Serial EEG Research Articles

Correlation Between Quantitative-EEG Alterations and Age in Patients With Interferon-?????Treated Hepatitis C

The authors recently observed alterations in the quantitative EEG findings in patients with chronic hepatitis C who were treated with interferon-alpha (IFN-alpha). However, the factors that influenced such EEG alterations remain unclear. The authors evaluated the correlation between QEEG alterations that occurred during IFN-alpha treatment and the age of 98 patients with chronic hepatitis C. These patients underwent blind, prospective, and serial quantitative EEG examinations. IFN-alpha was administered intramuscularly at 9 x 10 IU daily for the first 4 weeks and then three times per week for the next 20 weeks. Serial EEGs were obtained before, at 2 and 4 weeks, and at 2 to 3 days after the treatment. The absolute powers of each frequency band at different stages of the treatment were determined by QEEG. The ages of the patients were classified into five groups: 20 to 29, 30 to 39, 40 to 49, 50 to 59, and > or =60 years. The relationship between the alterations in power values and age was statistically evaluated. As the age of the patients increased, the alterations in power values for the slow waves, alpha 2, and fast waves during IFN-alpha treatment became more remarkable, and significant (repeated-measure analysis of variance; P < 0.0001). The alterations of EEG occurring during IFN-alpha treatment were marked in older patients.

Psychoneurological symptoms during interferon therapy in patients with chronic hepatitis: prospective study on predictive use of Cornell Medical Index and electroencephalogram

We assessed the usefulness of the Cornell Medical Index (CMI) and electroencephalogram (EEG) in the prediction and early detection of psychoneurological symptoms associated with interferon (IFN) therapy for chronic viral hepatitis. Forty-eight consecutive patients received IFN for chronic viral hepatitis for 8-24 weeks. CMI was measured before IFN therapy. Serial EEGs were recorded before IFN therapy, 2, 4 weeks, and thereafter every 4 weeks in the therapy. Psychoneurological symptoms including insomnia, depression, and restlessness were seen in 11 (23%) of 48 patients. Five (13%) of 40 patients with CMI I and II and six (75%) of eight with CMI III developed psychoneurological symptoms (P<0.001). Sensitivity, specificity, and predictive accuracy of CMI III were 55%, 95%, and 75%, respectively. Abnormal EEG such as slow basic rhythm, appeared in 13 patients (27%) during IFN therapy. Psychoneurological symptoms were seen in six (46%) of the 13 patients with abnormal EEG, and in five (14%) of 35 in whom EEG remained normal (P<0.05). CMI is useful for the prediction of IFN-induced psychoneurological symptoms in patients with chronic viral hepatitis. Serial EEGs contribute to the screening and auxiliarily assessing the adverse effects of IFN on the central nervous system.

Primer on Neonatal Electroencephalograms for the Neonatologist

After completing this article, readers should be able to: 1. List indications for obtaining an electroencephalogram (EEG) in a neonate. 2. Define electrographic seizures. 3. Describe normal patterns in the EEG reading that correlate with conceptional age. 4. List EEG background patterns associated with encephalopathies and their prognostic significance. The electroencephalogram (EEG) is a valuable noninvasive tool for assessing neonatal brain function. It has the unique property of providing functional information about the brain, rather than simply the anatomic information that is provided by neuroimaging studies. The major areas in which an EEG can provide unique information in the assessment of newborns are: 1) diagnosis and treatment of seizures, 2) evaluation of severity of cerebral dysfunction from primary neurologic disorders (eg, hypoxic-ischemic encephalopathy) or systemic diseases, 3) identification of specific neurologic entities (eg, periventricular leukomalacia, congenital brain malformations, viral encephalitis, and metabolic encephalopathies), and 4) determination of prognosis and long-term neurologic outcome. Serial EEGs provide information about the effectiveness of treatment and disturbances in brain maturation. An EEG should be considered in the neonate when questions arise regarding the cause of the child’s abnormal neurologic status. There are many situations in which the EEG provides much-needed information that is either unavailable or difficult to obtain. For example, it is difficult to obtain an adequate neurologic assessment of a neonate who is heavily sedated or paralyzed with neuromuscular blocking agents. Neuroimaging studies are difficult to obtain in infants who are unstable and mechanically ventilated. The EEG can be obtained at the bedside. Another situation in which the EEG is particularly useful is when there is a question about seizures. Neonatal seizures often are subtle, which makes their clinical identification challenging. An EEG can discriminate easily between epileptic seizures and nonepileptic events in the neonate. In the case of the paralyzed or sedated infant, sudden and …

