ENALEPSY: Efficacy of Naloxone in Reducing Postictal Central Respiratory Dysfunction in Patients With Epilepsy

Study Description

Brief Summary

Sudden unexpected death in epilepsy (SUDEP) primarily affects young adults with drug-resistant epilepsy, with an incidence of about 0.4%/year. The diagnosis of SUDEP requires that anamnestic data and post-mortem examination do not reveal a structural or toxicological cause for death. Generalized tonic-clonic seizures (GTCS) are the main risk factor for SUDEP, which they appear to trigger in most instances. Indeed, experimental and clinical data strongly suggest that most SUDEP result from a postictal respiratory dysfunction progressing to terminal apnea, later followed by cardiac arrest.

Postictal apnea could partly derive from a seizure-induced massive release of endogenous opioids. Animal studies suggest that such seizure-related release of endogenous opioid peptides participate to termination of seizures. In patients with epilepsy, functional imaging studies have confirmed that seizures induce release of endogenous opioids. The brainstem respiratory centers contain the highest density in opioid receptors, accounting for respiratory depression being one of the cardinal symptoms of opioid overdose.

The investigators hypothesis is that SUDEP partly results from a post-ictal apnea promoted by a GTCS-induced massive release of endogenous opioids, and that an opioid antagonist could represent an effective preventive treatment of SUDEP. This could be achieved by chronic administration of Naltrexone, an opioid antagonist that has been used in a large population of patients with chronic alcoholism at high risk of seizures, without showing any pro-convulsant effect. This is a crucial feasibility issue since antagonising a mechanism thought to participate to seizure termination could theoretically aggravate seizures.

Before evaluating the efficacy of chronic administration of naltrexone, it is legitimate to perform a proof of concept study by testing the acute effect of an equivalent injectable treatment (Naloxone) in the immediate aftermath of GTCS recorded inhospital during video-EEG monitoring of patients with refractory epilepsy. One third of these patients develop postictal respiratory dysfunction and hypoxemia, which should be reduced by the investigators intervention if the investigators hypothesis is correct.

The main objective of the study is to evaluate the efficacy of 0.4 mg intravenous naloxone, versus placebo, administered in the immediate aftermath of a GTCS, in reducing the severity of the postictal central respiratory dysfunction occurring after the end of the seizure, as measured by pulse oximetry.

About 25% of patients with drug-resistant partial epilepsy who undergo long-term video-EEG monitoring develop at least one partial secondary generalized tonic-clonic seizure. However, these patients cannot be individualized a priori. Therefore, all adult patients with drug-resistant epilepsy who will undergo long-term video-EEG monitoring in one of the participating centres, will lack all exclusion criteria, and will give their written informed consent to participate to the study if they develop GTCS, will be included in the study. They will all benefit from continuous monitoring of pulse oximetry (together with video, EEG, and respiration recordings), and will be equipped with a peripheral venous catheter throughout the video-EEG. The modalities of the video-EEG monitoring will be consistent with the current practices and similar across the 8 centres (apart from the venous catheter which is not standard practice).

In case of occurrence of a generalized tonic-clonic seizure, patients will be randomized (1:1) to receive intravenous naloxone (0.4 mg) or placebo. Placebo will be isotonic sodium chloride which preparation and packaging will be centralized to ensure its indistinguishability from naloxone. Randomization will be centralized and stratified by centre. The evolution from a partial seizure to a GTCS being gradual, and the total duration of the seizure ranging from 2 to 3 minutes, the injection will be prepared during the course of the seizure. Given the assumptions about the role of endogenous opioids release in the spontaneous termination of seizures, naloxone will be administrated immediately after the end of the GTCS and not before.

All digital data (video, EEG, respiration, SpO2) will be centralized and evaluated blind to other data by the PI of the study who will not be involved in the video-EEG monitoring of the included patients. The same automatic and objective analysis of SpO2 data than the one already developed in the PHRC REPOMSE will be performed.

