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Purpose: Acute-on-chronic subdural hematoma (acSDH) describes acute bleeding into a chronic subdural hematoma (SDH), after surgery or second trauma. Because seizures are a well-known complication of SDH, associated with substantial morbidity and mortality, we aimed to analyze the incidence of acute symptomatic seizures (ASz), including status epilepticus, and determine the functional outcomes in this specific cohort of patients.
Methods: A retrospective analysis was performed, including patients with acSDH who were admitted to our department between 2010 and 2019. The incidence and timely onset of ASz and status epilepticus were evaluated. Functional outcomes at discharge and at 3–6 month follow-up were analyzed based on the modified Rankin scale.
Results: Of 506 patients with chronic SDH, 29 patients (5.7%) were diagnosed with acSDH. The overall incidence of ASz and status epilepticus were 72.4% and 10.3%, respectively. Favorable outcomes were identified in 11 patients (52.4%) in the ASz group compared with 6 patients (75%) in the non-ASz group. The mortality rate was higher in the ASz group compared with that in the control group (29% vs 0%). At follow-up, favorable outcomes were similar to those observed at discharge (52.4% in the ASz group and 71.4% in the control group). The mortality rate was still higher in the ASz group, at 32% compared with 14% for the control group.
Conclusion: AcSDH has a high risk for ASz, including status epilepticus, and is associated with unfavorable outcomes and high mortality. Thus, prophylactic treatment with antiepileptic drugs should be considered among this specific cohort of patients.
Diese S2k-Leitlinie (LL) zum Status epilepticus (SE) im Erwachsenenalter schreibt die letzte DGN-LL zum SE von 2012 fort. Neue Definitionen und Evidenz wurden bei der Erstellung der LL und des Clinical Pathway berücksichtigt. Jeder epileptische Anfall, der länger als 5 Minuten anhält (oder ≥ 2 Anfälle über einen Zeitraum von mehr als 5 Minuten ohne Wiedererlangen des neurologischen Ausgangsstatus), soll als SE behandelt werden.
In der Diagnostik sollte initial eine CCT oder, wenn möglich, eine MRT erfolgen. Das EEG spielt bei der Diagnosestellung und beim Therapiemonitoring von non-konvulsiven SE und zum Ausschluss bzw. Nachweis psychogener nichtepileptischer Anfälle eine wesentliche Rolle. Der prognostische Einfluss von insbesondere entzündlichen Begleiterkrankungen (z. B. Pneumonie) wurde besser belegt, weshalb entsprechende Laborparameter auch im Verlauf kontrolliert werden sollten und ggf. frühzeitig eine antibiotische Therapie initiiert werden sollte.
Die Therapie erfolgt in 4 Stufen: 1. Initialer SE: Gabe eines ausreichend hoch dosierten Benzodiazepins i. m., i. v. oder i. n.; 2. Benzodiazepin-refraktärer SE: 1. Wahl ist die i.v. Gabe von Levetiracetam oder Valproat; 3. Refraktärer SE (RSE) und 4. Superrefraktärer SE (SRSE): I.v. Propofol oder Midazolam alleine oder in Kombination oder Thiopental in anästhetischen Dosen. Beim fokalen non-konvulsiven RSE kann unter Umständen auf die Einleitung eines therapeutischen Komas verzichtet werden. Bei SRSE sollte die ketogene Diät zum Einsatz kommen. I.v. Ketamin oder inhalatives Isofluran kann erwogen werden. In Einzelfällen kann die elektrokonvulsive Therapie und, bei resektabler epileptogener Zone, ein Epilepsie chirurgischer Eingriff erwogen werden. I.v. Allopregnanolon oder die Hyperthermie sollen nicht eingesetzt werden.
Der Vorstand der Deutschen Gesellschaft für Epileptologie und die Kommission „Epilepsie und Synkopen“ der Deutschen Gesellschaft für Neurologie haben die aktuelle Datenlage zur Impfung zur Vorbeugung der Corona-Virus-Krankheit 2019 (COVID-19) sowie zur Impfpriorisierung bei Menschen mit Epilepsie gesichtet, diese zusammengefasst und geben die unten genannten Empfehlungen ab.
Background: We aimed to determine the association between seizure termination and side effects of isoflurane for the treatment of refractory status epilepticus (RSE) and super-refractory status epilepticus (SRSE) in neurointensive care units (neuro-ICUs).
Methods: This was a multicenter retrospective study of patients with RSE/SRSE treated with isoflurane for status epilepticus termination admitted to the neuro-ICUs of nine German university centers during 2011–2018.
Results: We identified 45 patients who received isoflurane for the treatment of RSE/SRSE. During isoflurane treatment, electroencephalograms showed no epileptiform discharges in 33 of 41 (80%) patients, and burst suppression pattern was achieved in 29 of 41 patients (71%). RSE/SRSE was finally terminated after treatment with isoflurane in 23 of 45 patients (51%) for the entire group and in 13 of 45 patients (29%) without additional therapy. Lengths of stay in the hospital and in the neuro-ICU were significantly extended in cases of ongoing status epilepticus under isoflurane treatment (p = 0.01 for length of stay in the hospital, p = 0.049 for length in the neuro-ICU). During isoflurane treatment, side effects were reported in 40 of 45 patients (89%) and mainly included hypotension (n = 40, 89%) and/or infection (n = 20, 44%). Whether side effects occurred did not affect the outcome at discharge. Of 22 patients with follow-up magnetic resonance imaging, 2 patients (9%) showed progressive magnetic resonance imaging alterations that were considered to be potentially associated with RSE/SRSE itself or with isoflurane therapy.
Conclusions; Isoflurane was associated with a good effect in stopping RSE/SRSE. Nevertheless, establishing remission remained difficult. Side effects were common but without effect on the outcome at discharge.
Background: There are no blood-based molecular biomarkers of temporal lobe epilepsy (TLE) to support clinical diagnosis. MicroRNAs are short noncoding RNAs with strong biomarker potential due to their cell-specific expression, mechanistic links to brain excitability, and stable detection in biofluids. Altered levels of circulating microRNAs have been reported in human epilepsy, but most studies collected samples from one clinical site, used a single profiling platform or conducted minimal validation.
Method: Using a case-control design, we collected plasma samples from video-electroencephalogram-monitored adult TLE patients at epilepsy specialist centers in two countries, performed genome-wide PCR-based and RNA sequencing during the discovery phase and validated findings in a large (>250) cohort of samples that included patients with psychogenic non-epileptic seizures (PNES).
Findings: After profiling and validation, we identified miR-27a-3p, miR-328-3p and miR-654-3p with biomarker potential. Plasma levels of these microRNAs were also changed in a mouse model of TLE but were not different to healthy controls in PNES patients. We determined copy number of the three microRNAs in plasma and demonstrate their rapid detection using an electrochemical RNA microfluidic disk as a prototype point-of-care device. Analysis of the microRNAs within the exosome-enriched fraction provided high diagnostic accuracy while Argonaute-bound miR-328-3p selectively increased in patient samples after seizures. In situ hybridization localized miR-27a-3p and miR-328-3p within neurons in human brain and bioinformatics predicted targets linked to growth factor signaling and apoptosis.
Interpretation: This study demonstrates the biomarker potential of circulating microRNAs for epilepsy diagnosis and mechanistic links to underlying pathomechanisms.