Abstract
BackgroundProlonged seizures generate cerebral hypoxia and increased intracranial pressure, resulting in an increased risk of neurological deterioration, increased long-term morbidity, and shorter survival. Seizures should be recognized early and treated promptly.The aim of the study was to investigate the occurrence of postoperative seizures in patients undergoing craniotomy for primary brain tumors and to determine if non-convulsive seizures could explain some of the postoperative neurological deterioration that may occur after surgery.MethodsA single-center prospective study of 100 patients with suspected glioma. Participants were studied with EEG and video recording for at least 24 h after surgery.ResultsSeven patients (7%) displayed seizure activity on EEG recording within 24 h after surgery and another two patients (2%) developed late seizures. One of the patients with early seizures also developed late seizures. In five patients (5%), there were non-convulsive seizures. Four of these patients had a combination of clinically overt and non-convulsive seizures and in one patient, all seizures were non-convulsive. The non-convulsive seizures accounted for the majority of total seizure time in those patients. Non-convulsive seizures could not explain six cases of unexpected postoperative neurological deterioration. Postoperative ischemic lesions were more common in patients with early postoperative seizures.ConclusionsEarly seizures, including non-convulsive, occurred in 7% of our patients. Within this group, non-convulsive seizure activity had longer durations than clinically overt seizures, but only 1% of patients had exclusively non-convulsive seizures. Seizures were not associated with unexpected neurological deterioration.
Highlights
Seizure activity is an energy-demanding process with a risk of secondary neuronal injury
Prolonged seizures generate cerebral hypoxia and increased intracranial pressure resulting in an increased risk of neurological deterioration, longer hospital stay, increased long-term morbidity, and shorter survival [10, 23, 26, 28]
Patients treated with anti-epileptic drugs (AED) prior to surgery continued with the ordinary dose
Summary
Seizure activity is an energy-demanding process with a risk of secondary neuronal injury. Prolonged seizures generate cerebral hypoxia and increased intracranial pressure resulting in an increased risk of neurological deterioration, longer hospital stay, increased long-term morbidity, and shorter survival [10, 23, 26, 28]. Seizures in patients with brain tumors are associated with progression of the disease and shorter survival [3, 6, 35]. Prolonged seizures generate cerebral hypoxia and increased intracranial pressure, resulting in an increased risk of neurological deterioration, increased long-term morbidity, and shorter survival. The aim of the study was to investigate the occurrence of postoperative seizures in patients undergoing craniotomy for primary brain tumors and to determine if non-convulsive seizures could explain some of the postoperative neurological deterioration that may occur after surgery. Postoperative ischemic lesions were more common in patients with early postoperative seizures
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