Detailed Description

Sample size was revised using a log rank test with a two-sided alternative hypothesis. For a significance level of 5% (two-tailed), assuming a hazard ratio of 2.414 calculated, i.e based on an effect size similar to the effect size of oxygenotherapy in a delay of 60 seconds (Rheims et al., 2019), 40 events should be observed to reject the null hypothesis in 80% of cases,. A proportion of 89% of patients being expected to recover SpO2 ≥ 90% 120 seconds after the end of the seizure and considering a proportion of unusauble records for technical reasons of 20%, at least 54 patients should be randomized.

Assuming that about 10% of patients with drug-resistant partial epilepsy who undergo long-term video-EEG monitoring develop at least one partial secondary generalized tonic-clonic seizure, a total of 554 patients will be included in the study.

Study Design

Outcome Measures

Primary Outcome Measures

1. Delay between the end of the seizure and recovery of oxygen saturation (SpO2) ≥ 90% [during at least 5 seconds between 30 seconds and 5 minutes after the end of the GTCS]

Secondary Outcome Measures

1. Delay between the end of the GTCS and recovery of oxygen saturation (SpO2) ≥ 90% [during at least 5 seconds between 30 seconds and 5 minutes after the end of the GTCS.]

Other Outcome Measures

1. Proportion of patients whose SpO2 is <90%, <85%, 80% and 70% during at least 5 seconds 30 seconds, 1 minute, 2 minutes, 3 minutes, 4 minutes and 5 minutes after the end of the GTCS. [during at least 5 seconds 30 seconds, 1 minute, 2 minutes, 3 minutes, 4 minutes and 5 minutes after the end of the GTCS.]

2. Desaturation nadir between 30 seconds and 5 minutes after the end of the GTCS [between 30 seconds and 5 minutes after the end of the GTCS]

3. Number of patients who show postictal apnea, defined as the absence of chest expansion during a period > 10 seconds between 30 seconds and 5 minutes after the end of the GTCS. [between 30 seconds and 5 minutes after the end of the GTCS.]

4. Number of patients in whom 02 administration is required within the ten minutes following the end of a GTCS [within the ten minutes following the end of a GTCS]

5. Number of patients in whom cardiorespiratory rescue procedure is required within the ten minutes following the end of a GTCS [Within the ten minutes following the end of a GTCS]

6. Total duration of the postictal generalized EEG suppression, defined as lack of detectable EEG activity >10 mV in amplitude on all leads [Within the ten minutes following the end of a GTCS]

7. Total duration of the postictal coma, defined as the delay between the end of the seizure and the recovery of consciousness assessed by the ability to meet one single verbal command (handshake). [Within the 120 minutes following the end of a GTCS]

8. Report of adverse events observed throughout the study [36 days]

9. Assessment of pain, using a visual analog scale, immediately after the recovery of consciousness following the postictal coma [Within the 120 minutes following the end of a GTCS]

10. Total duration of the postictal immobility, defined as the delay between the end of the seizure and the first spontaneous movement of the patient, as assessed on the video recording. [Within the 120 minutes following the end of a GTCS]

11. Number of patients who have a second GCTS within 120 minutes after the intravenous injection [Within the 120 minutes following the end of a GTCS]

Eligibility Criteria

Criteria

Inclusion Criteria:

• For inclusion

• Adult patient (≥ 18 years) suffering from drug-resistant partial epilepsy

• Patient undergoing long-term video-EEG monitoring in one of the participating centre to record and characterize its seizure

• Patient who gave its written informed consent to participate to the study For randomization

• Patient who suffers a secondary generalized tonic-clonic seizure during the long-term video-EEG monitoring while being supervised by a nurse or a physician

Exclusion Criteria:

• Age < 18 years

• Patient that has already been randomized in this study

• Pregnant or breastfeeding women

• Hypersensitivity to naloxone

• History of severe heart disease (myocardial infarction, heart failure disorder, arrhythmia severe hypertension)

• Ongoing opioïd treatment, including both pure agonists and partial agonists

• Addiction to opioïds, heroin, or any similar substance

• Patient participating in another drug trial for less than 2 months

Contacts and Locations

Locations

Sponsors and Collaborators

• Hospices Civils de Lyon

Investigators

• Study Director: Sylvain RHEIMS, Doctor, Hospices Civils de Lyon

Study Documents (Full-Text)

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