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| ID | Type | Description | Link |
|---|---|---|---|
| 23HERNPRH1150361 | Other Grant/Funding Number | AHA |
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| Name | Class |
|---|---|
| Virginia Commonwealth University | OTHER |
| University of Toronto | OTHER |
| University of Washington | OTHER |
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The overall goal of this project is to design, develop, and pilot test an emergency healthcare drone delivery system suitable for rural communities that can deliver AEDs to out-of-hospital cardiac arrest (OHCA) locations more rapidly than can be achieved with current first responder and EMS systems. The goal is to determine whether this method of AED delivery can be achieved rapidly enough to justify a future clinical trial directly testing its ability to improve OHCA survival.
To achieve the project goal, 3 specific aims will be addressed. The details in this ClinicalTrials.gov record are specific to Aim 3.
Aim 1:
Define options for emergency healthcare drone station configurations best suited for rural communities and use these findings to help design future drone AED delivery programs in rural communities.
Sub aim 1a:
Define and examine EMS agency treatment, performance, and outcomes of OCHA in rural versus urban regions across the US. This will be done by using CARES Registry data from all OHCA treated by emergency medical professionals from participating EMS agencies in the US between 2021-2022.
Sub aim 1b:
Develop an optimization model to examine the effectiveness of different options for placement of both public and drone-delivered AEDs in rural communities. This will be done by using CARES Registry data from OHCAs between 2012-2022 from participating EMS agencies in North Carolina.
Aim 2:
Develop procedural and operational infrastructure for drone AED delivery that can be applied to rural communities. The primary objective of this aim will be to demonstrate that drone AED delivery can be integrated effectively into existing FAA-approved drone-as-first responder programs.
Aim 3:
Pilot test the safety and effectiveness of emergency drone AED delivery models in 2 urban and 4 rural communities in Forsyth County, NC and James City County, VA.
Sub aim 3a:
Test the ability of the DRF-AED program to travel to the location of suspected OHCAs and arrive ahead of EMS. There will be 12-15 OHCAs across the 6 communities during this testing period.
Sub aim 3b:
Test the ability of the DRF-AED program to deliver and safely deploy AEDs (without interrupting bystanders) to sites of suspected OHCA. There will be 10-12 (with a maximum of 15) additional OCHAs across the 6 communities.
Sub aim 3c:
Test the ability of the DRF-AED program to deliver an AED and treat an OCHA patient suspected cardiac arrests. Up to 70 OHCAs are expected across all 6 communities.
Sub aim 3d:
Carry out simulated OHCA alerts and test the ability of the DRF-AED program to deliver AEDs to a simulated OCHA scene ahead of EMS or first responders. A minimum of 40 simulations of OHCA (10 per rural community) to occur.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| DFR AED Program | Experimental | Real-time and simulated out-of-hospital cardiac arrests that occur across 6 communities (4 rural, 2 urban) |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| DFR AED Pilot Program | Other | Integrate AED drone delivery into an existing FAA-approved drone-as-first-responder programs |
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| Measure | Description | Time Frame |
|---|---|---|
| Time interval difference between AED arrival of drones versus law/fire/EMS arrival to the OCHA scene | 6 months (Aim 3a) | |
| Time interval difference between AED arrival of drones versus law/fire/EMS arrival to the OCHA scene | 15 months (Aim 3c) |
| Measure | Description | Time Frame |
|---|---|---|
| Proportion of OHCA cases with drone arrival ahead of EMS arrival | 6 months (Aim 3a) | |
| Proportion of OHCA cases with drone arrival ahead of EMS arrival | 15 months (Aim 3c) | |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Leo Brothers, MPH | Contact | 919-641-3555 | joseph.l.brothers@duke.edu | |
| Lauren Wilverding | Contact | lauren.wilverding@duke.edu |
| Name | Affiliation | Role |
|---|---|---|
| Monique Starks, MD | Duke University | Principal Investigator |
| Daniel Mark, MD | Duke University | Principal Investigator |
| Joseph Ornato, MD |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Forsyth County | Recruiting | Clemmons | North Carolina | 27012 | United States |
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| ID | Term |
|---|---|
| D006323 | Heart Arrest |
| D016757 | Death, Sudden, Cardiac |
| ID | Term |
|---|---|
| D006331 | Heart Diseases |
| D002318 | Cardiovascular Diseases |
| D003645 | Death, Sudden |
| D003643 | Death |
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| Proportion of times AED was successfully deployed |
| 6 months (Aim 3b) |
| Time from drone arrival on scene to AED delivery on the ground | 6 months (Aim 3b) |
| Drone altitude at time of deployment | 6 months (Aim 3b) |
| Rates of bystander AED application | 15 months (Aim 3c) |
| Proportions of initial shockable rhythm | 15 months (Aim 3c) |
| Proportion of bystander defibrillation | 15 months (Aim 3c) |
| Proportion of first responder defibrillation | 15 months (Aim 3c) |
| Virginia Commonwealth University |
| Principal Investigator |
| D010335 |
| Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |