Subarachnoid Hemorrhage Clinical Trial
— KINDOfficial title:
A Pilot Study of Sub-anesthetic Ketamine Infusion for Neuroprotection After Aneurysmal Subarachnoid Hemorrhage: Effects on White Matter Integrity, Inflammatory Biomarkers and Neurocognitive Outcome
Subarachnoid hemorrhage (SAH) or bleeding in the brain as a result of ruptured aneurysm is a devastating type of stroke. Many patients who undergo emergent neurosurgery to repair the aneurysm and remove the bleeding suffer from complications in their subsequent hospital stay, the most frequent and morbid of which is delayed cerebral ischemia (DCI) or small strokes resulting from impaired blood flow to certain vital brain centers. This occurs because of changes to the brain's blood vessels that occur after the bleed. The arteries can become narrow (spasm) or small clots can form within the vasculature that disrupts normal blood flow. Patients are left with profound neurologic deficits from these secondary complications. Anesthesiologists, neurosurgeons, and intensivists are in need of a way to protect the brain during this vulnerable period following aneurysm repair. One drug that may provide such protection is ketamine, a compound frequently used in operating rooms and intensive care units to provide anesthesia and analgesia. Ketamine works by blocking glutamate receptor ion channels that play a pivotal role in promoting brain cell death during strokes by flooding the brain with too much calcium and dangerous chemicals. This project is designed to test the efficacy of ketamine in protecting the brain following aneurysm repair by using a controlled infusion of the drug in the intensive care unit (ICU) when patients return from their operation.
Status | Recruiting |
Enrollment | 50 |
Est. completion date | March 2021 |
Est. primary completion date | March 2021 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 80 Years |
Eligibility | Inclusion Criteria: 1. Male or female 18 to 80 years old. 2. World Federation of Neurological Surgeons (WFNS) grade 2 to 4, obtained after resuscitation and prior to dosing. 3. SAH on admission cranial computed tomography (CT) scan (diffuse clot present in both hemispheres, thin or thick [>4 mm], or local thick SAH (>4 mm). 4. Ruptured saccular aneurysm, confirmed by catheter angiography (CA) or CT angiography (CTA) and treated by neurosurgical clipping or endovascular coiling. 5. External ventricular drain placed as part of routine care. 6. Able to be dosed within 4 hours of new neurologic deficit. 7. Historical modified Rankin score of 0 or 1. 8. Hemodynamically stable after resuscitation (systolic blood pressure > 100 mm Hg) 9. Haemoglobin >85 g/L, platelets >125,000 cells/mm3 10. Informed consent. 11. New neurologic deficits that were not present previously, identified by 1) a decrease of 2 points on the modified Glasgow coma scale (mGCS) or 2) an increase in 2 points on the National Institute of Health Stroke Scale (NIHSS). i.e., a CODE VASOSPASM initiated in the ICU. Exclusion Criteria: 1. Subarachnoid hemorrhage due to causes other than a saccular aneurysm (e.g., trauma or rupture of fusiform or infective aneurysm). 2. WFNS Grade 1 or 5 assessed after the completion of aneurysm repair. 3. Increased intracranial pressure (ICP) >30 mm Hg in sedated patients lasting >4 hours anytime since admission. 4. Intraventricular or intracerebral hemorrhage in absence of SAH or with only local, thin SAH. 5. Angiographic vasospasm prior to aneurysm repair procedure, as documented by catheter angiogram or CT angiogram. 6. Major complication during aneurysm repair such as, but not limited to, massive intraoperative hemorrhage, brain swelling, arterial occlusion, or inability to secure the ruptured aneurysm. 7. Aneurysm repair requiring flow diverting stent or stent-assisted coiling and dual antiplatelet therapy. 8. Hemodynamically unstable prior to administration of study drug (i.e., SBP <90 mm Hg, requiring >6 L colloid or crystalloid fluid resuscitation). 9. Cardiopulmonary resuscitation was required following SAH. 10. Female patients with positive pregnancy test (blood or urine) at screening. 11. History within the past 6 months and/or physical finding on admission of decompensated heart failure (New York Heart Association [NYHA] Class III and IV or heart failure requiring hospitalization). 12. Acute myocardial infarction within 3 months prior to the administration of the study drug. 13. Symptoms or electrocardiogram (ECG)-based signs of acute myocardial infarction or unstable angina pectoris on admission. 14. Electrocardiogram evidence and/or physical findings compatible with second or third degree heart block or of cardiac arrhythmia associated with hemodynamic instability. 15. Echocardiogram, if performed as part of standard-of-care before treatment, revealing a left ventricular ejection fraction (LVEF) <40%. 16. Severe or unstable concomitant condition or disease (e.g., known significant neurologic deficit, cancer, hematologic, or coronary disease), or chronic condition (e.g., psychiatric disorder) that, in the opinion of the Investigator, may increase the risk associated with study participation or study drug administration, or may interfere with the interpretation of study results. 17. Patients who have received an investigational product or participated in another interventional clinical study within 30 days prior to randomization. 18. Kidney disease as defined by plasma creatinine =2.5 mg/dl (221 umol/l); liver disease as defined by total bilirubin >3 mg/dl (51.3 mmol/l); and/or known diagnosis or clinical suspicion of liver cirrhosis. 19. Known hypersensitivity or contraindication to ketamine per product monograph. |
Country | Name | City | State |
---|---|---|---|
Canada | St Michael's Hospital | Toronto | Ontario |
Lead Sponsor | Collaborator |
---|---|
Dr. Andrew Baker | Defence Research and Development Canada |
Canada,
Beal MF. Mechanisms of excitotoxicity in neurologic diseases. FASEB J. 1992 Dec;6(15):3338-44. Review. — View Citation
Etminan N, Vergouwen MD, Ilodigwe D, Macdonald RL. Effect of pharmaceutical treatment on vasospasm, delayed cerebral ischemia, and clinical outcome in patients with aneurysmal subarachnoid hemorrhage: a systematic review and meta-analysis. J Cereb Blood Flow Metab. 2011 Jun;31(6):1443-51. doi: 10.1038/jcbfm.2011.7. Epub 2011 Feb 2. Review. — View Citation
Forder JP, Tymianski M. Postsynaptic mechanisms of excitotoxicity: Involvement of postsynaptic density proteins, radicals, and oxidant molecules. Neuroscience. 2009 Jan 12;158(1):293-300. doi: 10.1016/j.neuroscience.2008.10.021. Epub 2008 Nov 1. Review. — View Citation
Nilsson OG, Säveland H, Boris-Möller F, Brandt L, Wieloch T. Increased levels of glutamate in patients with subarachnoid haemorrhage as measured by intracerebral microdialysis. Acta Neurochir Suppl. 1996;67:45-7. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Changes in physiologic parameters as specified below | Temperature, heart rate (HR), mean arterial pressure (MAP), intracranial pressure (ICP), central venous pressure (CVP) if available, peak airway pressure (PAP) if available, end-tidal carbon dioxide (ETCO2) will be evaluated during infusion. Collected measurement data will be analyzed based on the occurrence of adverse events such as increase in ICP by more than 3 mmHg, increase in HR by more than 30 bpm, increase in partial pressure of CO2 (pCO2) by more than 20 mmHg, increase in lactate by more than 0.5, drop in pH by more than 0.2, increase in systolic blood pressure (SBP0 to over 200 mmHg, or any other unforeseen event that is deemed to be related to the drug treatment with adverse effects on the patient. | During infusion and 1 hour post-infusion | |
Secondary | Biologic samples | Blood and cerebrospinal fluid (CSF) samples will be collected and analyzed for biomarker levels which would indicate extent of neuronal injury. | Day 1-2 post-infusion | |
Secondary | Neurocognitive test Montreal Cognitive Assessment Scale (MoCA) | Neurocognitive function will be assessed using the MoCA to determine preliminary effects of ketamine on neurocognitive outcome. | Day 30 or Day 60 post-DCI | |
Secondary | Neurocognitive test modified Rankin Scale (mRS) | Neurocognitive function will be assessed using the mRS determine preliminary effects of ketamine on neurocognitive outcome. | Day 30 or Day 60 post-DCI | |
Secondary | Brain imaging using Magnetic Resonance Imaging (MRI) | Structural and functional brain imaging will be conducted using Tesla MRI system to assess white matter integrity. | Day 30 or Day 60 post-DCI | |
Secondary | Hospital anxiety and depression score | Assessments for neuro-cognitive outcomes and correlation with MRI findings | Day 30 or Day 60 post-DCI | |
Secondary | EQ-5D-5L | Neurocognitive outcome assessment and correlation with MRI results | Day 30 or Day 60 post-DCI | |
Secondary | Trail making test | Neurocognitive outcome assessment and correlation with MRI results | Day 30 or Day 60 post-DCI | |
Secondary | Verbal fluency tests | Neurocognitive outcome assessment and correlation with MRI results | Day 30 or Day 60 post-DCI |
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