Fischer-WilliamsM. Brain tumors and other space-occupying lesions. In NiedermeyerEda SilvaF Lopes (Eds.), Electroencephalography, second edition, Urban and Schwarzenberg, Baltimore1987, pp 229–258.
2.
NiedermeyerE. The EEG in infantile brain damage and cerebral palsy. In NiedermeyerEda SilvaF Lopes (Eds.), Electroencephalography, second edition, Urban and Schwarzenberg, Baltimore1987, pp 339–346.
3.
GilmorePCBrennerRP. Correlation of EEG, computerized tomography, and clinical findings: Study of 100 patients with focal delta activity. Arch Neurol1981; 38:371–372.
4.
CressCHGibbsEL. Electroencephalographic asymmetry during sleep. Dis Nerv Sys1948; 11:327–329.
5.
LennoxMACoolidgeJ. Electroencephalographic changes after prefrontal lobotomy. Arch Neurol Psychiatr1949; 62:150–161.
6.
ItoMOkunoTTakaoT. Electroencephalographic and cranial computed tomographic findings in children with hemiplegic cerebral palsy. Eur Neurol1981; 20:312–318.
7.
PampiglioneG. Induced fast activity in the EEG as an aid in the location of cerebral lesions. Electroenceph Clin Neurophysiol1952; 4:79–82.
8.
GreenRLWilsonWP. Asymmetries of beta activity in epilepsy, brain tumors, and cerebrovascular disease. Electroenceph Clin Neurophysiol1961; 13:75–78.
9.
JaffeR. The clinical significance of asymmetrical beta activity. Electroenceph Clin Neurophysiol1962; 14:291.
10.
KuhloW. The beta rhythms. In RemondA (Ed.), Handbook of Electroencephalography and Clinical Neurophysiology, Volume 6A, Elsevier, Amsterdam1976, pp 29–45.
11.
HooshmandHMorganrothRCorredorC. Significance of focal and lateralized beta activity in the EEG. Clin Electroenceph1980; 11:140–144.
12.
DuffyFHJensenFErbaG. Extraction of clinical information from electroencephalographic activity: Combined use of brain electrical activity mapping and intravenous sodium thiopental. Ann Neurol1984; 15:22–30.
13.
SharbroughFW. Nonspecific abnormal EEG patterns. In NiedermeyerEda SilvaF Lopes (Eds.), Electroencephalography, second edition, Urban and Schwarzenberg, Baltimore1987, pp 163–181.
