliday A. M., McDonald W. I., Mushin J. Delayed visual evoked responses inoptic neuritis. Lancet 1972; 1: 982–985
  • Halliday A. M., McDonald W. I. Pathophysiology of multiple sclerosis. Brit. med. Bull. 1977; 33: 21–27
  • Halliday A. M., McDonald W. I., Mushin J. Visual evoked responses in the diagnosis of multiple sclerosis. Brit. med. J. 1973; 4: 661–664
  • Halliday A. M., McDonald W. I., Mushin J. Delayed pattern evoked responses in progressive spastic paraplegia. Neurology (Minneapolis) 1974; 24: 360–361
  • Halliday A. M., McDonald W. L., Mushin J. Visual evoked potentials in patients withdemyelinating disease. Visual Evoked Potentials in Man, J. E. Desmedt. Clarendon Press, Oxford 1977
  • Halliday A. M., Michael W. F. Changes in the pattern-evoked responses in man associated with the vertical and horizontal meridians of the visual field. J. Physiol. (London) 1970; 208: 499–513
  • Happel L. T., Rothschild H., Garcia C. Visual evoked potentials in two forms of hereditary spastic paraplegia. Electroenceph. clin. Neurophysiol. 1980; 48: 233–236
  • Harding T. H., Wiley R. W., Kirby A. W. A cholinergic-sensitive channel in the cat visual system tuned to low spatial frequencies. Science 1983; 221: 1076–1078
  • Harter M. R., Sultt C. D. Visually evoked cortical responses and pattern vision in the infant: a longitudinal study. Psychon. Sci. 1980; 18: 235–237
  • Harter M. R., White C. T. Effects of contour sharpness and check size on visually evoked cortical potentials. Vision Res. 1968; 8: 701–711
  • Hashimoto I., Ishiyama Y., Yoshimoto T. Brainstem auditory evoked potentials recorded directly from human brainstem and thalamus. Brain 1981; 104: 841–859
  • Herivel J. Joseph Fourier. Clarendon Press, Oxford 1975
  • Heron J. R., Regan D., Milner B. A. Delay in visual perception in unilateral optic atrophy after retrobulbar neuritis. Brain 1974; 97: 69–78
  • Hess R. F., Bradley A. Contrast perception above threshold is only minimally impaired in human amblyopia. Nature 1980; 287: 464–466
  • Hess R., Campbell F., Zimmern R. Differences in the neural basis of human amblyopias: the effect of mean luminance. Vision Res. 1980; 20: 295–305
  • Hess R. F. Contrast coding in amblyopia. II. On the physiological basis of contrast recruitment. Proc. roy. Soc. Lond. B 1983; 207: 334–340
  • Hess R. F., Campbell F. W., Greenhalgh T. On the neuralabnormality in humanamblyopia: neural aberrations and neural sensitivity to loss. Pflüg. Arch. ges. Physiol. 1978; 377: 201
  • Hillyard S. A., Picton T. W., Regan D. Sensation, perceptionandattention:analysis using ERPs. Event-Related Brain Potentials in Man, F. Callaway, P. Tuetingand, S. H. Kowlow. Academic Press, New York 1978
  • Huber C., Wagner T. Electrophysiological evidence for glaucomatous lesions in the optic nerve. Ophthal. Res. 1978; 10: 22–29
  • Ikeda H., Tremain K. E., Sanders M. D. Neurophysiological investigation in optic nerve disease: combined assessment of the visual evoked response and electroretinogram. Brit. J. Ophthal. 1978; 62: 227–239
  • Jeffreys D. A. The physiological significance of pattern visual evoked potentials. Visual Evoked Potentials in Man, J. E. Desmedt. Clarendon Press, Oxford 1977
  • Jeffreys D. A., Axford J. G. Source location of pattern specific components of human visual evoked potentials. Exp. Brain. Res. 1972; 16: 1–21; 22–40
  • Jones F. J. Investigation of brachial plexus traction lesions by peripheral and spinal somatosensory evoked potentials. J. Neurol. Neurosurg. Psychiat. 1979; 42: 107–116
  • Jones F. J. Clinical applications of short-latency somatosensory evoked potentials. Ann. N. Y. Acad. Sci. 1982; 388: 369–387
