1966
DOI: 10.1111/j.1528-1157.1966.tb03809.x
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Impedance Changes during Epileptic Seizures

Abstract: SUMMARY Impedance measurements and EEG recordings were made in ventral and dorsal hippocampus, amygdala and from the cortex during epileptic seizures induced in cats by injecting tungstic acid gel into the dorsal hippocampus or basolateral amygdala. Consistent changes in impedance occurred during seizures with an increase in the resistive component and a decrease in the capacitive component. Impedance changes provided focal correlates of the presence of epileptic activity. In regions of the brain where dischar… Show more

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Cited by 32 publications
(26 citation statements)
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“…Since cell swelling is less in epilepsy, the variation in the real and imaginary component of the resistivity would be reduced to the same extent in epilepsy with respect to SD; the same conversion was used also at frequencies different from 50 kHz. The predictions from these assumptions were similar to those found experimentally by Elazar et al (Elazar et al, 1966) and Fox et al (Fox et al, 2004). Table 2.…”
Section: Conductivity Changes Due To Focal Epilepsysupporting
confidence: 79%
See 1 more Smart Citation
“…Since cell swelling is less in epilepsy, the variation in the real and imaginary component of the resistivity would be reduced to the same extent in epilepsy with respect to SD; the same conversion was used also at frequencies different from 50 kHz. The predictions from these assumptions were similar to those found experimentally by Elazar et al (Elazar et al, 1966) and Fox et al (Fox et al, 2004). Table 2.…”
Section: Conductivity Changes Due To Focal Epilepsysupporting
confidence: 79%
“…If successful, this would provide imaging evidence not possible with any other method and would obviate the need in some difficult cases for invasive investigation with intracranial electrodes (Fabrizi et al, 2006). It has already been shown that impedance increases locally in the brain by 3-12% at 1kHz up to 22% at 50 Hz during induced epileptic seizures (Elazar et al, 1966;Fox et al, 2004; VAN HARREVELD and Shade, 1962). Resistance changes of 5.5-7.1% associated with focal and generalized seizures have been imaged with EIT using a ring of electrodes placed on the exposed cortex of rabbits at 51 kHz (Rao, 2000).…”
Section: Introductionmentioning
confidence: 99%
“…For example, brain electrical conductivity measurements have been applied to detect several brain pathologies, such as spreading depression (Holder 1992) and epilepsy (Elazar et al 1966). Abnormal neuronal activity in such patients might cause local disruption to ion homeostasis in the brain.…”
Section: Future Directionsmentioning
confidence: 99%
“…EIT has recently entered into clinical use for lung imaging in hospital ICUs ( Becher et al, 2014 ), and has the potential for imaging brain function or pathological conditions ( Boone et al, 1994 , Oh et al, 2011 ). Localisation of the seizure onset zone has been proposed as a possible application of EIT ( Boone et al, 1994 ); it is based on the well-established rise of impedance of cerebral tissue during seizure activity ( Van Harreveld and Schade, 1962 , Elazar et al, 1966 ). This increase in impedance can be attributed to the shrinkage of extracellular space that follows intense neuronal activity, caused by homeostatic mechanisms that redistribute water and excess potassium ions generated during the activity ( Dietzel et al, 1980 , Holthoff and Witte, 2000 , Niermann et al, 2001 ).…”
Section: Introductionmentioning
confidence: 99%