Evaluation of the Safety of Inhaled Sedation With Isoflurane in Head Trauma Patients

Not Applicable

Recruiting

• Conditions: Traumatic Brain Injury
• Interventions: Drug: Isoflurane

• Registration Number: NCT06311604
• Lead Sponsor: University Hospital, Grenoble

Brief Summary

Intensive care management of patient with severe traumatic brain injury (TBI) includes deep and prolonged sedation with intravenous hypnotics (propofol, midazolam, ketamine) in combination with opioids to prevent and/or treat episodes of intracranial hypertension. However, some patients may develop tachyphylaxis with a gradual increase of administered intravenous hypnotics and opioids to maintain the same level of sedation. This situation leads to a failure in controlling intracranial pressure (ICP) and/or to the risk of adverse effects due to high-dose sedatives: haemodynamic instability, prolonged mechanical ventilation, neuromyopathy, delirium, withdrawal syndrome.

Halogenated agents (Isoflurane, Sevoflurane) are a class of hypnotics routinely used in the operating room. However, doses used in surgical patients (\> 1 Minimal Alveolar Concentration, MAC) are not suitable in neuro-intensive care unit (ICU) patients at risk of intracranial hypertension because of the cerebral vasodilator effects of halogenated agents at this dosage, hence the risk of high ICP and compromised cerebral perfusion pressure.

The use of halogenated agents has been recently possible in the ICU through dedicated medical devices (Sedaconda ACD, Mirus). Recommended dosage are lower in the ICU, i.e. 0.3-0.7 MAC, because of their association with intravenous hypnotics and the absence of surgical stimuli. Several clinical studies in general ICUs showed improved sedation quality, reduced duration of mechanical ventilation, faster arousal and shorter extubation time, and lower costs in halogenated group compared with control group receiving midazolam or propofol. At low doses, the effects on ICP and intracerebral haemodynamics of halogenated agents are minor according to the available literature. In addition, beneficial effects were found on cerebral ischaemic volume in animal models treated with halogenated agents. However, there is a need to explore the benefit-risk ratio of the use of halogenated agents in the severe TBI population.

The investigator hypothesise that 0.7 MAC Isoflurane can be administered in this population without deleterious effect on ICP.

Detailed Description

Intensive care management of patients with severe neurological injury regularly involves deep and prolonged sedation with intravenous hypnotics (propofol, midazolam, ketamine) in combination with morphine, with the aim of preventing and/or treating episodes of intracranial hypertension (ICHT). However, the tachyphylaxis associated with intravenous hypnotics requires a continuous increase in the doses administered to maintain the same level of sedation, or even a combination of several pharmacological classes. This progressive tolerance to hypnotics may result in the failure of the sedation strategy for certain neuro-injured patients and/or expose them to the undesirable effects of high doses of intravenous hypnotics: haemodynamic instability, longer periods of mechanical ventilation, neuromyopathy, mental confusion and withdrawal syndrome.

Inhaled halogens are a class of hypnotics used daily in the operating theatre to maintain anaesthesia. At the doses used in anaesthesia (\> 1 MAC - Minimal Alveolar Concentration), they are contraindicated in neuro-injured patients at risk of HTIC because of their cerebral vasodilatory effects, which can lead to an increase in intracranial pressure (ICP) and compromise cerebral perfusion. Halogens (Isoflurane, Sevoflurane) can be used in intensive care with appropriate medical devices (Isoconda, Mirus). They are used at more moderate doses (\< 1 MAC) because they are combined with intravenous hypnotics and because there is no surgical stimulus. Several clinical studies in general intensive care have shown improved sedation quality, reduced duration of mechanical ventilation, quicker awakening and shorter time to tracheal extubation, and lower costs in the group treated with a halogenated agent compared with the control group receiving midazolam or propofol. At these low concentrations, the effects on ICP and intracerebral haemodynamics are much less marked, according to the studies published on this subject. In addition, beneficial effects on the volume of cerebral ischaemia have been shown in animal models treated with halogenated agents. However, there is a need for a precise study of the benefit-risk ratio of using halogenated agents in neurological patients.