  • Jones F. J., Small D. G. Spinal and subcortical evoked potentials following stimulation of the posterior tibial nerve in man. Eleciroenceph. clin. Neurophysiol. 1978; 44: 299–306
  • Julesz B., Kropfl W., Petrig B. Large evoked potentials to dynamic random dot correlograms and stereograms permit quick determination of stereopsis. Proc. nat. Acad. Sci. (Washington) 1980; 77: 2348–2351
  • Kennard C., Gawel M., Dem Rudolph N. Visual evoked potentials in migraine subjects. Research and Clinical Studies in Headache, A. P. Friedman, M. Granger, M. Critchley. Karger, Basel 1978; Vo 16
  • Kooi K. A., Sharbrough F. W. Electrophysiological findings in cortical blindness. Electroenceph. clin. Neurophysiol. 1966; 20: 260–263
  • Kriss A., Carroll W. M., Blumhardt L. D. Pattern and flash evoked changes in toxic (nutritional) optic neuropathy. Clinical Applications of Evoked Potentials in Neurology, J. Courjon, F. Mauguiere, M. Revol. Raven Press, New York 1982
  • Kupersmith M. J., Seiple W. H., Nelson J. I. VEP defined orientation losses in multiple sclerosis. Invest. Ophthal. vis. Sci. Suppl. 1983; 24: 60
  • Kupersmith M. J., Shakn E., Siegel I. M., Lieberman A. Visual systemabnormalities in patients with Parkinson's disease. Arch. Neurol. 1982; 39: 284–286
  • Kuroiwa Y., Celesia G. G. Visual evoked potentials with hemifield pattern stimulation. Arch. Neurol. 1981; 38: 86–90
  • Lehmann D., Julesz B. Lateralised cortical potentials evoked in humans by dynamic random-dot stereograms. Vision Res. 1978; 18: 1265–1271
  • Levi D. M. Do VEP studies reveal amblyopic abnormalities not readily apparent in psychophysical tests. Proc. N. Y. Acad. Sci, I. Bodiss-Wollner, 1981; 615–620
  • Levi D. M., Harwerth R. S. Contrast evoked potentials in strabismic and anisometropic amblyopia. Invest. Ophthal. vis. Sci. 1978; 17: 571–575
  • Levi D. M. Patterned and unpatterned VERs in anisometropic amblyopia. Amer. J. Optom. phys. Optics 1975; 52: 571–575
  • Levi D. M., Klein S. Difference in vernier discrimination for gratings betweenstrabismus and anisometropic amblyopes. Invest. Ophthal. vis. Sci. 1982a; 23: 398–407
  • Levi D. M., Klein S. Hyperacuity and amblyopia. Nature 1982b; 298: 268–270
  • Levi D. M., Manny R. E., Klein S. A., Steinm An S. B. Electrophysiological correlates of hyperacuity in the human visual cortex. Nature 1983; 306: 468–470
  • Levi D. M., Murray R. E. The pathophysiology of amblyopia: electrophysiological studies. Ann. N. Y. Acad. Sci. 1981
  • Livingstone I. R., Mastaglia F. L., Howe J. W. Leber's optic neuropathy: clinical and visual evoked response studies in asymptomatic and symptomatic members of a 4-generation family. Brit. J. Ophthal. 1980; 64: 751–757
  • Livingstone I. R., Mastaglia F. L., Edis R., Howe J. W. Pattern evoked responses in hereditary spastic paraplegia. J. Neurol. Neurosurg. Psychiat. 1981; 44: 176–178
  • Lodge A., Armington J. C., Barnet A. G. Newborn infants' electroretinograms and evoked electroencephalographic responses to orange and white light. Child Developm. 1969; 40: 267–293
  • Loshin D. S., Levi D. M. Suprathreshold contrast perception in functional amblyopia. Docum. ophthal. (The Hague) 1983; 55: 213–236
  • Ludlam W., Meyers R. R. The use of visual evoked responses in objective refraction. Ann. N.Y. Acad. Sci. 1972; 34: 154
  • Manny R. E., Levi D. M. The visually evoked potential in humans with amblyopia: pseudorandom modulation of uniform field and sine-wave gratings. Exp. Brain Res. 1982; 47: 15–27
  • Marc E., Freeman D. N., Peltzman P. Visual acuity development in human infants: evoked potential measurements. Invest. Ophthal. 1976; 15: 150–153
  • Mastaglia F. L., Black J. L., Carla L. A. The contribution of visual and somatosensory evoked potentials and quantitative electro-oculography in the diagnosis of multiple sclerosis. Evoked Potentials, C. Barber. MTP Press, LancasterUK 1980