Serial EEG findings in sporadic and iatrogenic Creutzfeldt–Jakob disease

Objective: To study temporal and spatial development of EEG patterns in sporadic and iatrogenic Creutzfeldt–Jakob disease patients. Methods: Temporal and spatial development of EEG patterns in 4 patients with sporadic Creutzfeldt–Jakob disease and 2 patients with iatrogenic Creutzfeldt–Jakob disease due to implantation of contaminated brain depth electrodes were investigated. A total of 56 EEGs were analyzed, over time spans ranging from 1272 to 3 days prior to death. Results: Frontal intermittent rhythmical delta activity (FIRDA) was seen at early timepoints in 4/6 patients and might represent an early EEG pattern that is associated, with human prion diseases. EEG patterns associated with CJD are sensitive to midazolam. Initial EEG changes were seen at the site of prion exposure in iatrogenic Creutzfeldt–Jakob disease patients, before they could be observed at distant sites, suggesting that prion disease was initiated at the site of prion exposure. Conclusions: Serial EEG recordings are a valuable tool not only in the early diagnosis of sporadic CJD, but also in the determination of prion exposure in iatrogenic Creutzfeldt–Jakob disease. Significance: FIRDA occur at an early stage of CJD and are progressively replaced by the classical PSWC. The EEG patterns of CJD are sensitive to midazolam. The initial EEG changes in iatrogenic CJD are seen at the site of prion exposure.

EEG in Childhood Epilepsy: Initial Presentation and Long‐term Follow‐up. H. Doose. John Libby Eurotext, London, 2003, 413 pp.

In the preface to his monograph, EEG in Childhood Epilepsy, Dr. Doose emphasizes the importance of systematic evaluation of maturation-dependent changes in the EEGs of children with epilepsy. He has accomplished this very well in this 413-page work by means of ample, excellent EEG examples, well-organized chapters, and a fine bibliography. The book in organized into seven chapters. The first three chapters illustrate normal EEG findings and genetically determined EEG patterns. Discussion focuses on whether various abnormalities or variant patterns have significance with regard to a genetic origin or epileptic potential. Chapter 4 is a brief (three-page) chapter focusing on EEG analysis and its importance in the evaluation of the complex pathogenesis of epilepsy. Chapter 5 describes the EEG findings associated with seizure disorders not usually considered “epilepsy,” neonatal seizures and febrile seizures. Chapter 6 is the centerpiece of the book. It is 166 pages long and comprises discussions of EEG in generalized, idiopathic, and lesional epilepsies, along with thorough discussions about the distinctions between and similarities among a variety of epilepsy syndromes. Chapter 7 illustrates the EEG contribution to the differential diagnosis of such entities as syncope, migraine, inflammatory disease, dysplasias, and metabolic diseases. A nice appendix provides useful tables and examples of EEGs in normal, healthy children. The bibliography includes 336 references, and the index handily refers to both text pages and figure numbers. The EEG figures are the most valuable feature of this work. Clearly a great deal of care went into their selection. The 345 figures are nicely reproduced. Most take up half a page, so they are usefully large. This work could easily serve as an atlas of EEG in children. As one would expect from EEGs accumulated over six decades, a variety of montages are used (including some not using the 10–20 system), and most examples have a limited number of channels (usually eight to 10). This is no impediment when looking at the figures because they are all well labeled with “head diagrams,” time scale, and sensitivity. Figure legends are concise and informative. In-text references to a given figure are mostly within a page or two of the actual EEG example. Particularly notable are multiple examples of serial EEGs recorded at different times ranging from young childhood through adulthood in patients with a variety of epilepsy syndromes. Family members' EEGs also are sometimes included. One might wish that more detail about the patients' medications during the EEGs also were documented to add clarity about when EEG changes are related to brain maturation versus therapeutic drug effects. The text is mostly well written and well organized. Particularly helpful are detailed discussions of the distinctions between such entities as Lennox–Gastaut syndrome, pseudo-Lennox syndrome, and myoclonic–astatic epilepsy (modestly never referred to as “Doose syndrome”). Another useful discussion focuses on differences (and similarities) between Landau–Kleffner syndrome, electrical status epilepticus during slow-wave sleep (ESES), and epilepsy of childhood with occipital paroxysms (ECOP). Hypsarrhythmia and its variants are thoroughly examined, and again the EEG examples are excellent. The line between personal opinion and consensus is not always clear from the text, but references to published works are amply cited, allowing doubtful readers to make up their own minds. At times the translation suffers from clumsy syntax, and hyphenation is occasionally odd, but these are very minor complaints. Experienced electroencephalographers will benefit from the interesting discussions about various epilepsy syndromes and the valuable bibliography. Those with limited experience in pediatric EEG will find the well-labeled examples easy to refer to and will appreciate the variety of examples for any given syndrome (as opposed to only one or two “classic” examples often shown in more comprehensive EEG texts). Neurologists who do not regularly read EEGs should find useful the details about distinctions between similar epilepsy syndromes. This volume will make an excellent addition to the collection of anyone who must interpret children's EEGs or diagnose their epilepsy syndromes.

