References
- Duffy F. H., Burchfiel J. L., Lombrosso C. T. Brain electrical activity mapping (BEAM): A method for extending the clinical utility of EEG and evoked potential data. Ann. Neurol. 1979; 5: 309–321
- Kawashima S. Studies on short latency visual evoked potentials. 1. Evaluation of the electrical detecting methods. Folia ophthal. JPN 1983; 34: 1663–1669
- Kawashima S. Studies on the short latency visual evoked potential. 2. Evaluation of the Fourier and dynamic topographical analysis. Acta Soc. ophthal. JPN 1984a; 88: 909–916
- Kawashima S. Studies on short latency visual evoked potential. 3. Evaluation of four-dimensional topographical analysis. Folia ophthal. JPN 1984b; 35: 978–982
- Lehmann D., Meles H. P., Mir Z. Average multichannel EEG potential fields evoked from upper and lower hemi-retina: Latency difference. Electroenceph. clin. Neurophysiol. 1977; 43: 725–731
- Tsutsui J., Ichihashi K., Kimura H. Dynamic topography of visual evoked potentials and extrageniculate projection in case of Riddoch phenomenon. Jpn. J. Ophthal. 1984; 28: 20–30
- Tsutsui J. Dynamic topography of visual evoked potentials: A clinical application with basic study. Acta Soc. ophthal. JPN 1985; 89: 86–131
- Tsutsui J., Kawashima S. Dynamic topography of the human short latency visual evoked potentials. Neuro-Ophthalmology (Amsterdam) 1985; 5: 155–160