  • Maspaglia F. L., Black J. L., Collins D. W. K. Visual and spinal evoked potentials in diagnosis of multiple sclerosis. Brit. med. J. 1976; 2: 732
  • Matphews W. B., Beauchamp M., Small D. G. Cervical somatosensory evoked responses in man. Nature 1974; 52: 230–232
  • Matthews W. B., Read D. J., Pountney E. Effect of raising body temperature on visual and somatosensory evoked potentials in patients with multiple sclerosis. J. Neurol. Neurosurg. Psychiat. 1979; 42: 250–255
  • Matthews W. B., Small D. G. Serial record ing of visual and somatosensory evoked potentials in multiple sclerosis. J. neurol. Sci. 1979; 40: 11–21
  • Matthews W. B., Wattam-Bell J. E. B., Pountney E. Evoked potentials in the diagnosis of multiple sclerosis: a follow up study. J. Neurol. Neurosurg. Psychiar. 1982; 45: 303–307
  • McDonald W. I. Pathophysiology in multiple sclerosis. Brain 1974; 97: 179–196
  • Michael W. F., Halliday A. M. Differences between the occipitaldistributionoftheupperandlowerfield pattern-evoked responses in man. Brain Res. 1971; 32: 311–329
  • Millodot M., Newton I. VEP measurement of the amplitude of accommodation. Brit. J. Ophthol. 1981; 65: 294–298
  • Millodot M., Riggs L. A. Refractiondeterminedelectrophysiologically. Arch. Ophthal. 1970; 84: 272–278
  • Milner B., Regan D., Heron J. R. Theoretical models of the generation of steady-state evoked potentials, their relation to neuroanatomy and their relevance to certain clinical problems. Advance. Med. Biol. 1972; 24: 157–169
  • Milner B. A., Regan D., Heron J. R. Differential diagnosis of multiple sclerosis by VEP recording. Brain 1974; 97: 755–712
  • Moskowitz A., Sokol S. Spatial and temporal interaction of pattern-evoked cortical potentials in human infants. Vision Res. 1980; 20: 699–707
  • Moskowitz A., Sokol S. Developmental changes in the human visual system as reflected by the latency of the pattern reversal VEP. Electroenceph. clin. Neurophysiol. 1983; 56: 1–15
  • Namerow N. S., Sclabassi R. J., Enns N. F. Somatosensory responses to stimulus trains: normative data. Electroenceph. clin. Neurophysiol. 1974; 37: 11–21
  • Nawratzki I., Auerbach E., Rowe H. Amblyopia ex anopsia; the electrical response in retina and occipital cortex following photic stimulation of normal and amblyopic eyes. Amer. J. Ophthal. 1966; 61: 430–435
  • Neima D., Regan D. Pattern visual evoked potentials and spatial vision in retrobulbar neuritis and multiple sclerosis. Arch. Neurol. 1984; 41: 198–201
  • Neima D., Regan D. Serial recording of contrast sensitivity, visual acuity and visual evoked potentials in suspected multiple sclerosis. J. neurol. Sci. 1985, in preparation
  • Nelson J. I., Seiple W. H., Kupersmith M. J. A rapid evoked potential index of cortical adaptation, In press
  • Noel P., Desmedt J. E. Cerebral and farfield somatosensory evoked potentials in neurological disorders involving the cervical spinal cord, brainstem, thalamusand cortex. Clinical Uses of Cerebral. Brainstem and Spinal Somarosensory. Evoked Potentials, J. E. Desmedt. Karger, Basel 1980; Vol 7, Prog. clin. Neurophysiol
  • Norcia A. M., Tyler C. W. Infant VEP acuity measurements: Analysis of individual differences and measurement error 1985, in preparation
  • Noseworthy J. H., Miller J., Murray T. J. Auditory brainstem response in postconcussion syndrome. Arch. Neurol. 1981; 38: 275–278
  • Nuwaer M. R., Perlman S. L., Packwood J. W. Evoked potential abnormalities in the various inherited ataxias. Ann. Neurol. 1983; 13: 20–27
  • Onofrj M., Bodis-Wollner I. Dopaminergic deficiency causes delayed visual evoked potentials in rats. Ann. Neurol. 1982; 11: 484–490
