Resuscitative EndoVascular Aortic Occlusion for Maximal Perfusion

Early Phase 1

Completed

• Conditions: Cardiac Arrest
• Interventions: Device: ER-REBOA catheter

• Registration Number: NCT03703453
• Lead Sponsor: Yale University

Brief Summary

REBOA is an endovascular technique that is becoming more widely used in the setting of severe trauma. It is a procedure where one uses the seldigner technique to advance a balloon tipped catheter into the femoral artery and then into the aorta. The balloon is then inflated to fully occlude blood flow to the distal aorta.

Study investigators hypothesize that this technique may be of use in the setting of medical cardiac arrest. By occluding the aorta and preventing distal blood flow during CPR, physicians might maximize perfusion to the heart and the brain, and promote return of spontaneous circulation and neurologic recovery.

Investigators plan to conduct an IDE approved early feasibility study using the ER-REBOA catheter in five patients who are in cardiac arrest of medical (i.e. non-traumatic) etiology. The primary outcomes will be feasibility and safety. Secondary outcomes will focus on procedural performance, hemodynamic response to aortic occlusion, and patient-centered outcome variables. Investigators plan to expand the study to an additional 15 patients if, after the initial five patients, the risk-benefit profile remains favorable.

Detailed Description

The proposed study will assess the safety, feasibility, and efficacy of the use of the ER-REBOA™ catheter as a means of increasing cardio-cerebral perfusion in medical cardiac arrest patients. The ER-REBOA™ catheter is a device that has been gaining increased use in the setting of severe trauma for the purposes of stopping intra-abdominal hemorrhage. The catheter is advanced through a femoral artery sheath into the aorta, where a balloon at its tip is inflated, occluding all distal blood flow (and stopping any hemorrhage while the patient can be prepared for definitive operative intervention).

Dr. Daley (along with previous investigators) has hypothesized that by using the device to occlude distal blood flow during medical cardiac arrest, one might increase the perfusion to the brain and heart, maximizing the patient's chance for cardiac and neurologic recovery. Aortic occlusion for medical cardiac arrest is supported by robust pre-clinical literature, but has not yet been studied in humans.

The proposed study is divided into two phases, with a different primary outcome in each phase. Phase 1 of the study is expected to occur over a period of 1 year. Phase 2 expected duration is 1.5 years. Each phase of the study will require separate FDA/IRB approval. Enrollment will take place at Yale-New Haven Hospital in New Haven, CT, the primary site for Phase 1 and Phase 2 of the study. A potential secondary site, the University of California, Davis, has been approved for trial participation but will not contribute to enrollment during Phase 1.

Phase 1 will primarily examine the feasibility and safety of the use of the ER-REBOA catheter in five non-traumatic cardiac arrest patients. If deemed feasible and safe, the PI will request permission from the FDA and the IRB to expand the study to Phase 2. Phase 2 will consist of the enrollment of a subsequent 15 patients (20 in total for both phase 1 and 2) with a primary focus on procedural performance, hemodynamic response to aortic occlusion, and patient-centered outcome variables. Per our hypothesis, if the ER-REBOA catheter is efficacious in medical cardiac arrest patients, an increase in systolic and diastolic blood pressure should be evident after the inflation of the intra-aortic balloon. Phase 2 will utilize the built in continuous arterial blood pressure monitoring capabilities of the device to assess for a significant blood pressure increase after the deployment of the aortic balloon.

Study Timeline

• Study First Submitted: 2018-10-09
• Study First Submitted QC: 2018-10-09
• Study First Posted: 2018-10-12
• Study Start: 2020-01-28
• Primary Completion: 2021-04-29
• Study Completion: 2021-04-29
• Status Verified: 2021-08
• Last Update Submitted: 2021-08-22
• Last Update Posted: 2021-08-24

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 5

Inclusion Criteria

Not provided

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Exclusion Criteria

Not provided

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
REBOA	ER-REBOA catheter	Patients undergoing REBOA for medical cardiac arrest

Primary Outcome Measures

Name	Time	Method
Feasibility of aortic occlusion	The time expected for the procedure typically take between 10 and 15 minutes.	The successful inflation of the aortic balloon at the level of the diaphragm with resultant occlusion of aortic blood flow. The procedure will be considered feasible if aortic balloons are deployed at the level of the diaphragm in at least 70% of patients attempted. The location of the balloon will be confirmed with bedside ultrasound and/or X-ray. Successful aortic occlusion will be confirmed using flow measurements on bedside ultrasound as well as detecting a lack of blood pressure distal to the aortic balloon using a pressure transducer in the femoral artery.
Safety of Procedure	Time of procedure to 90-days post-discharge	Safety is defined by a composite prevalence of five pre-specified adverse events.; •Composite events: blood vessel damage requiring intervention, arterial thromboembolism, lower extremity amputation, renal failure requiring non-temporary dialysis, lower extremity paralysis

Secondary Outcome Measures

Name	Time	Method
Change in systolic blood pressure after aortic occlusion	1 minutes before and 15 minutes after aortic occlusion	Hemodynamic
Change in Electrocardiogram (ECG) patterns	1 minute before and 15 minutes after aortic occlusion	Hemodynamics
Number of needle sticks required for sheath insertion	Time from first micropuncture needle stick until successful insertion of 7 Fr sheath into common femoral artery up to 30 minutes	Procedural
Change in end tidal carbon dioxide after aortic occlusion	1 minute before and 15 minutes after aortic occlusion	Hemodynamics
Change in oxygen saturation from pulse oximeter	1 minute before and 15 minutes after aortic occlusion	Hemodynamics
Change in coronary perfusion pressure	1 minute before and 15 minutes after aortic occlusion	Hemodynamics
Rate of return of spontaneous circulation (ROSC)	Arrival in ED to sustained ROSC or death, assessed up to 1 hour	Patient Oriented
Time from first needle stick to Resuscitative Endovascular Balloon Occlusion of the Aorta (REBOA) balloon inflation	Time when micropuncture needle first insertion into common femoral artery until REBOA catheter balloon successfully inflated with 8 cc saline	Procedural
Change in diastolic blood pressure after aortic occlusion	1 minute before and 15 minutes after aortic occlusion	Hemodynamic
Time from first needle stick to sheath insertion	Time of micropuncture needle first insertion into common femoral artery until successful 7 French (Fr) sheath insertion into common femoral artery	Procedural
Neurologic function at 30 and 90 days	30 and 90 days post enrollment	Measured by Modified Rankin Scale (mRS) and Cerebral Performance Category (CPC).; The mRS can help users determine the degree of disability in patients who have suffered a stroke or other causes of neurological disability by measuring the degree of disability or dependence in the daily activities of people. An mRS of a patient is compared over time to check for recovery and degree of continued disability. A score of 0 is no disability, 5 is disability requiring constant care for all needs; 6 is death. The mRS has been used in clinical research for over 30 years and is a common standard for assessing functional outcomes in patients. Multiple studies have shown that the mRS correlates with physiological indicators for neurological impairment.; The CPC score is the most commonly used tool to assess this for both research and audit purposes. Most studies define a good outcome as a CPC score of 1 or 2, and a poor outcome (severe neurological disability, persistent vegetative state or
Rate of Intensive Care Unit (ICU) Admission	Death in ED or admission to ICU post sustained ROSC, assessed up to 24 hours	Patient Oriented
Length of stay in ICU and total length of hospitalization	Time of admission in ICU to discharge or death, assessed up to 90 days	Patient Oriented

Trial Locations

Locations (1)

Yale New Haven Hospital; 🇺🇸 New Haven, Connecticut, United States