Effect of Xenon on Brain Injury After Aneurysmal Subarachnoid Hemorrhage

Last updated: April 28, 2025
Sponsor: Turku University Hospital
Overall Status: Active - Recruiting

Phase

2

Condition

Heart Failure

Hemorrhage

Congestive Heart Failure

Treatment

air/oxygen

Xenon

Clinical Study ID

NCT04696523
109/2019 Xe-SAH
2019-001542-17
  • Ages > 18
  • All Genders

Study Summary

An investigator-initiated clinical drug study

Main Objective:

To explore neuroprotective properties of xenon in patients after aneurysmal subarachnoid hemorrhage (SAH).

Primary endpoint: Global fractional anisotropy of white matter of diffusion tensor imaging (DTI). Hypothesis: White matter damage is less severe in xenon treated patients, i.e. global fractional anisotropy is significantly higher in the xenon group than in the control group as assessed with the 1st magnetic resonance imaging (MRI).

After confirmation of aSAH and obtaining a signed assent subjects will be randomized to the following groups:

Control group: Standard of Care (SOC) group: Air/oxygen and Normothermia 36.5-37.5°C; Xenon group: Normothermia 36.5-37.5°C +Xenon inhalation in air/oxygen for 24 hours. Brain magnetic resonance imaging techniques will be undertaken to evaluate the effects of the intervention on white and grey matter damage and neuronal loss. Neurological outcome will be evaluated at 3, 12 and 24 months after onset of aSAH symptoms Investigational drug/treatment, dose and mode of administration: 50±2 % end tidal concentration of inhaled xenon in oxygen/air.

Comparative drug(s)/placebo/treatment, dose and mode of administration: Standard of care treatment according to local and international consensus reports.

Duration of treatment: 24 hours

Assessments:

Baseline data Information that characterizes the participant's condition prior to initiation of experimental treatment is obtained as soon as is clinically reasonable. These include participant demographics, medical history, vital signs, oxygen saturation, and concentration of oxygen administered.

Acute data The collected information will contain quantitative and qualitative data of aSAH patients, as recommended by recent recommendations of the working group on subject characteristics, and including all relevant Common Data Elements (CDE) can be applied. Specific definitions, measurements tools, and references regarding each SAH CDE can be found on the weblink here: https://www.commondataelements.ninds.nih.gov/SAH.aspx#tab=Data_Standards.

Eligibility Criteria

Inclusion

Inclusion Criteria:

To be considered eligible to participate in this study, a SAH subject must meet the inclusion criteria listed below:

  1. Informed consent obtained from the next of kin or legal representative

  2. Aneurysmal subarachnoid hemorrhage visible on CTA or DSA.

  3. Deterioration of consciousness to Hunt-Hess 3-5

  4. Age of ≥ 18 years

  5. Intubated.

  6. GCS 3-12 obtained off neuromuscular blocking agents

  7. Xenon treatment can be started within 6 hours after onset of SAH symptoms

Exclusion

Exclusion Criteria:

An aSAH subject may not be enrolled in the trial if he/she meets any one of the exclusion criteria below:

  1. Acute or chronic traumatic brain injury

  2. Maximum diameter of intracerebral hemorrhage > 2.5 cm

  3. Pneumothorax or pneumomediastinum,

  4. Acute lung injury requiring ≥ 60% FIO2 (fraction of inspired oxygen).

  5. Systolic arterial pressure < 80 mmHg or mean arterial pressure < 60 mmHg for over 30min period

  6. Bilaterally fixed and dilated pupils

  7. Positive pregnancy test, known pregnancy, or current breast-feeding

  8. Neurological deficiency due to traumatic brain injury or other neurological illness

  9. Imminent death or current life-threatening disease

  10. Current enrollment in another interventional study

  11. The subject is known to have clinically significant laboratory abnormality, medicalcondition (such as decompensated liver disease or severe chronic obstructivepulmonary disease), or social circumstance that, in the investigator's opinion,makes it inappropriate for the subject to participate in this clinical trial.

  12. Presence of implants or foreign bodies which are not known to be MRI safe

Study Design

Total Participants: 160
Treatment Group(s): 2
Primary Treatment: air/oxygen
Phase: 2
Study Start date:
April 22, 2025
Estimated Completion Date:
December 31, 2029

Study Description

Assessments of efficacy:

  1. A brain Computer tomography angiography (CTA) and / or 3 D Digital subtraction angiography (DSA) (whenever possible instead of 2D DSA) will be performed at hospital arrival and whenever clinically indicated.

  2. 1st 3 Tesla MRI 72 ± 24 hours after onset of aSAH symptoms; 2nd 3 Tesla MRI 42 ± 4 days after onset of aSAH symptoms.

  3. 3D DSA: Computational fluid dynamic simulations (CFD), artificial intelligence and machine learning.

  4. Brain Positron emission tomography (PET): The 1st 4 ± 1 weeks and the 2nd at 3 months after onset of aSAH symptoms.

  5. Biochemical assessment: A blood samples of 20 ml for determination of plasma catecholamines, plasma metabolomics (see details of metabolomics in section 18.4.7), cardiac enzyme release (P-hs-troponin-T and heart fatty-acid binding protein), selected biomarkers will be analysed at intensive crae unit (ICU) arrival and at 24h, at 48h and at 72h after onset of SAH symptoms. In addition, a sample of spinal fluid will be collected through external ventricular drainage (EVD) at ICU arrival or as soon as it is in place and at 24h, at 48h and at 72h after onset of SAH symptoms for assessment of metabolomics

  6. Electrocardiograph (ECG) at ICU arrival and at 24h, at 48h and at 72h after onset of aSAH symptoms.

  7. Neurological evaluation: at 3, 12 and at 24 months after aSAH with GOSe, Modified ranking score (mRS).

Statistical methods: 1) Basic statistical tests (t-tests, Mann-Whitney, Chi square, etc); 2) Survival analysis methods; 3) An analysis of variance for repeated measurements; 4) A sample size of 100 is estimated on the basis of a recent studies in SAH patients to provide 80% power with a 2-sided α level of 0.05 to detect a mean difference of 0.02 (SD 0.035) in the global fractional anisotropy of white matter between the xenon group and the control group (98). Accordingly, this mean difference is estimated to have a predictive value for DCI and poor neurological outcome (i.e. mRS 3-6).Significance level of 0.05 and an estimation of 95 % confidence intervals will be used in the statistical analyses.

Connect with a study center

  • Aalto University School of Science

    Helsinki,
    Finland

    Site Not Available

  • Kuopio University Hospital

    Kuopio,
    Finland

    Site Not Available

  • Tampere University Hospital

    Tampere,
    Finland

    Site Not Available

  • Elomatic

    Turku, 20810
    Finland

    Site Not Available

  • Turku University Hospital

    Turku, 20521
    Finland

    Active - Recruiting

  • University of Turku, Turku Bioscience, Analysis of the metabolomics

    Turku,
    Finland

    Site Not Available

  • Örebro University

    Örebro,
    Sweden

    Site Not Available

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