DuffyFHAlbertMSMcAnultyGGarveyAJ. Age-related differences in brain electrical activity of healthy subjects. Ann Neurol1984; 16: 430–438.
2.
DuffyFHMcAnultyGBAlbertMS. The pattern of age-related differences in electrophysiological activity of healthy males and females. Neurobiol Aging1993; 14: 73–84.
3.
HartikainenPSoininenHPartanenJHelkalaELRiekkinenP. Aging and spectral analysis of EEG in normal subjects: A link to memory and CSF AChE. Acta Neurol Scand1992; 86: 148–155.
4.
AndererPPascual-MarquiRDSemlitschHVSaletuB. Differential effects of normal aging on sources of standard N1, target N1 and target P300 auditory event-related brain potentials revealed by low resolution electromagnetic tomography (LORETA). Electroencephalogr Clin Neurophysiol1998; 108: 160–174.
5.
TobimatsuSKurita-TashimaSNakayama-HiromatsuMAkazawaKKatoM. Age-related changes in pattern visual evoked potentials: Differential effects of luminance, contrast and check size. Electroencephalogr Clin Neurophysiol1993; 88: 12–19.
6.
FrenchCCBeaumontJC. Acritical review of EEG coherence studies of hemisphere function. Int J Psychophysiol1984; 1: 241–254.
7.
BuskJGalbraithGC. EEG correlates of visual-motor practice in man. Electroencephalogr Clin Neurophysiol1975; 38: 415–422.
8.
BeaumontJGMayesARRuggMD. Asymmetry in EEG alpha coherence and power: Effects of task and sex. Electroencephalogr Clin Neurophysiol1978; 45: 393–401.
9.
GasserTJennen-SteinmetzCVerlegerR. EEG coherence at rest and during a visual task in two groups of children. Electroencephalogr Clin Neurophysiol1987; 67: 151–158.
10.
DuffyFHMcAnultyGBAlbertMS: Effects of age upon interhemispheric EEG coherence in normal adults. Neurobiol Aging1996; 17: 587–599.
11.
KnottVJHarrA. Aging, smoking and EEG coherence: A preliminary study. Clin Electroencephalogr1997; 28: 236–244.
12.
TakahashiT. Activation methods. In: NiedermeyerELopes da SilvaF (eds). Electroencephalography. Basic Principles, Clinical Applications and Related Fields. 2nd ed.Baltimore, Urban and Schwarzenberg1987: 209–227.
13.
KooiKAEckmanHGThomasMH. Observation on the response to photic stimulation in organic cerebral dysfunction. Electroencephalogr Clin Neurophysiol1957; 9: 239–250.
14.
OosterhuisHJPonsenLJonkmanEJMagnusO. The average visual response in patients with cerebrovascular disease. Electroencephalogr Clin Neurophysiol1969; 27: 23–34.
15.
SpearPD. Neural bases of visual deficits during aging. Vision Res1993; 33: 2589–2609.
16.
SokolSMoskowitzATowleVL. Age-related changes in the latency of the visual evoked potential: Influence of check size. Electroencephalogr Clin Neurophysiol1981; 51: 559–562.
17.
TariotPNPatelSVCoxCHendersonRE. Age-related decline in central cholinergic function demonstrated with scopolamine. Psychopharmacology (Berl)1996; 125: 50–56.
18.
MullerWEStollLSchubertTGelbmannCM. Central cholinergic functioning and aging. Acta Psychiatr Scand1991; 366 (suppl): 34–39.
19.
SloanEPFentonGWStandageKP. Anticholinergic drug effects on quantitative electroencephalogram, visual evoked potential, and verbal memory. Biol Psychiatry1992; 31: 600–606.
20.
KoedaTKnyazevaMNijiokiktjienCJonkmanEJDe SonnevilleLVildavskyV. The EEG in acallosal children. Coherence values in the resting state: Left hemisphere compensatory mechanism?Electroencephalogr Clin Neurophysiol1995; 95: 397–407.
21.
NielsenTMontplaisirJLassondeM. Decreased interhemispheric EEG coherence during sleep in agenesis of the corpus callosum. Eur Neurol1993; 33: 173–176.
22.
MontplaisirJNielsenTCoteJBoivinDRouleauILapierreG. Interhemispheric EEG coherence before and after partial callosotomy. Clin Electroencephalogr1990; 21: 42–47.
23.
CowellPEAllenLSZalatimoNSDenenbergVH. A developmental study of sex and age interactions in the human corpus callosum. Brain Res Dev Brain Res1992; 66: 187–192.
24.
LaissyJPPatruxBDuchateauC. Midsagittal MR measurements of the corpus callosum in healthy subjects and diseased patients: A prospective survey. Am J Neuroradiol1993; 14: 145–154.
25.
WeisSKimbacherMWengerENeuholdA. Morphometric analysis of the corpus callosum using MR: Correlation of measurements with aging in healthy individuals. Am J Neuroradiol1993; 14: 637–645.
26.
LeuchterAFDunkinJJLufkinRBAnzaiYCookIANewtonTF. Effect of white matter disease on functional connections in the aging brain. J Neurol Neurosurg Psychiatry1994; 57: 1347–1354.
27.
WadaYNanbuYKoshinoYYamaguchiNHashimotoT. Reduced interhemispheric EEG coherence in Alzheimer disease; analysis during rest and photic stimulation. Alzheimer Dis Assoc Disord1998; 12; 175–181.
28.
WadaYNanbuYJiangZYKoshinoYHashimotoT. Interhemispheric EEG coherence in never-medicated patients with paranoid schizophrenia: Analysis at rest and during photic stimulation. Clin Electroencephalogr1998; 29: 170–176.
29.
KawaguchiTJijiwaHWatanabeS. The dynamics of phase relationships of alpha waves during photic stimulation. Electroencephalogr Clin Neurophysiol1993; 87: 88–96.
30.
ShigetaMNishikawaYMoriA. Interhemispheric EEG coherence in senile dementia of Alzheimer type [in Japanese]. Rinsho Nouha1990; 32: 357–361.
31.
FeinGRazJBrownFFMerrinEL. Common reference coherence data are confounded by power and phase effects. Electroencephalogr Clin Neurophysiol1988; 69; 581–584.
