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Anaesthesia for electroconvulsive therapy: a role for etomidate

Published online by Cambridge University Press:  02 January 2018

Joe Crentsil
Affiliation:
ECT Department, Edale Building, Manchester Royal Infirmary, Oxford Road, Manchester M13 9WL
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Abstract

Aims and Method

Three cases are described to illustrate the elective use of etomidate in electroconvulsive therapy (ECT) anaesthesia.

Results

Use of etomidate is described in an individual who was treated with an electrical stimulus at the maximum level for the ECT machine in use; in a person who had severe side-effects with an alternative induction agent; and in a person with severe cardiac disease.

Clinical Implications

The anaesthetic drug should be tailored to the individual needs of the person being treated with ECT. Clinics should involve local anaesthetic departments in reviewing their anaesthetic practice.

Type
Drug Information Quarterly
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution (CC-BY) license (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © 2002. The Royal College of Psychiatrists

In the UK the absence of methohexitone has led to changes in electroconvulsive therapy (ECT) anaesthesia because it was previously the anaesthetic drug of choice, and Kellner (Reference Kellner2001) stated that it still continues as such in the USA. Advice from the College's ECT Committee concluded that there was no single alternative drug (Reference FreemanFreeman, 1999), so practice now varies from clinic to clinic. Our anaesthetist chose to use thiopental but, for selected patients, we have found etomidate useful. We have been aware of concern about using etomidate because of its association with adrenocortical insufficiency. We describe three cases to illustrate its use. Case one demonstrates the use of etomidate for a man whose seizure threshold was steadily rising across the course of treatment until his treatment dose had reached the maximum output of the ECT machine, case two demonstrates its substitution for thiopental in a person complaining of adverse effects post-ECT and case three demonstrates its elective use for a woman with severe concurrent physical illness.

Case histories

Case one

Mr J., a man aged 77 years, was referred for bilateral ECT. Seizure threshold was determined at his first and second treatments using a Thymatron DGx (Somatics Inc., Lake Bluff, Illinois) according to the standard protocol in use in the clinic (Reference LockLock, 1995) and was 353 millicoulombs (mC) (treatment dose 504 mC). Thiopental anaesthesia was employed. Over treatments 3-6 electroencephalogram (EEG) seizure length shortened gradually from 34 to 15 seconds with little sign of clinical improvement, and at treatment 7 his treatment dose was increased to 756 mC with EEG seizure length timed at 53 seconds. Over treatments 7-10 EEG seizure length again steadily shortened, and the treatment dose was increased at treatment 12 to 1008 mC, maximum output for the machine in use. Feedback from the clinical team indicated that Mr J. had shown some slow but gradual improvement, and would need to continue with several more treatments. After discussion it was decided to change the anaesthetic to etomidate, which was then used for three more treatments (12-14). EEG seizure length for these three treatments was between 55 and 48 seconds. During these last few treatments Mr J. himself started to report on feedback forms that he felt better, and at the end of the course he rated himself as ‘a lot better’.

Case two

Mr P., aged 62 years, was referred for ECT because of a previous good response to ECT, previous failure to respond to antidepressant drugs and severity of current depressive illness. He received 11 treatments employing thiopental anaesthesia with some improvement, but was complaining of feelings of confusion and memory difficulties after ECT. A change from bilateral to unilateral ECT was of minimal benefit. From treatment 12 his anaesthetic was changed to etomidate, with improvement in subjective side-effects, and he continued to a total of 16 treatments, by which time he was reported to be fully recovered.

Case 3

Mrs H., aged 72 years, was referred for ECT. She had known severe ischaemic heart disease, hypertension, atrial fibrillation and hyperlipidaemia, and was on warfarin following a series of transient ischaemic attacks. She had failed to respond to several courses of antidepressant drugs but had a history of successful treatment with ECT. After discussion we opted to use etomidate anaesthesia in preference to thiopental because of her major medical illness, and likely susceptibility to confusion during treatment. She went on to receive a course of eight ECT with partial recovery.