  • Onofrj M., Bodis-Wollner I., Mylin L. Visualevoked potential diagnosis of field defects in patients with chiasmic and retrochiasmic lesions. J. Neurol. Neurosurg. Psychiat. 1982
  • Persson H. E., Sachs C. Visual evoked potentials elicited by pattern reversal during provoked visual impairment in multiple sclerosis. Brain 1981; 104: 369–382
  • Phillips K. R., Potvin A. R., Syndulko K. Multimodality evoked potentials and neurophysiological tests in multiple sclerosis. Arch. Neurol. 1983; 40: 159–164
  • Picton T. W. The use of humanevent related potentials in psychology. Techniques in Psycho physology, P. Venables, I. Martin. Wiley, New York 1985, in press
  • Human Event-Related Potentials, T. Picton. Elsevier, Amserdam 1985, in press
  • Potts A. M., Nagaya T. Studies on the visual evoked response: III. Strabismusamblyopia and hysterical amblyopia. Docum. ophthal. (The Hague) 1969; 26: 394–402
  • Pritchard W. S. Psychophysiology of P300. Psychol. Bull. 1981; 89: 506–541
  • Pugh M. Visual distortions in amblyopia. Brit. J. Ophthal. 1958; 42: 449–454
  • Purves S. J., Lowe M. D., Galloway J. A comparison of visual, auditory, and somatosensory evoked potentials in multiple sclerosis. Canad J. neurol. Sci. 1981; 8: 15–19
  • Rasminsky M. The effects of temperature on conduction in demyelinated single nerve fibers. Arch Neurol. (Chicago) 1973; 28: 287–292
  • Regan D. Some characteristics of average steady-state and transient responses evoked by modulated light. Electroenceph. clin. Neurophysiol. 1966; 20: 238–248
  • Regan D. A high frequency mechanism which underlies visual evoked potentials. Electroenceph. clin. Neurophysiol. 1968; 25: 231–237
  • Regan D. Evoked Potentials in Psychology, Sensory, Physiology and Clinical Medicine. Chapman & Hall; Wiley, London, New York 1972
  • Regan D. Parallel and sequential processing of visual information in man. Photophysiology. Academic Press, New York 1973a; Vol. 8
  • Regan D. Evoked potentials specific to spatial patterns of luminance and colour. Vision Res. 1973b; 13: 2381–2402
  • Regan D. Rapid objective refraction using evoked brain potentials. Invest. Ophthal. 1973c; 12: 669–679
  • Regan D. Electrophysiological evidence for colour channels in human pattern vision. Nature 1974; 250: 437–439
  • Regan D. Colour coding of pattern responses in man investigated by evoked potential feedback and direct plot techniques. Vision Res. 1975; 15: 175–183
  • Regan D. Steady state evoked potentials. J. opt. Soc. Amer. 1977a; 67: 1475–1489
  • Regan D. Speedy assessment of visual acuity in amblyopia by the evoked potential method. Ophthalmologica 1977b; 175: 159–164
  • Regan D. Assessment of visual acuity by evoked potential recording: ambiguity caused by temporal dependence of spatial frequency selectivity. Vision Res. 1978; 18: 439–445
  • Regan D. Speedy evoked potential methods for assessing vision in normal and amblyopic eyes: pros and cons. Vision Res 1980; 20: 265–269
  • Regan D. Comparison of transient and steady-state methods. Proc. N.Y. Acad. Sci. 1982a; 388: 46–71
  • Regan D. Visual information channeling in normal and disordered vision. Psych. Rev. 1982b; 89: 407–444
  • Regan D. Evoked Potentials in Science and Medicine. Chapman & Hall; Wiley, London, New York 1985
  • Regan D., Beverley K. I. Electrophysiological evidence for the existence of neurones sensitive to the direction of depth movement. Nature 1973; 246: 504–506
  • Regan D., Beverley K. I. Spatial frequency discrimination and detection: comparison of postadaptation thresholds. J. opt. Soc. Amer. 1983; 73: 1684–1690
  • Regan D., Beverley K. I. Figure-ground segregation by motion contrast and by luminance contrast. J. opt. Soc. Amer. 1984; 1: 433–442
