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Synergy of Elevation of the Head and Thorax and REBOA During Out-of-Hospital Cardiac Arrest
Sponsor: University Hospital, Grenoble
Summary
Long-term neurological outcome after successful resuscitation of cardiac arrest remains poor, mainly due to cerebral hypoperfusion and severe hypoxic-ischemic brain injuries. Automated head and chest elevation during cardiopulmonary resuscitation (AHUP-CPR) improves cerebral perfusion by decreasing the intracranial pressure and increasing cerebral perfusion in experimental pig studies. The addition of an impedance threshold device (ITD) and active chest compression-decompression device (ACD) improved hemodynamics and cerebral perfusion. In addition, early implementation of AHUP-CPR in patients with out-of-hospital cardiac arrest (OHCA) was associated with improved survival to hospital discharge, in a multicenter observational study. A 2-year prospective clinical trial in Grenoble evaluating this combination was just completed. This study showed for the first time that the value of end-tidal CO2 (EtCO2), a surrogate for cardiopulmonary resuscitation (CPR) quality and cardiac output, measured with this combination therapy, was significantly higher than with standard CPR. Resuscitative endovascular balloon occlusion of the aorta (REBOA) has recently been proposed during CPR. This technique temporarily diverts blood flow to the coronary and cerebral circulation. Its beneficial effect on hemodynamics, cerebral blood flow and survival has been experimentally validated. In several feasibility studies, encouraging results were observed by slightly optimizing cerebral perfusion and coronary pressure when REBOA was used in combination with standard CPR. In a porcine model of cardiac arrest, the addition of REBOA to AHUP CPR was associated with a marked improvement in coronary perfusion pressure and near-normalization of cerebral perfusion pressure. These two interventions act synergistically. REBOA directs flow and pressure to the heart and brain, while AHUP CPR improves preload on the right side of the heart and reduces intracranial pressure. The aims of this clinical investigation are to assess the feasibility of placing a REBOA catheter combined with automated CPR with head and chest elevation, and to quantify the associated changes in clinical parameters for OHCA.
Official title: Synergy of Elevation of the Head and Thorax and Resuscitative Endovascular Balloon Occlusion of the Aorta During Out-of-Hospital Cardiac Arrest: a Pilot Study
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
35
Start Date
2024-10
Completion Date
2026-01
Last Updated
2024-08-05
Healthy Volunteers
No
Conditions
Interventions
REBOA
The REBOA device used in this study will be a computer-aided aortic balloon occlusion catheter with safety feedback and automatic inflation and deflation. The device will be used to temporarily inflate a balloon in the descending aorta through a femoral artery introducer sheath which, when inflated, redirects blood flow to the central circulation. The REBOA will be inserted into the aorta via the femoral artery through an introducer sheath. Once positioned, the balloon will be inflated to occlude the aorta. The REBOA assistant will be attached to the patient's skin with the adhesive on the underside of the assistant.
Head-Up Cardiopulmonary Resuscitation (AHUP-CPR)
Conventional CPR will be performed using an automated head and chest elevation device during cardiopulmonary resuscitation (AHUP-CPR).
Mechanical Chest Compression Device with Active Chest Decompression
In addition to head and thorax elevation, mechanical chest compression will be performed with active chest compression-decompression using a specific mechanical chest compression device.
Impedance Threshold Device
In addition to REBOA, AHUP-CPR and ACD, an impedance threshold device will be used with a dedicated device.
Locations (1)
University Hospital Grenoble
Grenoble, France