Distribution of partial seizures during the sleep-wake cycle: Differences by seizure onset site

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Distribution of partial seizures during the sleep–wake cycle

Differences by seizure onset site

S.T. Herman, MD;, T.S. Walczak, MD; and C.W. Bazil, MD, PhD

From the Department of Neurology (Dr. Herman), State University of New York, Brooklyn; Department of Neurology (Dr. Walczak), University of Minnesota, Minneapolis; and Department of Neurology (Drs. Bazil and Herman), Columbia University, New York, NY.

Address correspondence and reprint requests to Dr. Susan T. Herman, SUNY Downstate Medical Center, 450 Clarkson Ave., Box 1213, Brooklyn, NY 11203; e-mail: susan_herman{at}netmail.hscbklyn.edu

Objective: To evaluate the effects of sleep on partial seizuresarising from various brain regions. Methods: The authors prospectivelystudied 133 patients with localization-related epilepsy undergoingvideo-EEG monitoring over a 2-year period. Seizure type, siteof onset, sleep/wake state at onset, duration, and epilepsysyndrome diagnosis were recorded. Periorbital, chin EMG, andscalp/sphenoidal electrodes were used. A subset of 34 patientsunderwent all-night polysomnography with scoring of sleep stages.Results: The authors analyzed 613 seizures in 133 patients.Forty-three percent (264 of 613) of all partial seizures beganduring sleep. Sleep seizures began during stages 1 (23%) and2 (68%) but were rare in slow-wave sleep; no seizures occurredduring REM sleep. Temporal lobe complex partial seizures weremore likely to secondarily generalize during sleep (31%) thanduring wakefulness (15%), but frontal lobe seizures were lesslikely to secondarily generalize during sleep (10% versus 26%;p < 0.005). Conclusions: Partial-onset seizures occur frequentlyduring NREM sleep, especially stage 2 sleep. Frontal lobe seizuresare most likely to occur during sleep. Patients with temporallobe seizures have intermediate sleep seizure rates, and patientswith seizures arising from the occipital or parietal lobes haverare sleep-onset seizures. Sleep, particularly stage 2 sleep,promotes secondary generalization of temporal and occipitoparietal,but not frontal, seizures. These findings suggest that the hypersynchronyof sleep facilitates both initiation and propagation of partialseizures, and that effects of sleep depend in part on the locationof the epileptic focus.

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				S. Vanhatalo, J. M. Palva, M. D. Holmes, J. W. Miller, J. Voipio, and K. Kaila Infraslow oscillations modulate excitability and interictal epileptic activity in the human cortex during sleep PNAS, April 6, 2004; 101(14): 5053 - 5057. [Abstract] [Full Text] [PDF]

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