HarmonyTFernández-BouzasAMarosiE. Correlation between computed tomography and voltage and current source density: Spectral EEG parameters in patients with brain lesions. Electroencephalogr Clin Neurophysiol1993; 87: 196–205.
2.
HarmonyTFernández-BouzasAMarosiE. Frequency source analysis in patients with brain lesions. Brain Topography1995; 8: 109–117.
3.
Fernández-BouzasAHarmonyTGalanL. Comparison of Z and multivariate statistical brain electromagnetic maps for the localization of brain lesions. Electroencephalogr Clin Neurophysiol1995; 95: 372–380.
4.
Fernández-BouzasAHarmonyTMarosiE. Evolution of cerebral edema and its relationship with power in the theta band. Electroencephalogr Clin Neurophysiol1997; 102: 279–285.
5.
Fernández-BouzasAHarmonyTBoschJ. Sources of abnormal EEG activity in the presence of brain lesions. Clin Electroencephalogr1999; 30: 46–53.
6.
CohenBABravo-FernándezEJSancesAJr. Quantification of computer analyzed serial EEGs from stroke patients. Electroencephalogr Clin Neurophysiol1976; 41: 379–386.
7.
JonkmanEJPoortvlietDCJVeeringMM. The use of neurometrics in the study of patients with cerebral ischemia. Electroencephalogr Clin Neurophysiol1985; 61: 333–341.
8.
NagataK. Topographic EEG in brain ischemia: Correlation with blood flow and metabolism. Brain Topography1988; 1: 97–106.
9.
NuwerMRJordanSEAhnSS. Evaluation of stroke using EEG frequency analysis and topographic mapping. Neurology. 1987; 37: 1153–1159.
BetzALEnnisSRScielkeGP. Blood-to brain sodium transport in schemic brain edema. Advances Neurol1990; 43: 341–361.
12.
KlatzoY. Pathophysiological aspects of brain edema. Acta Neurophatologica1987; 72: 333–341.
13.
AstrupJSiesjoBKSymonL. Threshold in cerebral ischemia the ischemic penumbra. Stroke1981; 12: 723–725.
14.
FernándezTHarmonyTSilvaJ. Relationship of specific brain areas with performance. Neuro Report1998; 9: 3681–3687.
15.
JohnERKarmelBZCorningWC. Neurometrics: The use of the numerical taxonomy to evaluate brain function. Science1977; 196: 1393–1410.
16.
DuffyFHBartelsPHBurchfielJL. Significance probability mapping: An aid in the topographic analysis of brain electrical activity. Electroencephalogr Clin Neurophysiol1981; 5: 455–462.
17.
ValdésPBiscayRGalánL. High resolution spectral EEG norms for topography. Brain Topography1990; 3: 281–282.
18.
HarmonyTAlvarezAPascualR. EEG maturation in children with different economic and psychosocial characteristics. Int J Neurosci1988; 41: 103–113.
19.
HarmonyTFernándezTSilvaJ. Do specific EEG frequencies indicate different processes during mental calculation?Neurosci Letters1999; 266: 25–28.
20.
GloorPBallGSchaulN. Brain lesions that produce delta waves in the EEG. Neurology1977; 27: 326–333.
21.
GoldensohnES. Use of the EEG for the evaluation of focal intracranial lesions. In: KlassDWDalyDD (eds). Current Practice of Electroencephalography. New York: Raven Press; 1979: 307–341.
22.
Fischer-WilliamsM. Brain tumors and other space-occupying lesions (with a section on oncological CNS complications). In: NiedermeyerELopes da SilvaF (eds). Electroencephalography: Basic Principles, Clinical Applications, and Related Fields. Baltimore: Williams and Wilkins; 1993: 263–295.
23.
KaufmannAMFirlikADFukuiMB. Ischemic core and penumbra in human stroke. Stroke1999; 30: 93–99.