Postoperative EEG and seizure outcome in temporal lobe epilepsy surgery.

To assess the prognostic value of scalp electroencephalogram (EEG) after epilepsy surgery, we investigated whether postoperative EEG abnormalities (interictal epileptiform discharges, IED; interictal slow activity, ISA) were associated with seizure outcome and other patient characteristics after resective surgery in patients with temporal lobe epilepsy (TLE). Sixty-two patients with medically refractory TLE who underwent surgery were studied. Patients were categorized according to etiology (mesiotemporal sclerosis vs. tumors/cortical dysplasias); extent of surgical resection (extensive vs. limited); and amount of preoperative IED on wake EEG (oligospikers, <1 IED/h, vs. spikers). Patients were also classified as seizure-free (SF) or having persistent seizures/auras (not-SF) during follow up visits 1 month and 1 year after surgery. Preoperative 60-min interictal EEGs were evaluated for IED and ISA, and compared to postoperative wake EEGs. Seizures/auras persisted in 16/62 (25.8%) patients at 1 month and in 8/62 (12.9%) at 1 year follow up. ISA was not significantly related to outcome. Of 42 patients with EEG negative for IED at 1 month, 4 were not-SF; at 1 year, one of 44 such patients was not-SF. IED was significantly associated with seizure/aura persistence in patients categorized as mesiotemporal sclerosis and with extensive surgery. Oligospikers and spikers on preoperative EEG showed no differences in the postoperative seizure outcome, excellent in both cases; moreover, the presence of postoperative IEDs indicated auras/seizures persistence apart from the preoperative EEG spike frequency. Our study showed that the presence of IED of postoperatve EEG strongly indicates seizure/aura persistence. Therefore, serial EEGs should be included in postoperative follow up schedules as a crucial tool in evaluating seizure outcome.