Discussion

Etomidate can lead to adrenocortical suppression and other endocrine effects. Long-term sedation has led to serious adrenocortical insufficiency in people being treated with high dose infusions over long periods, with an associated increase in mortality (Reference Preziosi and VaccaPreziosi & Vacca, 1988). Wagner et al (Reference Wagner, White and Kan1984) reported that a patient in intensive care who received a 20-hour infusion of etomidate (1.3-1.5 mg/kg body weight/hour) developed adrenocortical suppression that persisted for 4 days, whereas surgical patients receiving single dose induction were adrenocortically suppressed at 4 hours postoperation but normal at 24 hours postoperation. Crozier et al (Reference Crozier, Beck and Schlaeger1987) found that the cortisol response to adrenocorticotropic hormone stimulation was blunted postoperatively in healthy young men undergoing orthopaedic surgery at 6 hours, but normal at 20 hours. Duthie et al (Reference Duthie, Fraser and Nimmo1985), using 0.3 mg/kg etomidate, showed no suppression of cortisol at 15 minutes and 1, 4 and 24 hours postoperation and concluded that a single dose of 0.3 mg/kg etomidate causes no significant adrenocortical suppression. Wagner & White (Reference Wagner and White1984) concluded that etomidate-induced adrenocortical suppression was a direct effect on the adrenal gland. For these reasons various authors have suggested that etomidate should only be used for single dose induction (Reference Preziosi and VaccaPreziosi & Vacca, 1988) or short-lasting anaesthesia in minor surgery (Reference Allolio, Stuttman and LeonhardAllolio et al, 1984).

Interest in etomidate as a possible induction agent for ECT anaesthesia has, however, continued because alternative intravenous anaesthetics commonly used for ECT possess dose-dependent anticonvulsant properties. Avramov et al (Reference Avramov, Husain and White1995) described 10 people treated with maintenance bilateral ECT who underwent a prospective randomised crossover study that compared methohexitone, propofol and etomidate at low, intermediate and high doses. EEG and motor seizure durations were longest after etomidate induction and shortest after propofol. There were no significant dose related differences using etomidate, whereas methohexitone and propofol both produced dose-dependent decreases in EEG and motor seizure duration. Kovac and Pardo (Reference Kovac and Pardo1992) found no difference in seizure duration using methohexitone (1 mg/kg) and etomidate (0.3 mg/kg) in a prospective randomised crossover study, but more of their etomidate-treated patients experienced pain on injection: the incidence of pain decreased when 35% propylene glycol was added to etomidate as a solvent. Gran et al (Reference Gran, Bergsholm and Bleie1984) did not find any difference in mean seizure duration using etomidate (0.3 mg/kg) and methohexitone (1 mg/kg) alternately in eight people having unilateral ECT, but reported that pain at the injection site and thrombophlebitis occurred frequently using methohexitone, and did not occur using etomidate dissolved in a soy bean oil emulsion. In a retrospective chart review, Saffer and Berk (Reference Saffer and Berk1998) compared etomidate with thiopental and found that etomidate was associated with a significantly longer seizure duration. A similar study (Reference Trzepacz, Weniger and GreenhouseTrzepacz et al, 1993) on a smaller group of patients reported the same finding and the authors noted the possibility (that they had not investigated) that longer seizure durations might enhance the effectiveness of ECT.

Ilivicky et al (Reference Ilivicky, Caroff and Simone1995) described four elderly people who became increasingly refractory to seizure induction during ECT induced with methohexitone. When the seizure duration fell below 25 seconds, etomidate was substituted for methohexitone and mean seizure duration increased by 245%. All four people completed treatment successfully.

What then is the role of etomidate in ECT anaesthesia? Avramov et al (Reference Avramov, Husain and White1995) regarded it as a useful alternative to methohexitone and propofol for people ‘achieving suboptimal therapeutic responses’. We have used it for selected patients for one of three reasons: (1) stimulus dose with alternative anaesthetic drugs maximal for the machine used in the clinic; (2) adverse reactions to thiopental; or (3) concern about the cardiac status of the patient.

Since the withdrawal of methohexitone there has been debate about optimal ECT anaesthetic practice. We believe that, as for electrical dosing, our anaesthetic practice should become more individualised and that there is a useful role for etomidate in ECT anaesthesia. We recommend that clinics currently using thiopental as their preferred anaesthetic agent should consider whether etomidate would be preferable, since it can probably be used for treatment with lower electrical doses. In addition, we recommend that all ECT clinics should review their anaesthetic practice in discussion with their anaesthetic departments and agree local protocols covering choice of anaesthetic drug.

Declaration of interest

None.

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