  • Regan D., Beverley K. I., Macpherson H. Pattern visual evoked potentials in amblyopic children. Proc. 2nd Int. Evoked Potential Conf., Cleveland, 1984
  • Regan D., Heron J. R. Clinical investigation of lesions of the visual pathway: a new objective technique. J. Neurol. Neurosurg. Psychiat. 1969; 32: 479–483
  • Regan D., Heron J. R. Simultaneous recording of visual evoked potentials from the left and right hemispheres. Background to Migraine, A. L. Cochrane. Heinemann, London 1970
  • Regan D., Milner B. A. Objective perimetry by evoked potential recording: limitations. Electroenceph. din. Neurophysiol. 1978; 44: 393–397
  • Regan D., Milner B. A., Heron J. R. Delayed visual perception and delayed visual evoked potentials in the spinal form of multiple sclerosis and in retrobulbar neuritis. Brain 1976a; 99: 43–66
  • Regan D., Murray T. J., Silver R. Effect of body temperature on visual evoked potential delay and visual perception in multiple sclerosis. J. Neurol. Neurosurg. Psychiar. 1977a; 40: 1083–1091
  • Regan D., Neima D. Low-contrast letter charts as a test of visual function. Ophthalmology 1983; 90: 1192–1200
  • Regan D., Neima D. Visual fatigue and VEPs in multiple sclerosis, glaucoma, ocular hypertension and Parkinson's disease. J. Neurol. Neurosurg. Psychiat. 1984; 47: 673–678
  • Regan D., Regal D., Tibbles J. A. R. Evoked potentials during recovery from blindness recorded serially from an infant and his normally sighted twin. Electroenceph. clin. Neurophysiol. 1982; 54: 465–468
  • Regan D., Richards W. Brightness contrast and evoked potentials. J. opt. Soc. Amer. 1973; 63: 606–611
  • Regan D., Silver R., Murray T. J. Visual acuity and contrast sensitivity in multiple sclerosis: hidden visual loss. Brain 1977b; 100: 563–579
  • Regan D., Spekreijse H. Electrophysiological correlate of binocular depth perception in man. Nature 1970; 255: 92–94
  • Regan D., Varnay P., Purdy J. Visual field analyser: assessment of delay and temporal resolution of vision. Med. Biol. Eng. 1976b; 14: 8–14
  • Regan D., Whitlock J. A., Murray T. J. Orientation specific losses of contrast sensitivity in multiple sclerosis. Invest Ophthal. vis. Sci. 1980; 19: 324–328
  • Richards W., Regan D. A stereo field map with implications for disparity processing. Invest. Ophthal. 1973; 12: 904–909
  • Riemslag F. C. C., Spekreijse H., Van Walbeek H. Patternevoked potential diagnosis of multiple sclerosis: a comparison of various contrast stimuli. Adv. Neurol. 1982; 32: 417–426
  • Robinson K., Rudge R. Auditory evoked responses in multiple sclerosis. Lancet 1975; 1: 1164–1166
  • Robinson K., Rudge R. The stability of the auditory evoked potentials in normal man and patients with multiple sclerosis. J. neurol. Sci. 1978; 36: 147–156
  • Ronchi L., Millodot M. Thecorticalcounterpartofthechromaticaberrationoftheeye. Amer. J. Optom. 1974; 51: 635–641
  • Rowe M. J. Normal variability of the brainstem auditory evoked response in young and old adult subjects. Electroenceph. clin. Neurophysiol. 1978; 144: 459–480
  • Rowe M. J. The clinical utility of half-field pattern reversal visual evoked potential testing. Electroenceph. clin. Neurophysiol. 1982; 53: 73–77
  • Rowe M. J., III, Carlson C. Brainstem auditory evoked potentials in postconcussion dizziness. Arch. Neurol. 1980; 37: 679–683
  • Schimmel H. The reference: accuracy of estimated mean components in the averaged response studies. Science 1967; 157: 92–94
  • Schreinemachers H. P., Henkes H. E. Relation between localized retinal stimuli and the visualevoked response in man. Ophthalmologica 1968; 155: 17–27
  • Schulman-Galambos C., Galambos R. Brain stem auditory-evoked response audiometry in premature infants. J. Speech Hear. Res. 1975; 18: 456–465
