Interhemispheric Relations During Bilateral Spike‐and‐Wave Activity

Summary: Temporal relationships between homologous EEG channels of the two hemispheres were studied in patients whose EEGs showed bilateral synchronous spike‐and‐wave activity. Group A (seven patients) had generalized corticoreticular epilepsy and no sign of a localized predominant epileptogenic area. In group B (12 patients), the bilateral spike‐and‐wave activity was present in conjunction with a localized area of predominant epileptogenicity demonstrated by EEG, radiological, or clinical examinations. The measurement of small time differences between two homologous channels was performed by transforming the slope of the phase characteristic of the cross‐spectrum into time, when the interchannel coherence was sufficiently high. Although measurements were not possible in every case (because of a lack of coherence or nonlinearity of the phase), results clearly indicated that the spike‐and‐waves in group A did not present significant interhemispheric time differences, whereas those of group B frequently presented a lead time (average 15 msec) from the side with the localized epileptogenic area. The method can be clinically useful to differentiate primary from secondary bilateral synchrony. The concept of secondary bilateral synchrony and the possible pathophysiological mechanisms explaining the time differences are discussed.

[1]  P Gloor,et al.  Generalized epilepsy with spike-and-wave discharge: a reinterpretation of its electrographic and clinical manifestations. The 1977 William G. Lennox Lecture, American Epilepsy Society. , 1979, Epilepsia.

[2]  Pierre Gloor,et al.  Generalized Epilepsy with Spike‐and‐Wave Discharge: A Reinterpretation of Its Electrographic and Clinical Manifestations1 , 1979 .

[3]  P Gloor,et al.  Generalized Cortico‐Reticular Epilepsies Some Considerations on the Pathophysiology of Generalized Bilaterally Synchronous Spike and Wave Discharge , 1968, Epilepsia.

[4]  H. Petsche,et al.  The Problem of Synchronization in the Spread of Epileptic Discharges Leading to Seizures in Man , 1973 .

[5]  R. Cohn Spike-dome complex in the human electroencephalogram. , 1954, A.M.A. archives of neurology and psychiatry.

[6]  G. Erba,et al.  Primary and Secondary Bilateral Synchrony in Epilepsy: A Clinical and Electroencephalographic Study , 1970 .

[7]  Mary A.B. Brazier,et al.  Electrical Seizure Discharges Within the Human Brain: The Problem of Spread , 1973 .

[8]  T. Rasmussen,et al.  Fractionized intracarotid metrazol injection. A new diagnostic method in electroencephalography , 1964 .

[9]  V. Benignus Estimation of the coherence spectrum and its confidence interval using the fast Fourier transform , 1969 .

[10]  F. Peronnet,et al.  Human Cortical Electrogenesis: Stratigraphy and Spectral Analysis , 1972 .

[11]  H. Jasper,et al.  The electroencephalogram in parasagittal lesions. , 1952, Electroencephalography and clinical neurophysiology.

[12]  P Gloor,et al.  The Role of the Corpus Callosum in Bilateral Interhemispheric Synchrony of Spike and Wave Discharge in Feline Generalized Penicillin Epilepsy , 1980, Epilepsia.

[13]  Hellmuth Petsche,et al.  Synchronization of EEG Activity in Epilepsies , 1972, Springer Vienna.

[14]  H. Jasper,et al.  Epilepsy and the functional anatomy of the human brain , 1985 .

[15]  Long term follow-up of EEG changes following therapeutic surgery in epilepsy. , 1975, Electroencephalography and clinical neurophysiology.

[16]  M. Brazier Spread of seizure discharges in epilepsy: anatomical and electrophysiological considerations. , 1972, Experimental neurology.

[17]  T. Rasmussen,et al.  INTRACAROTID INJECTION OF SODIUM AMYTAL FOR THE LATERALIZATION OF CEREBRAL SPEECH DOMINANCE EXPERIMENTAL AND CLINICAL OBSERVATIONS , 1960 .

[18]  R Cohn,et al.  Synchronization characteristics of paroxysmal EEG activity. , 1967, Electroencephalography and clinical neurophysiology.

[19]  J R Ives,et al.  Seizure moitoring: a new tool in electroencephalography. , 1976, Electroencephalography and clinical neurophysiology.

[20]  T. Rasmussen,et al.  Intracarotid amobarbital in epileptic patients. A new diagnostic tool in clinical electroencephalography. , 1961, Archives of neurology.