Focal nonconvulsive status epilepticus associated to PLEDs and intense focal hyperemia in an AIDS patient

Purpose: Periodic lateralised epileptiform discharges (PLEDs) can be seen associated to nonconvulsive status epilepticus (NCSE), although their pathophysiological meaning remains questionable. Functional neuroimaging has suggested that, in this setting, PLEDs may indeed be an ictal pattern. In this report we describe perfusional changes in a patient with AIDS, PLEDs and NCSE. Methods: A 37-year-old man with AIDS, cryptococcosis and recurrent epileptic seizures was admitted. After initial treatment, he remained comatose, and had MRI and serial EEG recordings performed. Technetium-99m-ethyl cysteinate dimer (99mTc-ECD) SPECT scans were also obtained, before and after continuous benzodiazepine infusion. Results: EEG disclosed PLEDs over the right fronto-polar region while MRI revealed meningeal thickening and scattered unspecific findings. SPECT revealed marked focal hyperperfusion overlapping the areas with PLEDs, both resolved after continuous midazolam infusion and clinical improvement. Conclusions: This report demonstrates association of PLEDs, NCSE, and focal hyperperfusion on SPECT, additionally supporting the concept of PLEDs as an ictal pattern. Considering that status epilepticus may eventually not be detected by conventional approaches alone, we advocate the use of functional neuroimaging to assess suspected patients with impaired consciousness.

Intractable temporal lobe epilepsy with rare spikes is less severe than with frequent spikes.

To analyze clinical, electrophysiologic, and neuroradiologic characteristics of a group of patients with nonlesional intractable temporal lobe epilepsy (TLE) and rare or absent interictal epileptiform abnormalities (IEA). Between 1990 and 2000, 31 patients (11 men; mean +/- SD age 34.3 +/- 11.7 years) with nonlesional intractable TLE were consecutively selected on the basis of the absence or paucity of IEA (<1/h) on serial scalp EEG recording; these were defined as "oligospikers." The clinical and laboratory characteristics of oligospikers were compared with those of a group of 27 age-matched control subjects (10 men; mean +/- SD age 38.5 +/- 11 years), randomly selected from a pool of patients with nonlesional TLE with frequent IEA. Oligospikers showed a later age at seizure onset (mean +/- SD 19.1 +/- 14.4 versus 10.2 +/- 7.4 years; p = 0.004), lower monthly frequency of complex partial seizures (median 6 versus 12; p = 0.035), lower incidence of secondarily generalized tonic-clonic seizures (10 versus 81%; p < 0.001), and no status epilepticus (0 versus 22%) than control subjects. Also, hippocampal atrophy (HA) was less commonly found in oligospikers (55 versus 96%; p = 0.001). However, there were no differences between the two groups in the frequency of family history of epilepsy, risk factors, febrile convulsions, and type of medication. Twenty-three (74%) oligospikers and 25 (93%) control patients underwent either a selective amygdalohippocampectomy or corticoamygdalohippocampectomy. Excellent surgical outcome (Engel's Class Ia) was found in 14 of 23 (61%) oligospikers and 17 of 25 (67%) control patients. This study identified a subgroup of patients with nonlesional intractable TLE with no or few IEA. Oligospikers have a later age at seizure onset, less frequent and less severe seizures, besides a lower incidence of HA. The similarity of etiologic factors compared with patients with frequent IEA suggests that the rarity of spikes could reflect a disease not really distinct but less severe, even though still intractable and incapacitating enough to consider surgery. In spite of the absence or paucity of IEA, oligospikers have excellent surgical outcome.

A study of EEG and epilepsy profile in Wolf–Hirschhorn syndrome and considerations regarding its correlation with other chromosomal disorders

Wolf–Hirschhorn syndrome (WHS) is a genetic disorder caused by a deletion of the short arm of chromosome 4. Sgrò et al. described an electroclinical profile for WHS, but data regarding this issue are scarce. We report an 8-year-old girl presenting the classic phenotype for WHS, confirmed by FISH test. Epilepsy started during infancy with myoclonic seizures. Later, she presented atypical absences, which gradually increased in frequency, and at the age of 2.5 years, she presented a non-convulsive status epilepticus. Epilepsy was controlled with valproate at the age of 6 years. Serial EEGs were performed and showed unusual bursts of generalized, high amplitude delta waves with superimposed low–moderate amplitude sharp waves. A literature review was performed and our case was compared to others, where EEG and/or epilepsy were addressed. Our case and previously published data show that WHS presents a stereotyped epilepsy profile and EEG patterns. A discussion concerning similarities between these findings and those observed in Angelman syndrome has been performed, since in both syndromes, GABA genes are involved and may play a role in the pathogenesis. Although fascinating, this theory is simplistic, since patients with Angelman syndrome without GABA deletion may present epilepsy and EEG abnormalities. Another issue is the striking overlap regarding these features, between WHS and Pitt–Rogers–Danks syndrome, which may be a key in showing that these disorders could be a spectral variation of the same entity.