  • Shaw N. A., Cant B. R. The effect of pentobarbital on central somatosensory conduction times in the rat. Electroenceph. clin. Neurophysiol. 1981; 51: 674–677
  • Shipley T. The visually evoked occipitogram in strabismicamblyopia under direct view ophthalmoscopy. J. ped. Ophthal. 1969; 6: 97–112
  • Small D. G., Matthews W. B., Small M. Subcortical somatosensory evoked potentials in multiple sclerosis. Electroenceph. clin. Neurophysiol. 1977; 43: 536
  • Small D. G., Matthews W. B., Small M. The cervical somatosensory evoked potential (SEP) in the diagnosis of multiple sclerosis. J. neurol. Sci. 1978; 35: 211–274
  • Smith L. E., Simmons F. B. Accuracy of auditory brainstem evoked response with hearing level unknown. Ann. Orol. Rhinol. 1982; 94: 266–267
  • Sokol S. Measurement of infant visual acuity from pattern reversal evoked potentials. Vis. Res. 1978; 18: 33–39
  • Sokol S. Abnormal evoked potential latencies in amblyopia. Brit. J. Ophthal. 1983; 67: 310–314
  • Sokol S., Bloom B. Visually evoked cortical responses of amblyopes to a spatially alternating stimulus. Invest. Ophthal. vis. Sci. 1973; 12: 936–939
  • Sokol S., Dobson V. Pattern reversal visually evoked potentials in infants. Invest. Ophthal. 1976; 15: 58–62, SOKOL, S., H ANSEN, V. G., MOSKOWITZ, A., GREENFIELD, P. & TOWLE, V. L.: Evoked potential and preferential looking estimates of visual acuity in pediatric patients. Ophthalmology 90: 552–562, 1983
  • Sokol S., Jones K. Implicit time of pattern evoked potentials in infants: an index of maturation of spatial vision. Vision Res. 1979; 19: 747–755
  • Sokol S., Oskowitz-Cook M. A. Effect of retinal blur on the peak latency of the pattern evoked potential. Vision Res. 1981; 21: 1279–1286
  • Sokol S., Nadler D. Simultaneous electroretinograms and visually evoked potentials from adult amblyopes in response to a pattern stimulus. Invest. Ophthal. vis. Sci. 1979; 18: 848–855
  • Spekreijse H. Analysis of EEG Responses in Man. Junk, Den Haag 1966
  • Spekreijse H. Maturation of contrast EPsand development of visual resolution. Arch. ital. Biol. 1978; 116: 358–369
  • Spekreijse H. Patternevoked potentials: principles, methodologyand phenomenology. Evoked Potentials, C. Barber. MTP Press, LancasterUK 1980
  • Spekreijse H., Estevez O., Reits D. Visual evoked potentials and the physiological analysis of visual processes in man. Visual Evoked Potentials in Man, J. E. Desmedt. Clarendon Press, Oxford 1977
  • Spekreijse H., Khoe L. H., Van Der Tweel L. H. A case of amblyopia; electrophysiology and psycho physics of luminance and contrast. The Visual System, G. B. Arden. Plenum Press, New York 1972, Proc. 9th ISCERG Symp.
  • Srebro R., Sokol B., Wright W. The power spectra of visually evoked potentials to pseudorandom contrast reversals of gratings. Electroenceph. clin. Neurophysiol. 1981; 51: 63–68
  • Srebro R., Wright W. W. Visually evoked potentials to pseudorandom binary sequence stimulation. Arch. Ophthal. 1980; 98: 296–298
  • Srebro R., Wright W. Pseudorandom sequences in the study of evoked potentials. Ann. N. Y. Acad. Sci. 1982; 388: 98–112
  • Stapells D. R., Linden D., Suffield J. B. Human auditory steady state potentials. Ear and Hearing 1985, in press
  • Starr A., Amlie R., Martin W. Development of auditory function in newborn infants revealed by auditory brainstem potentials. Pediatrics 1977; 60: 831–839
  • Starr A., Don M. Auditory evoked potentials. Human Event-Related Potentials, T. Picton. Elsevier, Amsterdam 1985, in press
  • Starr A., Hamilton A. E. Correlation between confirmed sites of neurological lesions and abnormalities of far-field auditory brain stem responses. Electroenceph. clin. Neurophysiol. 1976; 41: 594–608
