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The Risks of Alcohol Withdrawal Inducing Generalised Non-Convulsi
Journal of Alcoholism & Drug Dependence

Journal of Alcoholism & Drug Dependence
Open Access

ISSN: 2329-6488

+44 1223 790975

Case Report - (2014) Volume 2, Issue 5

The Risks of Alcohol Withdrawal Inducing Generalised Non-Convulsive Status Epilepticus (NCSE) in Patients Undergoing Electro-Convulsive Therapy

Lloyd Reeve Johnson1*, Alston Unwin2 and Harry McConnell3
1Faculty of Health, Queensland University of Technology, Brisbane, Australia
2Director of Medical Services, Belmont Private Hospital, Brisbane, Australia
3Clinical Sub-Dean, Griffith University, Gold Coast, Australia
*Corresponding Author: Lloyd Reeve Johnson, Professor, Faculty of Health, Queensland University of Technology, Australia, Tel: +617-3202-5701 Email:

Abstract

Alcohol and drug dependence are strongly associated with major depression. ECT remains an effective yet poorly understood treatment and NCSE is a serious, apparently uncommon, yet probably under-reported side-effect of ECT especially in those who have recently withdrawn from alcohol or benzodiazepine drugs. Alcohol or drug dependence should be considered risk factors for non-convulsive status epilepticus in patients undergoing ECT and withdrawal should be complete before ECT is prescribed.

Case

A 41 year old, 62 kg (BMI 19.8 kg/m2) childless professional lady with no history of epilepsy was admitted for treatment with suicidal ideation and ongoing major depression over 20 years. She had a longterm history of alcohol abuse (12-14 units per night) and apart from an incidentally discovered Factor V Lieden had no other remarkable medical history. There were no neurological deficits. Previous medication that had proved ineffective included desvenlofaxin (150 mg mane) with concurrent quetiapine (200 mg mane) and mirtazapine (30 mg nocte) had been discontinued 14 days before. Alcohol intake had been restricted for the past week in the hospital setting and she was receiving 40 mg diazepam daily for alcohol withdrawal. Current medications were zolpide tartrate (25 mg nocte), chloral hydrate (20 mls nocte) and dothiepin hydrochoride (50 mg bedtime-tid for insomnia). She was also receiving sodium valproate (VPA) (400 mg BD, aimed at maintaining blood levels of approximately 600 μmol/L), lithium carbonate (250 mg TID) and PRN paracetamol 1 g approximately every other night for headache. The only reported drug interaction or allergy previous to this was with penicillin. She had no history of seizures or epilepsy.

She had received eight previous ECT treatments over the past four weeks with no major adverse events, experiencing a minor degree of confusion and no memory loss. Small improvements in symptoms were noted from the seventh ECT treatment, amounting to a marginal improvement in her General Assessment of Function (GAF) score of no more than 10 (improving from a rating of 40-50). This amounted to a lessening of serious social impairment and inability to interact socially to symptoms of flat effect and elective avoidance behaviours. She consented to two further ECT treatments.

On the ninth treatment occasion no epileptiform EEG or EMG activity was recorded with initial charges of 401.3 mC for 7.5 seconds or 602.2 mC 7.6 seconds. The third attempt involved 1013.8 mC for 8 seconds. After 15 seconds an electrographic seizure was captured, with generalized epileptiform activity without any clinical EMG change. The EEG registered bilateral seizure activity. She was considered to be tolerant to benzodiazepine and her current dosage of VPA was 800mg daily. Phenytoin sodium (15 mg/kg) was administered over a 15 second period by intravenous injection at 28 seconds, but EEG seizure activity persisted for a total of 1130 seconds.

It was then terminated with intravenous propofol (2 mg/kg). The patient recovered fully with no adverse effects to memory or headache and the period of recovery and confusion post-anesthetic was not significantly different to other general anesthetic recoveries.

Discussion

A number of potential risk factors for NCSE have been suggested. These have included being over 70 years of age and applying right unilateral stimulation [1], medications that lower seizure threshold such as lithium [2,3], paroxitine [4,5], thioridazine [6] and haloperidol [5,7]. Grogan et al. [3] suggested these to be necessary cofactors in the precipitation of NCSE. However, the literature is not conclusive and all of the above have been used safely in many patients [8]. No published cases have recorded patient’s alcohol intake history or withdrawal and we consider this to be a relevant factor in this case. Benzodiazepine reduction was also feature of this case and is noted to have occurred in three other cases of NCSE after ECT [5,9,10]. In six of nine reported cases of NCSE patients had received multiple ECT treatments (mean 6.5).

