Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation
. 2020 Sep;20(5):245-264.
doi: 10.1177/1535759720928269. Epub 2020 Aug 21.

Treatment of Refractory Convulsive Status Epilepticus: A Comprehensive Review by the American Epilepsy Society Treatments Committee

David G Vossler  1 Jacquelyn L Bainbridge  2 Jane G Boggs  3 Edward J Novotny  1   4 Tobias Loddenkemper  5 Edward Faught  6 Marta Amengual-Gual  5 Sarah N Fischer  2 David S Gloss  7 Donald M Olson  8 Alan R Towne  9 Dean Naritoku  10 Timothy E Welty  11
Affiliations

Treatment of Refractory Convulsive Status Epilepticus: A Comprehensive Review by the American Epilepsy Society Treatments Committee

David G Vossler et al. Epilepsy Curr. 2020 Sep.

Abstract

Purpose: Established tonic-clonic status epilepticus (SE) does not stop in one-third of patients when treated with an intravenous (IV) benzodiazepine bolus followed by a loading dose of a second antiseizure medication (ASM). These patients have refractory status epilepticus (RSE) and a high risk of morbidity and death. For patients with convulsive refractory status epilepticus (CRSE), we sought to determine the strength of evidence for 8 parenteral ASMs used as third-line treatment in stopping clinical CRSE.

Methods: A structured literature search (MEDLINE, Embase, CENTRAL, CINAHL) was performed to identify original studies on the treatment of CRSE in children and adults using IV brivaracetam, ketamine, lacosamide, levetiracetam (LEV), midazolam (MDZ), pentobarbital (PTB; and thiopental), propofol (PRO), and valproic acid (VPA). Adrenocorticotropic hormone (ACTH), corticosteroids, intravenous immunoglobulin (IVIg), magnesium sulfate, and pyridoxine were added to determine the effectiveness in treating hard-to-control seizures in special circumstances. Studies were evaluated by predefined criteria and were classified by strength of evidence in stopping clinical CRSE (either as the last ASM added or compared to another ASM) according to the 2017 American Academy of Neurology process.

Results: No studies exist on the use of ACTH, corticosteroids, or IVIg for the treatment of CRSE. Small series and case reports exist on the use of these agents in the treatment of RSE of suspected immune etiology, severe epileptic encephalopathies, and rare epilepsy syndromes. For adults with CRSE, insufficient evidence exists on the effectiveness of brivaracetam (level U; 4 class IV studies). For children and adults with CRSE, insufficient evidence exists on the effectiveness of ketamine (level U; 25 class IV studies). For children and adults with CRSE, it is possible that lacosamide is effective at stopping RSE (level C; 2 class III, 14 class IV studies). For children with CRSE, insufficient evidence exists that LEV and VPA are equally effective (level U, 1 class III study). For adults with CRSE, insufficient evidence exists to support the effectiveness of LEV (level U; 2 class IV studies). Magnesium sulfate may be effective in the treatment of eclampsia, but there are only case reports of its use for CRSE. For children with CRSE, insufficient evidence exists to support either that MDZ and diazepam infusions are equally effective (level U; 1 class III study) or that MDZ infusion and PTB are equally effective (level U; 1 class III study). For adults with CRSE, insufficient evidence exists to support either that MDZ infusion and PRO are equally effective (level U; 1 class III study) or that low-dose and high-dose MDZ infusions are equally effective (level U; 1 class III study). For children and adults with CRSE, insufficient evidence exists to support that MDZ is effective as the last drug added (level U; 29 class IV studies). For adults with CRSE, insufficient evidence exists to support that PTB and PRO are equally effective (level U; 1 class III study). For adults and children with CRSE, insufficient evidence exists to support that PTB is effective as the last ASM added (level U; 42 class IV studies). For CRSE, insufficient evidence exists to support that PRO is effective as the last ASM used (level U; 26 class IV studies). No pediatric-only studies exist on the use of PRO for CRSE, and many guidelines do not recommend its use in children aged <16 years. Pyridoxine-dependent and pyridoxine-responsive epilepsies should be considered in children presenting between birth and age 3 years with refractory seizures and no imaging lesion or other acquired cause of seizures. For children with CRSE, insufficient evidence exists that VPA and diazepam infusion are equally effective (level U, 1 class III study). No class I to III studies have been reported in adults treated with VPA for CRSE. In comparison, for children and adults with established convulsive SE (ie, not RSE), after an initial benzodiazepine, it is likely that loading doses of LEV 60 mg/kg, VPA 40 mg/kg, and fosphenytoin 20 mg PE/kg are equally effective at stopping SE (level B, 1 class I study).