The Anaesthesia and Intensive Care Unit at the CHUGA has been internationally recognised for many years in the management of sedation-analgesia in intensive care. In connection with this, the experience acquired by the CHUGA's neuro-resuscitation unit in brain monitoring will be used to explore in detail the effects of halogenated agents on intracerebral haemodynamics and intracranial pressure.

the investigator hypothesise that the administration of Isoflurane at 0.7 MAC can be used in this population without deleterious effect on ICP.

Study Timeline

• Study First Submitted: 2023-08-21
• Study First Submitted QC: 2024-03-07
• Study First Posted: 2024-03-15
• Status Verified: 2024-06
• Study Start: 2024-06-20
• Last Update Submitted: 2024-07-01
• Last Update Posted: 2024-07-03
• Primary Completion: 2026-06-20
• Study Completion: 2027-03-20

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• Patient > 18 years old
• Hospitalized in surgical intensive care (CPR and RNC) for severe head trauma
• On intravenous hypnotic therapy for at least 24 hours with at least 2 lines of IV hypnotics and requiring continued sedation for at least 24 hours, with a RASS of between -3 and -5
• Initial ICP < 15 mmHg on introduction of isoflurane
• Functional intracranial pressure sensor
• Transcranial Doppler measurements performed within 24 hours
• Written informed consent from a legal representative/relative/trusted person. In the absence of a legal representative, the patient may be included under the emergency procedure.

Exclusion Criteria

• Patients who have had a decompressive craniectomy
• Patients with a personal or family history of malignant hyperthermia
• Patients with a history of long QT syndrome
• Patients taking MAOI-type antidepressants (iproniazid (MARSILID) and moclobemide (MOCLAMIDE))
• Patients with known hypersensitivity to isoflurane or other volatile halogenated anaesthetic agents
• Patients who have experienced liver damage, jaundice, unexplained fever, or eosinophilia after administration of a halogenated anaesthetic.
• Patients expected to die within the next 24 hours
• Subject in a period of exclusion from another clinical trial,
• Technical unavailability of the inhaler
• Persons covered by articles L1121-5 to L1121-8 of the CSP (corresponding to all protected persons: pregnant women, women in childbirth, nursing mothers, persons deprived of their liberty by judicial or administrative decision, persons subject to a legal protection measure).
• No European social security

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
ISOFLURANE SEDATION	Isoflurane	Inclusions will have 4 phases according to gradual increased doses of isoflurane (0.3 MAC; 0.5 MAC and 0.7 MAC) Upgrading dose of isoflurane in each phase will be validated by an independent data and safety monitoring committee (DSMC). Inclusion of 12-15 additional patients will be included at the 0.7 MAC dose, to have 18 patients exposed to 0.7 MAC isoflurane.

Primary Outcome Measures

Name	Time	Method
To assess the safety of sedation with 0.7 MAC of inhaled isoflurane in cranial trauma patients in terms of intracranial pressure.	36 hours	Composite criterion : 1. Deaths (attributable to isoflurane) at "H+24 target MAC reached".; 2. 2 consecutive hourly averages of ICP \> 20 mmHg during the 24 hours after the target MAC has been reached will be considered as a failure.

Secondary Outcome Measures

Name	Time	Method
To assess the savings in intravenous hypnotics associated with isoflurane inhalation sedation in head trauma patients	36 hours	Change between "before introduction" and "H+24 MAC target reached" in the dose of intravenous hypnotics consumed
To assess the feasibility of inhaled sedation with isoflurane in patients with head trauma	36 hours	Rate of non-insertion of isoflurane administration device: cause of withdrawal before "H+24 after target MAC reached".
To assess the extra-neurological effects of inhaled isoflurane sedation in head trauma patients	36 hours	Changes between "before introduction", "H+24 target MAC reached" in DVE: drainage level, drainage volume/24h
To assess the neurological outcome at D28 after inhaled sedation in head trauma patients	28 days	Neurological outcome at D28 assessed using the Glasgow Outcome Scale (GOSe). 1-4 = poor outcome 4-8 = good outcome
To assess the effect on cerebral blood flow of inhaled isoflurane sedation in patients with cranial trauma.	36 hours	Changes between "before introduction" and "H+24 MAC target reached" in ICP dose

Trial Locations

Locations (1)

University Hospital Grenoble; 🇫🇷 Grenoble, Choisir Une Région, France