Clinical Trials Directory

Trials / Completed

CompletedNCT03996616

Head-up Position and High Quality Cardiopulmonary Resuscitation in OHCA

Head-up Position, Active Compression-decompression Mechanical Cardiopulmonary Resuscitation and Impedance Threshold Device to Improve Outcomes in Out-of-hospital Cardiac Arrest. A Multicenter Prospective Controlled Quasi-experimental Trial

Status
Completed
Phase
N/A
Study type
Interventional
Enrollment
126 (actual)
Sponsor
University Hospital, Grenoble · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

Elevation of the head and thorax, also known as Head-up cardiopulmonary resuscitation (HUP CPR), has been studied extensively in pigs in ventricular fibrillation (VF). HUP combined with active compression decompression and impedance threshold device (ACD+ITD) CPR improves vital organ perfusion and results in a doubling of cerebral perfusion when compared with the same method of CPR in the flat or horizontal plane. HUP CPR enhances the drainage of venous blood from the brain, lowers central venous pressures, reduces intracranial pressures during the decompression phase of CPR, redistributes blood flow through the lungs during CPR, and may reduce brain edema. These mechanisms collectively contribute to improved blood flow and less injury to the brain during CPR. These benefits are due in large part to the effects of gravity on the physiology of HUP CPR. Importantly, HUP CPR is dependent upon a means of generating enough forward flow to adequately pump blood "uphill" to the brain. In this proposed pilot study, CPR will be performed manually before the patient is placed on a controlled mechanical elevation device (Elegard, Minnesota Resuscitation Solutions LLC, USA). An ITD-16 (ResQPOD-16, Zoll, USA) will be placed on the patient's airway before the head is elevated. Automated CPR will be initiated as soon as feasible using a new automated CPR mechanical compression device that provides full active compression-decompression CPR (LUCAS-AD, Stryker, USA). The proposed feasibility clinical study will be the first ever to test the fully integrated system of ACD+ITD HUP CPR.

Detailed description

Elevation of the head and thorax, also known as Head-up cardiopulmonary resuscitation (HUP CPR), has been studied extensively in pigs in ventricular fibrillation (VF). HUP combined with active compression decompression and impedance threshold device (ACD+ITD) CPR improves vital organ perfusion and results in a doubling of cerebral perfusion when compared with the same method of CPR in the flat or horizontal plane. HUP CPR enhances the drainage of venous blood from the brain, lowers central venous pressures, reduces intracranial pressures during the decompression phase of CPR, redistributes blood flow through the lungs during CPR, and may reduce brain edema. These mechanisms collectively contribute to improved blood flow and less injury to the brain during CPR. These benefits are due in large part to the effects of gravity on the physiology of HUP CPR. Importantly, HUP CPR is dependent upon a means of generating enough forward flow to adequately pump blood "uphill" to the brain. Animal studies have shown that HUP CPR must be performed in a specific manner to be effective. For example, conventional standard CPR is insufficient, by itself, for effective HUP CPR. Additional means to enhance circulation are needed, such as concurrent use of the ITD and ACD CPR devices. ACD+ITD CPR alone has been shown to improve hemodynamics and survival with favorable neurologic outcome in several human randomized control trials. Animal studies have shown that HUP CPR is best with the combination of ACD+ITD CPR. Studies have shown that CPR must be initiated before elevating the head. Studies have also shown that HUP CPR is dependent upon the time it takes to elevate the head to the HUP. Elevation of the head and thorax should optimally take place over a 2-minute period of time from a flat position to the maximum head up elevation level in order to optimize cerebral perfusion pressures. Too rapid an elevation of the head and thorax can result in a reduction in cerebral arterial pressure when compared with flat CPR. In this proposed pilot study, CPR will be performed manually before the patient is placed on a controlled mechanical elevation device (Elegard, Minnesota Resuscitation Solutions LLC, USA). An ITD-16 (ResQPOD-16, Zoll, USA) will be placed on the patient's airway before the head is elevated. Automated CPR will be initiated as soon as feasible using a new automated CPR mechanical compression device that provides full active compression-decompression CPR (LUCAS-AD, Stryker, USA). The proposed feasibility clinical study will be the first ever to test the fully integrated system of ACD+ITD HUP CPR.

Conditions

Interventions

TypeNameDescription
DEVICEHead UP PositionCPR will be performed manually before the patient is placed on a controlled mechanical elevation device who raises the head and thorax, also known as the head-up position (HUP-Elegard, Minnesota Resuscitation Solutions LLC, USA). Rescuers will perform CPR as continuously as possible during the placement of the Elegard, with a \<10 second pause in chest compressions during the placement of this device. After performing (LUCAS AD + ITD CPR, see other interventions below) for 2 minutes with the head in the 'flat' position, the Elegard device will be turned on and the head will begin to rise as long as the patient is being treated with the ResQPOD-16 and the LUCAS AD. The head will be elevated to approximately 22 cm from the ground to the back of the occiput.
DEVICEImpedance Threshold DeviceAn an impedance threshold device ITD-16 (ResQPOD-16, Zoll, USA) will be placed on the patient's airway before the head is elevated.
DEVICENew Automated CPRAutomated CPR will be initiated as soon as feasible using a new automated CPR mechanical compression device that provides full active compression-decompression CPR (LUCAS-AD, Stryker, USA).

Timeline

Start date
2019-10-09
Primary completion
2022-10-17
Completion
2022-10-20
First posted
2019-06-25
Last updated
2023-05-18

Locations

2 sites across 1 country: France

Source: ClinicalTrials.gov record NCT03996616. Inclusion in this directory is not an endorsement.