SangalRBSangalJM. Topography of auditory and visual P300 in normal children. Clin Electroencephalogr1996; 27: 46–51.
2.
GoodinDSSquiresKCHendersonBH. Age-related variations in evoked potentials to auditory stimuli in normal human subjects. Electroencephalogr Clin Neurophysiol1978; 44: 447–458.
3.
MullisRJHolcombPJDinerBC. The effects of aging on the P3 component of the visual event-related potential. Electroencephalogr Clin Neurophysiol1985; 62: 141–149.
4.
OkadaYCKaufmanLWilliamsonSJ. The hippocampal formation as a source of the slow endogenous potentials. Electroencephalogr Clin Neurophysiol1983; 55: 417–426.
5.
FauxSFTorelloMMcCarleyR. P300 in schizophrenia: Confirmation and statistical validation of temporal region deficit in P300 topography. Biol Psychiatry1988; 23: 776–790.
6.
CourchesneEHillyardSAGalambosR. Stimulus novelty, task relevance, and the visual evoked potential in man. Electroencephalogr Clin Neurophysiol1975; 39: 131–143.
7.
NunezPLPilgreenKL. The Spline-Laplacian in Clinical Neurophysiology, a method to improve spatial EEG resolution. J Clin Neurophysiology1991; 8: 397–413.
8.
VerlegerR. Event-related potentials and cognition: A critique of the context updating hypothesis and an alternative interpretation of the P3. Behav Brain Sci1988; 11: 343–347.
9.
BroughtonRAguirreMDunhamWA. Comparison of multiple and single sleep latency and cerebral evoked potentials (P300) measures in the assessment of excessive daytime sleepiness in narcolepsy-cataplexy. Sleep1988; 11: 537–545.
10.
GoodinDSquiresKStarrA. Long latency event related components of the auditory evoked potentials in dementia. Brain1978; 101: 635–648.
11.
PolichJHEhlersCLOtisS. P300 latency reflects the degree of cognitive decline in dementing illness. Electroencephalogr Clin Neurophysiol1986; 63: 138–144.
12.
WalslebenJASquiresNKRothenbergerVL. Auditory event-related potentials and brain dysfunction in sleep apnea. Electroencephalogr Clin Neurophysiol1989; 74: 297–311.
13.
SangalRBSangalJM. P300 Latency: Abnormal in sleep apnea with somnolence and idiopathic hypersomnia, but normal in narcolepsy. Clin Electroencephalogr1995; 26: 146–153.
14.
SangalRBSangalJM. Closed head injury patients with mild cognitive complaints without neurological or psychiatric findings have abnormal visual P300 latencies. Biol Psychiatry1996; 39: 305–307.
15.
CurranTTuckerDMKutasM. Topography of the N400: Brain electrical activity reflecting semantic expectancy. Electroencephalogr Clin Neurophysiol1993; 88: 188–209.
16.
SharbroughFChatrianGLesserRP. Guidelines for standard electrode position nomenclature. Bloomfield, CT: American EEG Society, 1990.
17.
PictonTW. The P300 wave of the human event-related potential. J Clin Neurophysiology1992; 9: 456–479.
18.
LawSKRohrbaughJWAdamsCM. Improving spatial and temporal resolution in evoked EEG responses using surface Laplacians. Electroencephalogr Clin Neurophysiol1993; 88: 309–322.
19.
SmithMEHalgrenESokolikM. The intracranial topography of the P3 event-related potential elicited during auditory oddball. Electroencephalogr Clin Neurophysiol1990; 76: 235–248.
20.
RogersRLBasileLFPapanicalouAC. Magnetoencephalography reveals two distinct sources associated with late positive evoked potentials during visual oddball task. Cerebral Cortex1993; 3: 163–169.
