KoflerBHarrerGLadurnerG. Zusammenhänge zwischen Amplitudenreduktion ereigniskorrelierter Potentiale (CNV) und Konzentrationsleistung bei der vaskulären Demenz. Nervenarzt1987; 58: 700–704.
3.
KoflerBHarrerGLadurnerG. Contingent negative variation (CNV) differences between cerebrovascular patients with and without dementia. Arch Gerontol Geriatr1988; 7:311–318.
4.
OishiMMochizukiYDuCTakasuT. Contingent negative variation and movement-related cortical potentials in parkinsonism. Electroencephalogr Clin Neurophysiol1995; 95:346–349.
5.
NakamuraMFukuiYKadobayashiIKatoN. A comparison of the CNV in young and old subjects: Its relation to memory and personality. Electroencephalogr Clin Neurophysiol1979; 46: 337–344.
6.
MichalewskiHJThompsonLWSmithDBD. Age differences in the contingent negative variation (CNV): Reduced frontal activity in the elderly. J Gerontol1980; 35: 542–549.
7.
UytdenhoefPDepauwYVan WettereJPGodauxEBernierJJacquyJ. Etude de la variation contingente négative et du débit sanguin cérébral dans la démence sénile et le vieillissement cérébral. Neurophysiol Clin1988; 18:531–539.
8.
JohnsonDWStringerWAMarksMPYonasHGoodWFGurD. Stable xenon CT cerebral blood flow imaging: Rationale for and role in clinical decision making. AJNR1991; 12: 201–213.
9.
RosenWGTerryRDFieldPAKatzmanRPeckA. Pathological verification of ischemic score in differentiation of dementias. Ann Neurol1980; 7: 486–488.
10.
McKhannGDrachmanDFolsteinM. Clinical diagnosis of Alzheimer's disease: Report of the NINCDS-ADRDA Work Group under the auspices of Department of Health and Human Services Task Force on Alzheimer's Disease. Neurology1984; 34: 939–944.
11.
Committee on Normal Value of Evoked Potentials, Japan Society of Electroencephalography and Electromyography.Guideline on evoked potential measurement (in Japanese). Nouha To Kinzenzu1997; 25: S1–S16.
12.
KashiwakiSYamashitaTNakanoS. The wash-in/washout protocol in stable xenon CT cerebral blood flow studies. AJNR1992; 13: 49–53.
13.
OishiMMochizukiYHaraMDuC-MTakasuT: Effects of intravenous L-dopa on P300 and regional cerebral blood flow in parkinsonism. Intern J Neurosci1996; 85:147–154.
14.
OishiMMochizukiYHaraMTakasuT. Central motor conduction time in patients with periventricular lucencies. J Neurol Sci1996; 142:30–35.
15.
RosahlSKKnightRT. Role of prefrontal cortex in generation of the contingent negative variation. Cerebral Cortex1995; 2:123–134.
16.
ZappoliRZappoliFVersairA. Cognitive potentials: Ipsilateral corticocortical interconnections in prefrontal human cortex ablations. Neurosci Lett1995; 193:140–144.
17.
LamarcheMLouvelJBuserPRektorI. Intracerebral recordings of slow potentials in a contingent negative variation paradigm: An exploration in epileptic patients. Electroencephalogr Clin Neurophysiol1995; 95:268–276.
18.
IkedaALüdersHOShibasakiH. Generation of contingent negative variation in the supplementary sensorimotor area. Adv Neurol1996; 70:153–159.
19.
TsubokawaTMoriyasuN. Motivational slow negative potential shift (CNV) related to thalamotomyAppl Neurophysiol1978; 41:202–208.
20.
GrünewaldGGrünewald-ZuberbierENetzJHömbergVSanderG. Relationships between the late component of the contingent negative variation and the bereitschaftspotential. Electroencephalogr Clin Neurophysiol1979; 46: 538–545.
21.
TsudaT. Contingent negative variation and the related thalamic activities, observation on the responses evoked by ipsilateral and contralateral hand movementsTokushima J Exp Med1984; 31:29–32.