  • Steinman S. B., Levi D. M., Manny R. E., Klein S. A. Specificity of the evoked potential for vernier offsets. Vision Res. 1985, in press
  • Stockard J. J., Stockard J. E., Sharbrough F. W. Detection and localization of occult lesions with brainstem auditory responses. Mayo Clin. Proc. 1977; 52: 761–769
  • Stockard J. J., Stockard J. E., Sharbrough F. W. Brainstem auditory evoked potentials in neurology: methodology, interpretation, clinical application. Electrodiagnosis in Clinical Neurology, M. J. Aminoff. Churchill Livingstone, New York 1979; 370–413
  • Streletz L. J., Bae S. H., Roeshman R. M. Visual evoked potentials in occipital lobe lesions. Arch. Neurol. 1981; 38: 80–85
  • Tackmann W., Radu E. W. Pattern shift visualevoked potentials in charcot-Marie-Tooth disease, HMSN type 1. J. Neurol. 1980; 224: 71–74
  • Tartaglione A., Pizio N., Bino G., Spadaccia L., Favale E. VEP changes in Parkinson's disease are stimulus dependent. J. Neurol. Neurosurg. Psychiat. 1984; 47: 305–307
  • Taylor W. O. G. Visual disabilities of oculocutaneous albinism and their alleviation. Trans. ophthal. Soc. UK 1978; 98: 423
  • Teller D. Y., Morse R., Borton R., Regal D. Visual acuity for vertical and diagonal gratings in human infants. Vision Res. 1974; 14: 1433–1439
  • Thomas J., Mohindra I., Held R. Strabismic amblyopia infants. Amer. J. Optom. physiol. Opt. 1979; 56: 197–201
  • Towle V. L., Moskowitz A., Sokol S., Schwartz B. Abnormal color vision and VEPs in ocular hypertension and glaucoma. Invest. Ophthal. vis. Sci. Suppl. 1982; 22: 258
  • Tyler C. W. Specific defects of flicker sensitivity in glaucoma and ocular hypertension. Invest. Ophthol. vis. Sci. 1981; 20: 204
  • Tyler C. W., Apkarian P., Levi D. M. Rapid assessment of visual function: an electronic sweep technique for the pattern visual evoked potential. Invest. Ophthal. vis. Sci. 1979; 18: 703–713
  • Tyler C. W., Apkarian P., Nakayama K. Multiple spatial-frequency tuning of electrical responses from human visual cortex. Exp. Brain. Res. 1978; 33: 535–550
  • Van der Tweel L. H., Lunel Verduyn H. F. E. Human visual responses to sinusoidally modulated light. Electroenceph. clin. Neurophysiol. 1965; 18: 587–598
  • Van der Tweel L. H., Regan D., Spekreijse H. (1971) Some aspects of potentials evoked by changes in spatial brightness contrast. 7th ISCERG Symp., Istanbul, 1969. Publ. by Univ. of Istanbul
  • Westheimer G. The spatial sense of the eye. Invest. Ophthal. vis. Sci. 1979; 18: 893
  • Westheimer G., Shimamur A. K., McKee S. Interference with line-orientation sensitivity. J. opt. Soc. Amer. 1976; 66: 332–338
  • Wilcox L. M., Sokol S. Changes in the binocular fixation patterns and the visually evoked potential in the treatment of esotropia with amblyopia. Ophthalmology 1980; 87: 1273–1281
  • Wilson H. R., Gelb D. J. Modified line element theory for spatial frequency and width discrirnination. J. opt. Soc. Amer. 1984; 1: 124–131
  • Wilson W. B., Keyser R. B. Comparison of the pattern and diffuse-light visualevoked responses indefinite multiple sclerosis. Arch. Neurol. 1980; 37: 30–34
  • Wolkstein M., Atkin A., Bodis-Wollner I. Contrast sensitivity in retinal disease. Ophthalmology 1980; 87: 1140–1149
  • Cortical Sensory Organization, Vol. I: Multiple Somatic Areas, C. N. Woolsey. Hurnana Press, Clinton, NJ 1981
  • Yamada T., Kimura J., Young S. Somatosensoryevoked potentials elicited by bilateral stimulation of the median nerve and its clinical application. Neurology (Minneapolis) 1978; 28: 218–223
  • Zimmern R. L., Campbell F. W., Wilkinson I. M.S. Subtledisturbancesof vision after optic neuritis elicited by studying contrast sensitivity. J. Neurol. Neurosurg. Psychiat. 1979; 42: 507–512

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.