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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT03996616
Other study ID # GRAVITY
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date October 9, 2019
Est. completion date October 20, 2022

Study information

Verified date May 2023
Source University Hospital, Grenoble
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial 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.


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.


Recruitment information / eligibility

Status Completed
Enrollment 126
Est. completion date October 20, 2022
Est. primary completion date October 17, 2022
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Age > 18 years old on enrollment - Witnessed out-of-hospital cardiac arrest Exclusion Criteria: - Obvious pregnancy at inclusion - Cardiac arrest of traumatic origin (including drowning or hanging) - Cardiac arrest for which resuscitation seems unjustified (inevitable death, terminally ill irreversible condition, too long duration of cardiac arrest, advance personal directives of no-resuscitation)

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Head UP Position
CPR 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.
Impedance Threshold Device
An an impedance threshold device ITD-16 (ResQPOD-16, Zoll, USA) will be placed on the patient's airway before the head is elevated.
New Automated CPR
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).

Locations

Country Name City State
France SAMU 38 Grenoble Isère
France SAMU 54 - CHU Nancy Nancy Meurthe-et-Moselle

Sponsors (1)

Lead Sponsor Collaborator
University Hospital, Grenoble

Country where clinical trial is conducted

France, 

Outcome

Type Measure Description Time frame Safety issue
Primary Maximum End-tidal carbon dioxide (ETCO2) The maximum value of ETCO2 during CPR before ROSC measured after a washout period of 4 positive pressure ventilations (~30 seconds with 30:2 compression: ventilation ratio) will be recorded. ETCO2 value reflects both cardiac output (CO) and pulmonary blood flow, and is an indirect indicator of coronary perfusion pressure during CPR. Levels of ETCO2 > 10-15 mmHg have been correlated with return of spontaneous circulation (ROSC) and survival in both animal and human models of cardiac arrest. Day 0
Secondary Return of spontaneous circulation (ROSC) Proportion of patients who's recovered a spontaneous circulation after CPR Day 0
Secondary Alive at hospital admission Vital status at hospital admission Day 0
Secondary Survival to hospital discharge Vital status at hospital discharge up to 30 days
Secondary Survival at 30 days Vital status at 30 days 30 days
Secondary Neurological functional status As measured by using the modified Rankin Scale (mRS). A score equal to 0 = no symptoms at all, A score equal to 1 = no significant disability, despite symptoms ; able to carry out all usual duties and activities A score equal to 2 = slight disability ; unable to carry out all previous activities but able to look after own affairs A score equal to 3 = moderate disability ; requiring some help, but able to walk without assistance A score equal to 4 = moderately severe disability ; unable to walk without assistance and unable to attend to own bodily needs without assistance A score equal to 5 = severe disability ; bedridden, incontinent and requiring constant nursing care and attention We considered to a score less or equal to 3 will be considered as favourable neurologic outcome Day 30
Secondary First recorded rhythm First recorded rhythm and rhythm recorded by EMS (asystole, ryhtme without pulse, ventricular fibrillation or ventricular tacycardia and spontaneous circulation) Day 0
Secondary Changes in heart rhythm from ventricular fibrillation (VF) Proportion of patients who's with changes in heart rhythm from VF to non-VF rhythm and vice versa during the EMS intervention Day 0
Secondary Signs of life Presence of agonal respirations and other signs of life (pupillary response, movement during CPR) recorded by ALS Day 0
Secondary Re-arrest rates We calculated the proportion of patients who's recovered another cardiac arrest during CPR (supported by ALS and EMS) Day 0
Secondary Non-invasive arterial O2 Non-invasive arterial O2 saturation values during CPR recorded by EMS Day 0
Secondary End-tidal carbon dioxide (ETCO2) after CPR initiation We compared the difference in ETCO2 values between baseline (i.e., within 2 minutes of CPR initiation) and repeated (i.e., within 4 minutes of CPR initiation) measures during the CPR (recorded by ALS and EMS intervention) Day 0
Secondary Non-invasive cerebral oximetry (rsO2) Non-invasive cerebral oximetry (rsO2) values during CPR repeated (i.e., within 4 minutes of CPR initiation) measures recorded by ALS and EMS intervention Day 0
Secondary Left Ventricular (LV) function LV function will be measured by echocardiography within 12 hours of ROSC at hospital Day 0
Secondary Non-invasive measurement of blood pressure Non-invasive measurement of blood (systolic, diastolic and mean blood pressure) pressure during CPR Day 0
Secondary Intubation difficulty Intubation difficulty assessed by the Intubation Difficulty Scale score. Score equal at 0 will be considered to easy intubation, score between 0 and 5 will be considered to slight difficulty, score more than 5 will be considered to moderate to major difficulty and score equal to infinite will be considered to impossible intubation Day 0
Secondary Neuron specific enolase Serum Neuron specific enolase was measured at admission and 24h after hospital admission Day 0 and 24hours
Secondary S100 protein Serum S100 protein was measured- at admission and 24h after hospital admission Day 0 and 24hours
Secondary Arterial Blood gases Arterial blood gases (PaO2 partial pressure of oxygen, PCO2 partial pressure of cardon dioxide, pH, HCO3- bicarbonates and SaO2 oxygen saturation) were measured at hospital admission Day 0
Secondary Serum lactate concentration The serum lactate concentration was measured at hospital admission Day 0
Secondary Serum d-dimer concentration Serum d-dimer concentration was measured at 4hour and 24 hour after admission Day 0 and 24hours
Secondary Troponin C serum concentration Troponin C serum concentration was measured at 4hour and 24 hour after admission Day 0 and 24hours
Secondary Creatinine concentration Serum creatinine concentration was measured at 4hour and 24 hour after admission Day 0 and 24hours
Secondary Transaminases concentration Serum transaminases concentration (ASAT: aspartate aminotransferases and ALAT: alanine aminotransferases) were measured at 4hour and 24 hour after admission Day 0 and 24hours
Secondary Imaging Head CT will be performed within 12 hours of ROSC. Analysis will include the white to gray matter ratio 12 hours
Secondary End-tidal carbon dioxide between witnessed and unwitnessed cardiac arrest out-of-hospital cardiac arrest We compared the difference in maximum ETCO2 during CPR between values recorded for witnessed and unwitnessed cardiac arrest Day 0
Secondary ROSC for witnessed and unwitnessed cardiac arrest Proportion of patients who's recovered a spontaneous circulation after CPR between witnessed and unwitnessed cardiac arrest Day 0
Secondary Survival to hospital admission for witnessed and unwitnessed cardiac arrest Vital status at hospital admission between witnessed and unwitnessed cardiac arrest Day 0
Secondary Survival to hospital discharge for witnessed and unwitnessed cardiac arrest Vital status at hospital discharge between witnessed and unwitnessed cardiac arrest Up to 30 days
Secondary Neurological functional status between witnessed and unwitnessed cardiac arrest As measured by using the modified Rankin Scale (mRS). A score equal to 0 = no symptoms at all, A score equal to 1 = no significant disability, despite symptoms ; able to carry out all usual duties and activities A score equal to 2 = slight disability ; unable to carry out all previous activities but able to look after own affairs A score equal to 3 = moderate disability ; requiring some help, but able to walk without assistance A score equal to 4 = moderately severe disbility ; unable to walk without assistance and unable to attend to own bodily needs without assistance A score equal to 5 = severe disability ; bedridden, incontinent and requiring constant nursing care and attention We consired to a score less or equal to 3 will be considered as favourable neurologic outcome Up to 30 days
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