On the origin of EEG-slowing and encephalopathy during induction treatment of acute lymphoblastic leukemia.

Neurological complications and EEG slowing frequently occur in children undergoing induction treatment for acute lymphoblastic leukemia (ALL). Disease-related factors and treatment-related toxicity are believed to play causative roles. We wanted to elucidate the etiology further by serial EEG examinations and parallel CSF amino acid analyses. Twenty-nine children participated in the study. EEG examinations with quantitative computerized analysis were scheduled on day 1, 10, 29, and 59 of protocol I of BFM-ALL 90 and 95 Study Protocols. CSF analysis for amino acids was carried out on day 1, 15, 29, 45, and 59. A total of 21 of 25 available EEGs showed slight-to-moderate slowing already at diagnosis. The abundance of slow waves was significantly correlated to the white blood count and the CSF glutamine concentration. The EEGs significantly worsened during the first 10 days of treatment with prednisone, VCR, daunorubicin, and intrathecal methotrexate. The following treatment including asparaginase (ASP) gave rise to depletion of CSF from asparagine and a rise of aspartate; glutamine, and glutamate did not follow this pattern. The EEGs remained abnormal, but did not worsen further; the CSF amino acid changes were not related to the EEG. During the subsequent consolidation treatment, the EEGs normalized despite administration of cyclophosphamide, cytara bine, intrathecal methotrexate, and mercaptopurin. The greater part of EEG changes observed in the early treatment of ALL is due to disease-related factors. Treatment with prednisone, vincristine, and to a much lesser degree asparaginase aggravates the pre-existing encephalopathy. Depletion of CSF from asparagine does not give rise to additional changes. In the second month, the EEG normalizes despite ongoing treatment with different cytotoxic drugs.

Alterations of Quantitative EEG and Mini-Mental State Examination in Interferon-α-Treated Hepatitis C

We have recently observed a diffuse slowing of brain waves using serial quantitative electroencephalographic (qEEG) examinations in interferon (IFN)-α-treated chronic hepatitis C patients. However, it remains unclear how this alteration could be assessed. We evaluated the correlation between the qEEG changes and three tests of mental status, including the Mini-Mental State Examination (MMSE), in such patients. This is the first study to undertake a clinical evaluation of the adverse effects on brain function due to IFN. We undertook blind, prospective and serial qEEG examinations on 56 chronic hepatitis C patients at three independent hospitals. IFN-α was administered intramuscularly at a dose of 9 × 10⁶ IU daily for the first 4 weeks and then 3 times/week for the next 20 weeks. Serial EEGs were obtained before, at 2 and 4 weeks of treatment, and after the IFN-α treatment. The absolute power values of each frequency band in each patient at different stages of treatment were recorded by qEEG. Each patient was assessed by the MMSE, Hamilton Rating Scale for Depression (HSD), and Hamilton Rating Scale for Anxiety (HSA). We statistically evaluated the correlations between the changes in power values and alterations of scores on the mental status tests during IFN-α treatment. The decreased scores observed on the MMSE ranged from 2 to 5 points at both 2 and 4 weeks of IFN-α treatment. There were no significant differences in age distribution for each decreased score on the MMSE. As the alteration in MMSE score during IFN treatment increased, the alteration in absolute power values for the slow waves during IFN treatment increased significantly, while that for the alpha 2 and fast waves during treatment decreased significantly. However, the changes in the HDS and HSA revealed no significant correlations. The alteration of the qEEG was reversible after the treatment. MMSE scores represent one screening method for the clinical assessment of IFN-α-induced alterations of brain function.