Conclusions: Mostly insufficient evidence exists on the efficacy of stopping clinical CRSE using brivaracetam, lacosamide, LEV, valproate, ketamine, MDZ, PTB, and PRO either as the last ASM or compared to others of these drugs. Adrenocorticotropic hormone, IVIg, corticosteroids, magnesium sulfate, and pyridoxine have been used in special situations but have not been studied for CRSE. For the treatment of established convulsive SE (ie, not RSE), LEV, VPA, and fosphenytoin are likely equally effective, but whether this is also true for CRSE is unknown. Triple-masked, randomized controlled trials are needed to compare the effectiveness of parenteral anesthetizing and nonanesthetizing ASMs in the treatment of CRSE.

Keywords: ASM; RSE; antiseizure medications; convulsive refractory status epilepticus; refractory status epilepticus.

PubMed Disclaimer

Conflict of interest statement

Declaration of Conflicting Interests: The author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: Dr. Bainbridge: Advisor to Sunovion; research support from Supernus; research academic relationship with GW Pharma (July 2016-July 2018). Dr. Boggs: Research support from LivaNova, NeuroPace, Medtronic, UCB Pharma, Upsher-Smith, Marinus, Lundbeck, and Eisai; advisory panel for SK Life Science. Dr. Faught: Stock in Pfizer; consultant for Biogen, Eisai, UCB Pharma (2015-2020); Data/Safety Monitoring Boards for SK Life Science, SAGE (2015-2020); expert testimony for Alabama Board of Medical Examiners (2018-2019); research support as site PI for Brain Sentinel, UCB Pharma, Xenon Pharmaceuticals (2015-2020); consultant for University of Alabama Birmingham and Emory University; Chair, Treatments Committee, American Epilepsy Society (2015-2018); Chair, ILAE Task Force on Epilepsy in the Elderly (2017-2021); Pharmacy Core Committee, Epilepsy Consortium (2014-2020). Dr. Fischer: Research grant from Supernus. Dr. Gloss: Employed as the chair of Neurology at Charleston Area Medical Center; approximately 5% of practice is caring for patients who are in status epileptics; Paid evidence-based medicine methodologist for AAN for part of study period. Dr. Gual: Partial research fellow salary support from private Spanish Foundation, Fundación Alfonso Martín Escudero (2018-2019). Dr. Loddenkemper: Self: Physician performing EEG procedures and other electrophysiological studies and evaluating pediatric neurology patients for Boston Children’s Hospital and affiliated hospitals; Speaker honorarium from AES, American Academy of Neurology, and Grand Rounds at various academic centers; Speaker honorarium/travel support from 7th London-Innsbruck Colloquium on Status Epilepticus and Acute Seizures, American Epilepsy Society, University of Paderborn, American Clinical Neurophysiology Society, and various international centers or meetings; travel support from Lehman Foundation; device loans from Embrace, Smartwatch, Neuroelectrics, Sam-E, and Epitel; pending patent applications for seizure detection/prediction/epilepsy management; founder and consortium PI for Pediatric Status Epilepticus Research Group; investigator-initiated research grants from Eisai, Lundbeck, Mallinckrodt, and Upsher-Smith; research support from Acorda Therapeutics, American Epilepsy Society, Boston Children’s Hospital, CIMIT/DoD, CURE, Danny Did Foundation, Empatica, Epilepsy Foundation of America, Epilepsy Research Fund, Epilepsy Therapy Project, HHV 6 Foundation, NIH, PCORI, Pediatric Epilepsy Research Foundation, Pfizer, Sage, and Sunovion; other support (consulting, speaker, advisory board, travel, epilepsy research, patient online consultation, or other) from Advance