Marquita E. Beggarly scite author profile

The effect of gestational age on neonatal ictal and interictal durations has not been investigated. Sixty-eight neonates with 644 electrographic seizures were identified retrospectively. Thirty-five full-term (FT) neonates were compared with 33 preterm (PT) neonates. Eighteen older preterm infants (OPT) [> 31 weeks estimated gestational age (EGA)] were also compared with 15 young preterm infants (YPT) of < or = 31 weeks EGA. Ictal/interictal durations were calculated for the total cohort with and without status epilepticus (SE). Statistical analyses were two-tailed t tests, chi-square calculations, and one-way analysis of variance (ANOVA) with Duncan's multiple-range test. Eleven of 35 (33%) FT had SE as compared with 3 of 33 (9%) PT (chi-square = 7.8, p < 0.05). The mean ictal duration was 14.2 min for FT infants as compared with 3.1 min for PT infants (p < 0.01); only borderline differences were noted after those with SE were excluded. Interictal durations were longer for OPT than YPT (p < 0.05). By ANOVA and Duncan's multiple-range tests, group differences included longer mean ictal durations for FT infants as compared with OPT infants (p = 0.06, ANOVA; p < 0.05, Duncan's), and longer mean interictal durations for FT infants versus OPT and OPT versus YPT (p = 0.02, ANOVA; p < 0.05, Duncan's). More developed neuronal networks result in longer ictal durations in FT than in PT neonates, including FT infants with SE.(ABSTRACT TRUNCATED AT 250 WORDS)

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Electrographic Seizures in Preterm and Full-Term Neonates: Clinical Correlates, Associated Brain Lesions, and Risk for Neurologic Sequelae

Scher

Aso²,

Beggarly³

et al. 1993

279

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Electrographically confirmed seizures in preterm and term neonates were compared with respect to clinical correlates, incidence, associated brain lesions, and risk for neurologic sequelae. Over a 4-year period, 92 neonates from a neonatal intensive care unit population of 4020 admissions at a large obstetric hospital with 40845 livebirths had electrographically confirmed seizures. Sixty-two neonates were preterm and 30 were full-term for gestational age. Chi-square calculations were used to compare the two groups. While the incidence of seizures for all neonates admitted to a neonatal intensive care unit was 2.3%, outborn neonates were more likely to have seizures than inborn neonates. Preterm neonates of ≤30 weeks gestational age had a seizure frequency of 3.9%, which was significantly higher than that of older preterm neonates and full-term neonates. Clinical criteria contemporaneous with electrographic seizures were noted in only 28 (45%) of 62 preterm, and 16 (53%) of 30 full-term neonates. Subtle seizures coincident with electrographically confirmed seizures were the most predominant clinical type for both term and preterm neonates (71% and 68%, respectively). The distribution of clonic, myoclonic, and tonic seizures was also similar for both groups. Autonomic signs coincident with electrographically confirmed seizures (ie, blood pressure, heart rate, oxygenation, respiration changes) were more frequently observed in preterm than full-term neonates with subtle seizures; 7 (37%) of 19 compared with 1 (6%) of 16. Electrical seizures without clinical correlates were noted more frequently than electroclinical seizures for both populations. Fifteen (54%) of 28 of the preterm coincident group and 10 (63%) of 16 of the full-term group had isolated electrographic seizures without clinical seizures on the same or other records, in addition to exhibiting electroclinical seizures. More preterm neonates had a later onset of seizures (>48 hours of life) than term neonates (53% vs 13%, respectively). Ischemic brain lesions were noted in 23 (77%) of 30 of full-term compared with 24 (39%) of 62 preterm neonates. Intraventricular hemorrhange with ventriculomegaly or intraparenchymal involvement was seen in 26 (45%) of 72 preterm neonates compared with 1 (3%) of 30 full-term neonates. Mortality was greater in the preterm than in the term populations, 36 (58%) of 52, compared with 10 (30%) of 30, and a normal outcome was documented in 9 (25%) of 36 preterm neonates compared with 12 (60%) of 30 full-term survivors. However, the incidence of surviving preterm neonates epilepsy developed was the same as the fullterm survivor group at a mean age of 6 ½ years. While the electroclinical expression of neonatal seizures occurs in both preterm and full-term populations, clinical correlates, incidence, etiologic factors, and outcome factors differ between the two populations.

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Neonatal EEG-sleep disruption mimicking hypoxic-ischemic encephalopathy after intrapartum asphyxia

et al. 2002

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Clinical Significance of Focal Periodic Discharges in Neonates

Scher

Beggarly

1989

J Child Neurol

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Of 1,114 EEG recordings obtained for 592 neonates, focal periodic discharges were noted on 57 (5%) of recordings for 34 neonates (26 preterm and eight term). Periodic lateralized epileptiform discharges (PLEDs) were noted on four of these recordings. Sixteen patients (47%) with focal periodic discharges also had electrographic seizures on the same or a subsequent record. Stroke was the most common brain lesion (53%) in this neonatal population. Preterm neonates had discharges that were less than 60 seconds in duration and located in the parasagittal regions, while discharges in term neonates were longer in duration and were located in the temporal regions. Of the 34 neonates, 15 (44%) died, and 58% (11/19) of the survivors were abnormal with respect to neurological development. Focal periodic discharges in neonates, including PLEDs, have the same clinical significance as PLEDs recorded on EEGs in older children and adults.

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