A Reexamination of PLEDs in the Setting of Status Epilepticus.

Serial EEG During Human Status Epilepticus: Evidence for PLED as an Ictal Pattern Garzon E, Fernandes RM, Sakamoto AC Neurology 2001;57:1175–1183 Objective To analyze the relationship between periodic lateralized epileptiform discharges (PLED) and status epilepticus (SE), to evaluate the relationship between mortality and periodic patterns, and to determine whether a stereotypic sequence of EEG patterns exists during human SE. Methods The authors performed a prospective clinical and electrographic study comprising 62 episodes of SE, 55 patients, and 254 ictal/postictal EEG recordings. Serial daily EEG were obtained in all cases. Results Partial SE was the predominant clinical type. Four distinct ictal EEG patterns were identified: intermittent EEG seizures (IES), merging EEG seizures (MES), continuous ictal discharges (CID), and periodic epileptiform discharges (PED) which could be lateralized (PLED) or bilateral (PBED). IES was the most common ictal pattern. In the same record, only one combination of ictal patterns was observed corresponding to an association of PLED or PBED and MES pattern. Serial EEG demonstrated that approximately one-third of SE resolved before the second EEG, another one-third persisted and maintained the same ictal pattern throughout the entire evolution, and the final one-third showed variable ictal EEG patterns. PLED were also unequivocally associated with epileptic seizures, and in some patients were the initial ictal pattern. Conclusion PLED can be an ictal pattern; and, in contrast to previous observations, no stereotyped sequence of ictal EEG patterns was found. PLED/PBED were not a terminal ictal pattern in every case, and outcome was more related to age and etiology than to specific ictal EEG patterns.

A Reexamination of PLEDs in the Setting of Status Epilepticus

ObjectiveTo analyze the relationship between periodic lateralized epileptiform discharges (PLED) and status epilepticus (SE), to evaluate the relationship between mortality and periodic patterns, and to determine whether a stereotypic sequence of EEG patterns exists during human SE. MethodsThe authors performed a prospective clinical and electrographic study comprising 62 episodes of SE, 55 patients, and 254 ictal/postictal EEG recordings. Serial daily EEG were obtained in all cases. ResultsPartial SE was the predominant clinical type. Four distinct ictal EEG patterns were identified: intermittent EEG seizures (IES), merging EEG seizures (MES), continuous ictal discharges (CID), and periodic epileptiform discharges (PED) which could be lateralized (PLED) or bilateral (PBED). IES was the most common ictal pattern. In the same record, only one combination of ictal patterns was observed corresponding to an association of PLED or PBED and MES pattern. Serial EEG demonstrated that approximately one-third of SE resolved before the second EEG, another one-third persisted and maintained the same ictal pattern throughout the entire evolution, and the final one-third showed variable ictal EEG patterns. PLED were also unequivocally associated with epileptic seizures, and in some patients were the initial ictal pattern. ConclusionPLED can be an ictal pattern; and, in contrast to previous observations, no stereotyped sequence of ictal EEG patterns was found. PLED/PBED were not a terminal ictal pattern in every case, and outcome was more related to age and etiology than to specific ictal EEG patterns.

The temporal dynamics of postanoxic burst-suppression EEG.

Burst-suppression EEG (BS-EEG) after cardiopulmonary resuscitation implies a bad prognosis, but little is known of the temporal dynamics of postanoxic BS-EEG. The authors studied 24 consecutive patients who developed BS-EEG within 24 hours after cardiopulmonary resuscitation, and followed 20 of these patients with serial EEGs. Except for one patient, BS-EEG was followed by another EEG pattern within 1 day, mainly areactive alpha EEG (n = 6), isoelectric EEG (n = 5), generalized continuous epileptiform discharges (n = 4), or theta; EEG (n = 3). The coexistence of different EEG patterns in the same recording was seen in 10 patients. Serial recordings disclosed a variety of EEG sequences with (often subtle) transitions between the different EEG patterns, including reappearance of BS-EEG. Postanoxic BS-EEG is followed by a variety of EEG sequences composed of different EEG patterns, each of which is recognized as an unfavorable sign in and of itself. The coexistence of different unfavorable EEG patterns in the same recording, and transitions between these EEG patterns in subsequent recordings, are common in patients with postanoxic BS-EEG. It seems reasonable to speculate that BS-EEG and subsequently evolving EEG patterns in anoxic encephalopathy reflect different forms of neocortical dysfunction, which occur at different stages of a dynamic process, leading ultimately to severe neuronal loss.

