Ev-Christin Heide scite author profile

Pathogenic variants in HECW2 are extremely rare. So far, only 19 cases have been reported. They were associated with epilepsy, intellectual disability, absent language, hypotonia, and autism. As these cases were all de novo mutations, mostly presenting without identical variants, variable expressivity has never been investigated. Here, we describe the first family with the same novel variant in HECW2. A 19-year old female patient presented with bursts of generalized spike-wave discharges and intellectual disability. We performed next-generation-sequencing, to detect the genetic cause. Next-generation-sequencing revealed a novel likely pathogenic variant in HECW2 (c.3571C>T; p.Arg1191Trp) in the index patient, her mother and brother.They showed some similar phenotypic patterns with intellectual disability, hypotonia and generalized epileptiform patterns. However, the mother was less severely affected and epileptiform patterns were less frequent. The brother presented with additional autistic features. In contrast to previous cases, the speech of all individuals was only mildly impaired. This is the first case report of a family with the same novel likely pathogenic variant in HECW2 and as such provides insight into the phenotypic variability of this mutation. The expressivity of symptoms may be so mild that genetic and EEG analysis are needed to disclose the correct diagnosis.

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Feasibility of high‐density electric source imaging in the presurgical workflow: Effect of number of spikes and automated spike detection

Heide

Velden

Garnica

et al. 2023

Epilepsia Open

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ObjectivePresurgical high‐density electric source imaging (hdESI) of interictal epileptic discharges (IEDs) is only used by few epilepsy centers. One obstacle is the time‐consuming workflow both for recording as well as for visual review. Therefore, we analyzed the effect of (a) an automated IED detection and (b) the number of IEDs on the accuracy of hdESI and time‐effectiveness.MethodsIn 22 patients with pharmacoresistant focal epilepsy receiving epilepsy surgery (Engel 1) we retrospectively detected IEDs both visually and semi‐automatically using the EEG analysis software Persyst in 256‐channel EEGs. The amount of IEDs, the Euclidean distance between hdESI maximum and resection zone, and the operator time were compared. Additionally, we evaluated the intra‐individual effect of IED quantity on the distance between hdESI maximum of all IEDs and hdESI maximum when only a reduced amount of IEDs were included.ResultsThere was no significant difference in the number of IEDs between visually versus semi‐automatically marked IEDs (74 ± 56 IEDs/patient vs 116 ± 115 IEDs/patient). The detection method of the IEDs had no significant effect on the mean distances between resection zone and hdESI maximum (visual: 26.07 ± 31.12 mm vs semi‐automated: 33.6 ± 34.75 mm). However, the mean time needed to review the full datasets semi‐automatically was shorter by 275 ± 46 min (305 ± 72 min vs 30 ± 26 min, P < 0.001).The distance between hdESI of the full versus reduced amount of IEDs of the same patient was smaller than 1 cm when at least a mean of 33 IEDs were analyzed. There was a significantly shorter intraindividual distance between resection zone and hdESI maximum when 30 IEDs were analyzed as compared to the analysis of only 10 IEDs (P < 0.001).SignificanceSemi‐automatized processing and limiting the amount of IEDs analyzed (~30–40 IEDs per cluster) appear to be time‐saving clinical tools to increase the practicability of hdESI in the presurgical work‐up.

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EEG/MEG-Quellenrekonstruktion bei nichtläsioneller Epilepsie

et al. 2023

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