Medical, Amzell, ANA, Danny Did Foundation, Dreifuss Penry Award, Eisai, Elsevier, Engage, Grand Rounds, Integritas, Lundbeck, Market Research, SEK, Stratis, Sunovion, Trivox, UCB, Upsher-Smith, and Zogenix; Associate Editor for Seizure; Associate Editor for Wyllie’s Treatment of Epilepsy, 6th ed and 7th ed; Board Member for AMBRET, American Board of Clinical Neurophysiology, and NORSE Institute; Council Member, Vice President, and President for American Clinical Neurophysiology Society. Spouse: Physician performing EEG procedures and other electrophysiological studies and evaluating pediatric neurology patients for Northshore Medical Center/UMass Medical Center/Boston Children’s Hospital. Dr. Naritoku: Speakers bureau for Sunovion, Eisai, and SK Life Science; advisory board for SK Life Science; site PI in clinical trial for Xenon (XPF-008-201). Dr. Novotny: Self: Honorarium and travel for UCB (2016); honorarium for Upsher-Smith Lab (2015); scientific advisory board with travel expenses for Zogenix (July 2019); investigator on pSERG (Pediatric Status Epilepticus Research Group) supported by PERF (Pediatric Epilepsy Research Foundation) (2017-present); investigator for Clinical Trials for Eisai (E2007-G000-236) (2019-2020); investigator with research support from Seattle Children's Research Institute (Molecular diagnostic of focal cortical dysplasias) (11/2018 - 12/2020); investigator for Brotman-Baty Institute of Precision Medicine at University of Washington (Collaborative proposal to accelerate gene discovery in pediatric and adult epilepsy surgery) (7/2019 - 6/2020); site PI for The Epilepsy Phenome/Genome Project (EPGP) (NINDS 5U01NS053998-04. Lowenstein, D) (5/1/2007-4/30/2012). Spouse: Salary support as investigator for The NIH Undiagnosed Diseases Network (9/2019 - 10/2024); salary support as Fellowship Program Director for NIH Medical Genetics Postdoctoral Fellowship (5 T32 GM007454 43); Institutional Review Board (IRB) member with paid travel for NIH All of Us Research Program. Dr. Olson: No relevant disclosures. Dr. Vossler: Research support to institution as PI on clinical trials for UCB Pharma, Sunovion, GlaxoSmithKline, Vertex, Accorda, Pfizer, Eisai, SK Life Science, and Biogen; consultant to or speaker’s bureau for UCB Pharma, Lundbeck, Eisai, Otsuka, Omeros, and Greenwich Pharmaceuticals. Dr. Towne: Supported by the U.S. Department of Defense and the Department of Veterans Affairs; grants from UCB Pharma, Congressionally Directed Medical Research Programs, and Brain Sentinel Inc.; research grant and speakers bureau for Allergan (for headache, not epilepsy). Dr. Welty: No relevant financial relationships.

References

    1. Trinka E, Cock H, Hesdorffer D, et al. A definition and classification of status epilepticus—report of the ILAE Task Force on Classification of Status Epilepticus. Epilepsia. 2015;56(10):1515–1523. - PubMed
    1. Treatment of convulsive status epilepticus. Recommendations of the Epilepsy Foundation of America’s Working Group on Status Epilepticus. JAMA. 1993;270(7):854–859. - PubMed
    1. Glauser T, Shinnar S, Gloss D, et al. Evidence-based guideline: treatment of convulsive status epilepticus in children and adults: report of the Guideline Committee of the American Epilepsy Society. Epilepsy Curr. 2016;16(1):48–61. - PMC - PubMed
    1. Brophy GM, Bell R, Claassen J, et al. Guidelines for the evaluation and management of status epilepticus. Neurocritical Care. 2012;17(1):3–23. - PubMed
    1. Meierkord H, Boon P, Engelsen B, et al. EFNS guideline on the management of status epilepticus in adults. Euro J Neurol. 2010;17(3):348–355. - PubMed

LinkOut - more resources