Neurophysiological study of secondary synchronous occipito-frontopolar spikes in childhood

Objectives: We conducted this latency study to clarify the neurophysiological mechanism underlying the synchronous appearance of independent occipital and frontopolar spike discharges in childhood epilepsies. Methods: The subjects were 13 children with localization-related epilepsies (LRE) who showed apparently synchronous occipital and frontopolar EEG spike discharges. There was idiopathic LRE in 7 children, symptomatic LRE in 4, and cryptogenic LRE and a history of cryptogenic West syndrome in one patient each. Patient ages at the time of the study ranged from 4 years 3 months to 14 years 0 month with a mean of 9 years 4 months. The EEGs were digitized at 1024 samples/s. The latency was measured between the peak of the occipital and frontopolar spike discharges. The conduction velocity was calculated by dividing the distance between the occipital and frontopolar electrodes by the latencies. Results: We studied 19 EEGs including 6 serial EEGs recorded longitudinally in 5 patients. The number of occipito-frontal spike discharges available for the study ranged from 12 to 70 with an average of 36±17 in each EEG record. Occipital spikes always preceded the frontopolar spikes by 11.1–31.6 ms (average 19.3±5.4 ms). The estimated conduction velocity ranged from 6.7 to 19.2 m/s with a mean of 12.2±3.7 m/s. Conclusions: The synchronizing spike phenomenon we showed in this study was in the posterior to anterior direction (intrahemispheric synchrony) in contrast to that of secondary bilateral interhemispheric synchrony through the corpus callosum. It is suggested that the long occipito-frontal association fibers play a role in synchronizing both spike discharges. This secondary occipito-frontopolar synchrony should be one of the developmental EEG phenomena related to the maturation of brain, and contribute to the multiplication or diffusion of the pre-existing localized spike discharges often seen in pediatric LRE regardless of etiology.

Serial EEG during human status epilepticus: evidence for PLED as an ictal pattern.

To analyze the relationship between periodic lateralized epileptiform discharges (PLED) and status epilepticus (SE), to evaluate the relationship between mortality and periodic patterns, and to determine whether a stereotypic sequence of EEG patterns exists during human SE. The authors performed a prospective clinical and electrographic study comprising 62 episodes of SE, 55 patients, and 254 ictal/postictal EEG recordings. Serial daily EEG were obtained in all cases. Partial SE was the predominant clinical type. Four distinct ictal EEG patterns were identified: intermittent EEG seizures (IES), merging EEG seizures (MES), continuous ictal discharges (CID), and periodic epileptiform discharges (PED) which could be lateralized (PLED) or bilateral (PBED). IES was the most common ictal pattern. In the same record, only one combination of ictal patterns was observed corresponding to an association of PLED or PBED and MES pattern. Serial EEG demonstrated that approximately one-third of SE resolved before the second EEG, another one-third persisted and maintained the same ictal pattern throughout the entire evolution, and the final one-third showed variable ictal EEG patterns. PLED were also unequivocally associated with epileptic seizures, and in some patients were the initial ictal pattern. PLED can be an ictal pattern; and, in contrast to previous observations, no stereotyped sequence of ictal EEG patterns was found. PLED/PBED were not a terminal ictal pattern in every case, and outcome was more related to age and etiology than to specific ictal EEG patterns.