Electro-Convulsive Therapy (ECT) is an effective treatment used for severe depression. Electric current applied via electrodes on the head induces a seizure which is typically self-limiting and usually lasts less than a minute [3]. Complications are usually short lived and include headache, memory loss and confusion. More serious is the potential for prolonged seizure [11]. However, extensive literature review reveals only fourteen detailed reports of convulsive status epilepticus over a 33 year period following ECT. Even less frequent is Non Convulsive Status Epilepticus (NCSE) with twelve cases located in the literature of which only five have been described in detail over the same period. A literature search of the Cochrane Library database and PubMed using advanced terminology was performed searching the following terms and synonyms: status epilepticus +non-convulsive ± electro-convulsive therapy ± ECT ± EMG. This is the first Australian case report that we can find in the literature probably reflecting local under-diagnosis.

The causes of NCSE remain unknown, however of the twelve cases identified over a 33 year period, nine were female and three male. The median age was 41 years old. There was one case of an 18 year old male receiving thoridazine (100 mg/day) and trihexyphenidyl [6], the mean age of the other cases was 45 years old (range 26-87). Of six cases which described the seizure length the median length was 3.5 days (range 350 seconds to 5 days) with three described as bilateral, two as unilateral and the rest uncharacterized. In one case NCSE was described after the first treatment [1], however in all other cases NCSE occurred after multiple treatments. The mean number of treatments before NCSE was recorded was 6-7 treatments (range 1-9). Both in our case and in others where VPA was used [7] refractory seizures were readily controlled. Similar to this case others also reported incomplete seizure control with phenytoin [1,3,5,7] and diazepam [3,9].

In a number of cases including our own (where quetiapine was administered), neuroleptic drugs had been used such as (thioridazine) [6], (haloperidol) [3], (haloperidol) [5], (risperidone) [9].

Without ongoing EEG monitoring, detection of NCSE can be difficult to differentiate from acute confusional states post ECT or possibly other neuroleptic drug interactions. It is likely that NCSE is under-diagnosed particularly as it can manifest after a delay of many hours or days after ECT. NCSE should therefore be included in the differential diagnosis of any patient displaying unusual behaviour after ECT.

Routinely repeated EEG monitoring is appropriate during the first week post-ECT in any patient where there is any doubt about their behaviour or response. Patients on neuroleptic medication, those suspected of having a lower seizure threshold (e.g. on Lithium) and patients who have recently had alcohol or benzodiazepine withdrawal should be viewed as having elevated risk of NCSE when undergoing ECT.

References

  1. Smith K, Keepers G (2000) Nonconvulsive status epilepticus after ECT. Am J Psychiatry 157: 1524.
  2. Weiner RD (1981) ECT-induced status epilepticus and further ECT: a case report. Am J Psychiatry 138: 1237-1238.
  3. Grogan R, Wagner DR, Sullivan T, Labar D (1995) Generalized nonconvulsive status epilepticus after electroconvulsive therapy. Convuls Ther 11: 51-56.
  4. Curran S (1995) Effect of paroxetine on seizure length during electroconvulsive therapy. Acta PsychiatrScand 92: 239-240.
  5. Srzich A, Turbott J (2000) Nonconvulsivegeneralised status epilepticus following electroconvulsive therapy. Aust N Z J Psychiatry 34: 334-336.
  6. Rao KM, Gangadhar BN, Janakiramaiah N (1993) Nonconvulsive Status Epilepticus after the Ninth Electroconvulsive Therapy. ConvulsTher 9: 128-129.
  7. Varma NK, Lee SI (1992) Nonconvulsive status epilepticus following electroconvulsive therapy. Neurology 42: 263-264.
  8. Kellner CH, Nixon DW, Bernstein HJ (1991) ECT--drug interactions: a review. Psychopharmacol Bull 27: 595-609.
  9. Parker V, Nobler MS, Pedley TA, Sackeim HA (2001) A unilateral, prolonged, nonconvulsive seizure in a patient treated with bilateral ECT. J ECT 17: 141-145.
  10. Conway CR, Nelson LA (2001) The combined use of bupropion, lithium, and venlafaxine during ECT: a case of prolonged seizure activity. J ECT 17: 216-218.
  11. Fountain NB (2000) Status epilepticus: risk factors and complications. Epilepsia 41 Suppl 2: S23-30.
Citation: Reeve-Johnson L, Unwin A, McConnell H (2014) The Risks of Alcohol Withdrawal Inducing Generalised Non-Convulsive Status Epilepticus (NCSE) in Patients Undergoing Electro-Convulsive Therapy. J Alcohol Drug Depend 2:178.

Copyright: © 2014 Reeve-Johnson L et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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