The Timing of Brain Insults in Preterm Infants Who Later Developed West Syndrome

Abstract. The aim of this study is to clarify the timing of brain injuries in preterm infants who later developed West syndrome. We assessed the timing of brain insults with serial EEG recordings beginning immediately after birth in preterm infants less than 33 weeks of gestational age. The timing of brain insult was assessed by considering EEG findings in relation to the time of birth. The timing was considered prenatal if an EEG immediately after birth already showed chronic stage abnormalities, perinatal if it showed acute stage abnormalities, and postnatal if it was normal and a later EEG showed acute stage abnormalities. Eleven infants had periventricular leukomalacia and developed West syndrome. The timing of the brain insult was considered prenatal in 5 infants, perinatal in 2, postnatal in 2, prenatal plus postnatal in one, perinatal plus postnatal in one. The infants of less than 29 weeks of gestation were more likely to suffer brain damage postnatally, whereas those of more than 28 weeks tended to have brain injury prenatally. The timing of brain injury of preterm infants who later developed West syndrome is more often prenatal than generally considered.

EEG changes with vagus nerve stimulation.

Vagus nerve stimulation (VNS) has been shown to induce EEG changes in animals, but human studies have not shown any significant acute EEG changes. This study is to determine the long-term effect of VNS on EEG. Twenty-one patients aged 4 to 31 years (mean: 14.1 +/- 7.0 years) were studied for a mean duration of 16.8 months with serial EEGs performed at baseline and at 3 months, 6 months, and 12 months after receiving a VNS implant. Five patients who showed active spikes/spike and wave activity on baseline EEGs were found to have synchronization of epileptiform activity, progressive increase in duration of spike-free intervals (P < 0.05), and progressive decrease in duration and frequency of spikes/spike and wave activity (P < 0.01) with time. The remaining 16 patients with less active baseline EEGs did not show obvious synchronization or clustering of spikes but also showed a statistically significant progressive decrease in the number of spikes on EEG with time (P < 0.004 at 3 months, P < 0.008 at 6 months, and P < 0.004 at 1 year). Vagus nerve stimulation induces progressive EEG changes in the form of clustering of epileptiform activity followed by progressively increased periods of spike-free intervals. This may reflect the mechanism of action of VNS in achieving seizure control: alternating synchronization and desynchronization of EEG, with the latter being progressively the dominant feature.

EEG Monitoring in Depressed Patients Undergoing Repetitive Transcranial Magnetic Stimulation

To date, 33 subjects diagnosed with major depressive disorder have undergone transcranial magnetic stimulation (TMS) in the authors' clinic. Five of these patients showed minimal electroencephalogram (EEG) variants at baseline. The authors describe the course of treatment and serial EEGs in 3 of the 5 patients who did not show progressive EEG changes in association with active rTMS. These three cases suggest that minimal EEG anomalies at baseline need not serve as a contraindication to undergoing rTMS. Two patients with progressive EEG changes in association with sham rTMS in one and active rTMS in the other are also discussed.

Crisis parciales postraumáticas

Post traumatic epilepsy represents 4% of the prevalence of the disorder and is one of the sequelas which is most difficult to prevent. Risk factors have been described to predict the appearance of seizures.A seven year old boy with a severe head injury was admitted to the Intensive Care Unit. On neuroimaging studies there were multiple foci of contusion, mainly in the left hemisphere, and blood in the III and IV ventricles and frontal horn of the left lateral ventricle. The patient had severe sequelae of head injury with a right spastic hemiplegia and hemiparesia with hypertony of the left side, together with complete blindness of both eyes due to bilateral atrophy of the optic nerve. Serial EEG were done, in which a recording showed alternating periods of hypervoltage grapho elements superimposed on a trace of very low voltage, with continuous activity of low voltage and low frequency. There were no grapho elements with acute morphology. However, the patient had a first partial seizure a year and a half after his head injury. On the EEG an epileptogenic focus was identified in the left hemisphere. Within two years of his head injury he had seven seizures. He had not received prophylactic antiepileptic treatment after the head injury.We report a case of epilepsy secondary to a head injury, in which the first seizure occurred one and a half years after injury. In view of the risk factors, we discuss whether prophylactic anti epileptic treatment might have been beneficial.